CN109303473A - Cooking utensil - Google Patents

Abstract

A cooking utensil, comprising: a pot body, an outer side wall of the pot body is provided with a accommodating groove, the groove wall of the accommodating groove is provided with a first protruding structure extending toward the interior of the accommodating groove; on the pot body; the first workpiece is accommodated in the accommodating groove, and the first workpiece is disassembled along the front and rear directions of the pot body, the first workpiece can be disengaged from the accommodating groove, and the first workpiece is provided with a structure that cooperates with the first protrusion The first matching structure is used for positioning the first workpiece; the second workpiece is located in the pot body, and the second workpiece is fixed on the first protruding structure through the connecting piece. The application of the technical solution of the present invention can effectively solve the problem of the large volume of the cooking utensils in the prior art.

Description

Cooking apparatus

Technical field

The present invention relates to cooking apparatus, in particular to a kind of improvement of the pot body of cooking apparatus.

Background technique

Currently, electric pressure cooking saucepan in the prior art is all taken due to being easy to appear overflowing pot phenomenon, exhaust when exhaust Intermittent exhaust mode.The time that above-mentioned exhaust mode occupies is long, can not achieve reduction of blood pressure in high-speed and uncaps.In order to quick The pressure inside electric pressure cooking saucepan is reduced, Rapid opening is realized, cooling chamber can be generally set in electric pressure cooking saucepan, quickly to reduce The temperature of interior pot or pot cover.With the rapid decrease of the temperature of interior pot or pot cover, pressure in interior pot also rapid decrease, thus real Existing Rapid opening, improves user experience.In the above-mentioned electric pressure cooking saucepan with Rapid opening function, can generally be arranged water tank and Water pump, coolant liquid can be recycled by water pump between water tank and cooling chamber.Water tank is removably disposed on electric pressure cooking saucepan, is Positioning water tank is typically provided with position limiting structure, in order to fix water pump mounting post, above-mentioned knot is generally provided on electric pressure cooking saucepan Not only structure is complicated for structure, and the space occupied is larger, so that the small product size of electric pressure cooking saucepan is larger, reduces the beauty of electric pressure cooking saucepan Sight degree.

Summary of the invention

The main purpose of the present invention is to provide a kind of cooking apparatus, to solve the volume of cooking apparatus in the prior art Larger problem.

To achieve the goals above, the present invention provides a kind of cooking apparatus, comprising: pot body is set on the lateral wall of pot body Pockets are equipped with, the first bulge-structure towards pockets internal stretch is provided on the cell wall of pockets；Pot cover, lid It is located in pot body；First workpiece, is contained in pockets, and the front-rear direction along pot body dismantles the first workpiece, the first workpiece energy It is enough to deviate from out of pockets, it is provided on the first workpiece with the first fit structure of the first bulge-structure cooperation to position the One workpiece；Second workpiece is located in pot body, and second workpiece is fixed on the first bulge-structure by connector.

Further, the first fit structure is the first recessed structure cooperated with the first bulge-structure.

Further, the cell wall of pockets includes the groove roof, groove bottom wall and connecting groove top being oppositely arranged The connection side wall of wall and groove bottom wall, the first bulge-structure are arranged on groove bottom wall.

Further, the first bulge-structure is located at groove bottom wall and the junction that connect side wall.

Further, pot body includes shell and the interior pot in shell, and interior pot is to hold food to be cooked, outside The temperature of interior pot is reduced between shell and interior pot with cooling chamber, pockets are arranged on the lateral wall of shell.

Further, the first workpiece is water tank, and second workpiece is water pump, coolant liquid by water pump water tank and cooling chamber it Between recycle.

Further, the first fit structure is arranged in the tank bottom wall of water tank.

Further, the lower part of the first bulge-structure is provided with the first mounting hole upwardly extended, and connector is screw, spiral shell Nail cooperates after penetrating second workpiece with the first mounting hole second workpiece to be fixed on the first bulge-structure.

Further, the first bulge-structure is spaced two, and two the first bulge-structures are along perpendicular to pot body Front-rear direction arrangement.

Further, cooking apparatus is electric pressure cooking saucepan.

It applies the technical scheme of the present invention, the first bulge-structure can position the first workpiece, and be capable of fixing the second work Part avoids the installing component of setting installation second workpiece, on the one hand reduces production cost, it is empty on the other hand to reduce occupancy Between, and then the volume of cooking apparatus is reduced, so that the appearance of cooking apparatus is more beautiful, solve culinary art in the prior art The larger problem of the volume of utensil.

Detailed description of the invention

The accompanying drawings constituting a part of this application is used to provide further understanding of the present invention, and of the invention shows Examples and descriptions thereof are used to explain the present invention for meaning property, does not constitute improper limitations of the present invention.In the accompanying drawings:

Fig. 1 shows the pot body of the embodiment of cooking apparatus according to the present invention and the decomposition texture schematic diagram of water tank；

Fig. 2 shows the enlarged structure schematic diagrams at the A of the cooking apparatus of Fig. 1；

Fig. 3 shows the enlarged structure schematic diagram at the B of the cooking apparatus of Fig. 1；

Fig. 4 shows the vertical profile structural schematic diagram of the cooking apparatus of Fig. 1；

Fig. 5 shows the enlarged structure schematic diagram at the C of the cooking apparatus of Fig. 4；

Fig. 6 shows the enlarged structure schematic diagram at the D of the cooking apparatus of Fig. 4；

Fig. 7 shows the schematic perspective view of the heating device ontology of the cooking apparatus of Fig. 1；

Fig. 8 shows the enlarged structure schematic diagram at the E of the cooking apparatus of Fig. 7；

Fig. 9 shows the enlarged structure schematic diagram for eliminating filter device of the cooking apparatus of Fig. 8；

Figure 10 shows the vertical profile structural schematic diagram of the cooking apparatus of Fig. 7；

Figure 11 shows the enlarged structure schematic diagram at the F of the cooking apparatus of Figure 10；

Figure 12 shows the stereochemical structure signal of an angle for eliminating pot cover and middle plate for the cooking apparatus of Fig. 1 Figure；

Figure 13 shows the enlarged structure schematic diagram at the I of the cooking apparatus of Figure 12；

Figure 14 show the J-J of the cooking apparatus of Figure 12 to vertical profile structural schematic diagram；

Figure 15 shows the enlarged structure schematic diagram at the M of the cooking apparatus of Figure 14；

Figure 16 shows the vertical profile structural schematic diagram of the water inlet communicating pipe of the cooking apparatus of Figure 14；

Figure 17 shows the enlarged structure schematic diagrams at the K of the cooking apparatus of Figure 14；

Figure 18 shows the vertical profile structural schematic diagram of the water outlet communicating pipe of the cooking apparatus of Figure 14；

Figure 19 shows the schematic perspective view of the first adapter of the cooking apparatus of Fig. 1；

Figure 20 shows the perspective structure schematic diagram of the water tank of the cooking apparatus of Fig. 1；

Figure 21 shows the schematic perspective view for eliminating shell and bottom case of the pot body of the cooking apparatus of Fig. 1；

Figure 22 shows the schematic perspective view of the shell of the cooking apparatus of Fig. 1；

Figure 23 shows the enlarged structure schematic diagram at the N of the cooking apparatus of Figure 22；

Figure 24 shows the stereochemical structure signal of another angle for eliminating pot cover and middle plate of the cooking apparatus of Fig. 1 Figure；

Figure 25 shows the enlarged structure schematic diagram at the P of the cooking apparatus of Figure 24；

Figure 26 show the Q-Q of the cooking apparatus of Figure 12 to vertical profile structural schematic diagram；

Figure 27 shows the schematic perspective view for eliminating pot cover of the cooking apparatus of Fig. 1；

Figure 28 shows the enlarged structure schematic diagram at the R of the cooking apparatus of Figure 27；

Figure 29 shows the shell of the cooking apparatus of Fig. 1 and the decomposition texture schematic diagram of bottom case；

Figure 30 shows the present invention looks up structural representation of the pot body of the cooking apparatus of Fig. 1；And

Figure 31 shows the schematic perspective view for eliminating bottom case of the pot body of the cooking apparatus of Fig. 1.

Wherein, the above drawings include the following reference numerals:

1, cooling chamber；2, spilling water channel；3, water overflow chamber；10, pot body；11, shell；111, pockets；1111, groove top Wall；1112, groove bottom wall；1113, side wall is connected；1114, escape port；112, the first bulge-structure；113, the first mounting hole； 114, mounting cylinder；115, installation protrusion；116, mounting post；117, the second bulge-structure；1171, the first guiding surface；1172, Two guiding surfaces；1173, transition face；118, the second recessed structure；12, interior pot；13, heating device；131, heating device ontology； 132, bottom；1321, drainage trough；133, temperature sensing device；1331, temperature sensing device ontology；1332, temperature sensing device sealing ring；134, Cooling liquid outlet；135, filter device；136, barrel；137, bracket；138, cooling liquid inlet；139, stop part；14, in Plate；141, middle plate ontology；142, overflow pipe；1421, the second horizontal segment；1422, the second vertical section；15, sealing structure；16, bottom Shell；161, heat release hole；20, water tank；21, the first water tank side wall；22, the second water tank side wall；221, the second fit structure；23, Three-tank side wall；24, the 4th water tank side wall；25, tank bottom wall；251, the first fit structure；30, water pump；31, the first water pump； 32, the second water pump；33, first end；34, second end；40, the first communicating pipe；40a, water inlet communicating pipe；40b, water outlet communicating pipe； 41, it is connected to tube body；42, first annular flange；43, the second annular flange；44, installation groove；50, the second communicating pipe；51, A connecting pipe section；52, the second connection pipeline section；54, third connecting pipeline section；55, the 4th connection pipeline section；53, the second adapter；531, First horizontal segment；532, the first vertical section；60, first adapter；61, pressure connecting disk；611, sealing ring；612, the second mounting hole； 62, connecting tube；621, the first pipeline section；622, the second pipeline section；70, locating part；71, baffle plate；72, connecting plate；80, communicating pipe.

Specific embodiment

It should be noted that in the absence of conflict, the features in the embodiments and the embodiments of the present application can phase Mutually combination.The present invention will be described in detail below with reference to the accompanying drawings and embodiments.

As shown in Figures 1 to 5, the cooking apparatus of the present embodiment includes pot body 10, the first workpiece and second workpiece.Its In, it is provided with pockets 111 on the lateral wall of pot body 10, is provided on the cell wall of pockets 111 towards pockets 111 First bulge-structure 112 of internal stretch.First workpiece is contained in pockets 111, and the front-rear direction along pot body 10 is dismantled First workpiece, the first workpiece can be deviate from out of pockets 111, are provided on the first workpiece and match with the first bulge-structure 112 The first fit structure 251 closed is to position the first workpiece.Second workpiece is located in pot body 10, and second workpiece is solid by connector It is scheduled on the first bulge-structure 112.

Using the technical solution of the present embodiment, the first bulge-structure 112 can position the first workpiece, and be capable of fixing Two workpiece avoid the installing component of setting installation second workpiece, on the one hand reduce production cost, on the other hand reduce occupancy Space, and then the volume of cooking apparatus is reduced, so that the appearance of cooking apparatus is more beautiful, solve in the prior art cook It prepares food the larger problem of volume of utensil.

As shown in Figure 1, Figure 2, shown in Fig. 4 and Fig. 5, in the present embodiment, the first fit structure 251 is and the first bulge-structure First recessed structure of 112 cooperations.When left and right directions play of first workpiece along pot body 10, first on the first workpiece is recessed The inner wall of structure will be abutted with the first bulge-structure 112 to limit the first recessed structure.Since the first recessed structure setting exists On first workpiece, therefore the first workpiece is also limited.In addition, above-mentioned bulge-structure and the cooperation of recessed structure are simple, easily In processing.

As shown in Figure 1 and Figure 5, in the present embodiment, the cell wall of pockets 111 includes the groove roof being oppositely arranged 1111, the connection side wall 1113 of groove bottom wall 1112 and connecting groove roof 1111 and groove bottom wall 1112, the first protrusion knot Structure 112 is arranged on groove bottom wall 1112.Above structure is simple, easy to process.Certainly, it will be appreciated by those skilled in the art that First bulge-structure 112 (the setting position of practical second workpiece) setting can also connect side wall 1113 according to the actual situation On.

As shown in Figure 1 and Figure 5, in the present embodiment, the first bulge-structure 112 be located at groove bottom wall 1112 with connect side wall 1113 junction.When user takes water tank, the first workpiece can be removed by directly applying forward power to the first workpiece.Cause This, above structure facilitates user to take the first workpiece, so as to improve the usage experience of user.Certainly, those skilled in the art answer When knowing, the setting position of the first bulge-structure 112 be not limited to groove bottom wall 1112 with connect the junction of side wall 1113, can also The middle part of groove bottom wall 1112 is arranged in.When the middle part of groove bottom wall 1112 is arranged in the first bulge-structure 112, the first work The first recessed structure on part corresponds to mounting hole, when the first workpiece is mounted in pockets 111, the first bulge-structure 112 stretch in mounting hole.It when user takes the first workpiece, needs first to move up the first workpiece, makes the first protrusion knot Structure 112 is deviate from out of mounting hole.Then apply forward power to the first workpiece again to remove the first workpiece.

As shown in figure 4, in the present embodiment, pot body 10 includes shell 11 and the interior pot 12 in shell 11, interior pot 12 to hold food to be cooked, reduces the temperature of interior pot 12 between shell 11 and interior pot 12 with cooling chamber 1, accommodates recessed Slot 111 is arranged on the lateral wall of shell 11.In said structure, since cooling chamber 1 can quickly reduce the temperature of interior pot 12, Therefore also rapid decrease to realize Rapid opening improves user experience therewith for pressure in pot 12.Due to the first workpiece It is the component for needing user to take often, therefore the pockets 111 for accommodating it is arranged on the lateral wall of shell, thus side Just user takes.

Since the coolant liquid in cooling chamber 4 can be contacted with the higher interior pot 12 of temperature, the temperature of coolant liquid can be quick It increases.Since the temperature of coolant liquid is higher, then the heat absorption capacity of coolant liquid will decline, and heat absorption efficiency is lower.In order to Enough further increase speed of uncapping.As shown in Figure 1, in the present embodiment, the first workpiece is water tank 20, and second workpiece is water pump 30, coolant liquid is recycled between water tank 20 and cooling chamber 1 by water pump 30.Above structure enables the coolant liquid in cooling chamber 1 Lower temperature is enough kept, to guarantee the heat absorption capacity of coolant liquid, improves heat absorption efficiency, and then realize mentioning for speed of uncapping It is high.

As depicted in figs. 1 and 2, in the present embodiment, the tank bottom wall 25 of water tank 20 is arranged in the first fit structure 251 On.Above structure is simple, is easily assembled.

As shown in Figure 4 and Figure 5, in the present embodiment, the lower part of the first bulge-structure 112 is provided with first upwardly extended Mounting hole 113, connector are screw, and screw cooperates after penetrating second workpiece with the first mounting hole 113 to fix second workpiece On the first bulge-structure 112.Specifically, in the present embodiment, second workpiece is water pump 30, and water pump 30 has mounting rack, peace It shelves and is provided with mounting hole.The mounting hole on mounting rack is correspondingly arranged with the first mounting hole 113 when installation, then by screw In the mounting hole and the first mounting hole 113 being threaded through on mounting rack from bottom to up.Above-mentioned mounting means is simple, is easily assembled.

As shown in Figure 1, in the present embodiment, the first bulge-structure 112 is spaced two, two first protrusion knots Structure 112 is along the front-rear direction arrangement perpendicular to pot body 10.On the one hand above structure makes the locating effect of water tank 20 more preferable.It is another Aspect, which can correspond to, fixes two water pumps 30, improves space utilization rate..

As shown in Fig. 4, Fig. 7 to Figure 11, in the present embodiment, pot body 10 further includes heating device 13, and heating device 13 Cooling chamber 1 is formed between shell 11 and interior pot 12, between interior pot 12 and heating device 13 to reduce the temperature of interior pot 12, heating The bottom 132 of device 13 is provided with temperature sensing device 133, and the outer circumferential of temperature sensing device 133 is provided with drainage trough 1321, drainage trough 1321 have low spot L, are provided with cooling liquid outlet 134 in drainage trough 1321, wherein cooling liquid outlet 134 is located at low spot L.

Using the technical solution of the present embodiment, when the coolant liquid in cooling chamber 1 is more, coolant liquid can be directly from cooling 134 outflow of liquid outlet.When the coolant liquid in cooling chamber 1 is less, above structure is able to enter the coolant liquid in cooling chamber 1 In the lower drainage trough 1321 in position, then flow at the low spot L of drainage trough 1321, and finally the coolant liquid from low spot L goes out Mouth outflow.Above structure can greatly reduce the residual quantity of the coolant liquid remained in cooling chamber 1, to reduce residual corrosion The extent of corrosion of the cavity wall of cooling chamber 1, the final service life for guaranteeing cooking apparatus, solves cooking apparatus in the prior art The short problem of service life.

As shown in Figure 8 and Figure 9, in the present embodiment, drainage trough 1321 also has high point H.Above structure to enter and draw The coolant liquid of chute 1321 can flow to low spot L from high point H under the action of its own gravity, and finally from cooling liquid outlet 134 outflows, above structure can be further reduced the residual quantity of the coolant liquid remained in cooling chamber 1.

As shown in Fig. 8 to Figure 10, in the present embodiment, drainage trough 1321 is annular in shape, and drainage trough 1321 is in circumferential direction On the curve Z that is surrounded of minimum point of each position be located in same clinoplain.Above-mentioned incline structure can be to coolant liquid Play guiding role, coolant liquid can gradually flow to low spot L along drainage trough 1321 (inclined surface), i.e., no matter it is any be higher than it is low The trend of the oriented low spot L flowing of coolant liquid at the position of point L, remains in cooling chamber 1 so as to reduce to the full extent The residual quantity of interior coolant liquid.Difference in height of the G between high point H and low spot L in Figure 10.

In other embodiments, the outer edge of the cross section of drainage trough 1321 and/or inside edge are in polygon, ellipse. Above structure is simple, easy to process.

As shown in Fig. 7, Fig. 8 and Figure 11, in the present embodiment, filter device 135 is provided at cooling liquid outlet 134.On The impurity that structure can contain in primary filtration coolant liquid is stated, avoids these impurity from entering in water pump 30, to guarantee water pump 30 Service life.

As shown in Fig. 7, Fig. 8 and Figure 11, in the present embodiment, filter device 135 is filter screen.Above structure is simple, easily In processing and assembly.Certainly, it will be appreciated by those skilled in the art that it can also be by multilayer mistake that filter device, which is not limited to filter screen, The structures such as the filter block of filtering layer composition.

As shown in Figure 7 to 10, in the present embodiment, the middle part of bottom 132 is provided with the installation of installation temperature sensing device 133 Hole, temperature sensing device 133 protrude into heating device 13 temperature for measuring interior pot 12 after passing through mounting hole from bottom to up.

As shown in Figure 10, in the present embodiment, temperature sensing device 133 including temperature sensing device ontology 1331 and is set in temperature-sensitive Temperature sensing device sealing ring 1332 in device noumenon 1331, temperature sensing device sealing ring 1332, which is set in, to be protruded into heating device 13 On temperature sensing device ontology 1331 and seal the gap between the hole wall of mounting hole and temperature sensing device ontology 1331.Above structure can The gap between the hole wall and temperature sensing device ontology 1331 of mounting hole is sealed to prevent the coolant liquid in cooling chamber 1 from entering temperature-sensitive dress It sets in 133, to guarantee the service life of temperature sensing device 133.

As shown in Figure 12 to Figure 19, in the present embodiment, cooking apparatus further include: communicating pipe 80 and first adapter 60.Wherein, communicating pipe 80 includes the first communicating pipe 40 and the second communicating pipe 50, is threaded through on shell 11 simultaneously the first communicating pipe 40 It protrudes into water tank 20, the second communicating pipe 50 was connected to cooling chamber 1.The connection of first adapter 60 was connected to the first communicating pipe 40 with second Pipe 50, and the first communicating pipe 40 was crimped on shell 11.

Using the technical solution of the present embodiment, first adapter 60 can connect the first communicating pipe 40 and the second communicating pipe 50 Logical, above structure enables the coolant liquid in water tank 20 to pass through in the first communicating pipe 40 smoothly the second communicating pipe 50 of inflow and most It flows into cooling chamber 1 eventually, or flows into the coolant liquid in cooling chamber 1 smoothly in the first communicating pipe 40 by the second communicating pipe 50 And it finally flows into water tank 20.In addition, in the present embodiment, first adapter 60 will also be crimped on described outer first communicating pipe 40 On shell 11.When above structure can prevent cooking apparatus from working, the first communicating pipe 40 was detached from first adapter 60, to guarantee The reliability of cooking apparatus solves the problems, such as the poor reliability of cooking apparatus in the prior art.

In the present embodiment, first adapter 60 is made of hard material, and above structure can guarantee for the first communicating pipe 40 Junction with the second communicating pipe 50 is not in dead point, to guarantee the junction of the first communicating pipe 40 and the second communicating pipe 50 Communicating passage it is unimpeded, coolant liquid is successfully flowed between water tank 20 and cooling chamber 1.

As shown in Figure 12 to Figure 15, Figure 17 and Figure 19, in the present embodiment, first adapter 60 includes pressure connecting disk 61, the 40 part of a connecting pipe is folded between shell 11 and pressure connecting disk 61.Above structure is simple, and compression joint area is big, so that the first connection Pipe 40 can be more firmly clipped between shell 11 and pressure connecting disk 61.In addition, above structure is simple, it is easy to process.

As shown in Figure 14, Figure 15 and Figure 17, in the present embodiment, the first communicating pipe of installation is provided on groove roof 1111 40 mounting cylinder 114 is provided with installation protrusion 115 on the inner wall of mounting cylinder 114, be provided on the side wall of the first communicating pipe 40 with The installation groove 44 of 115 cooperation of installation protrusion.Above structure is simple, the first communicating pipe 40 can either by installation protrusion 115 with The cooperation of installation groove 44 is fixed on shell 11, and is crimped disk 61 and is pressed on shell 11.Dual fixation can be further Prevented for the first communicating pipe 40 be detached from first adapter 60, to be further ensured that the reliability of cooking apparatus.

As shown in Figure 13 to Figure 18, in the present embodiment, the first communicating pipe 40 set including the first connection tube body 41, interval Set the first annular flange 42 and the second annular flange 43 in connection 41 end of tube body, first annular flange 42, the second ring Shape flange 43 and the side wall for being connected to tube body 41 are collectively formed installation groove 44, first annular flange 42 be folded in pressure connecting disk 61 with Between installation protrusion 115.Above structure is simple, easy to process and assembly.

As shown in Figure 15, Figure 17 and Figure 19, in the present embodiment, the bottom of pressure connecting disk 61 is provided with sealing ring 611, sealing The upper surface of circle 611 and first annular flange 42, which seals, to be cooperated.Above structure can prevent coolant liquid from pressure connecting disk 61 and first Gap outflow between annular flange 42, to prevent shell 11 from being corroded.

As shown in Figure 13, Figure 15 and Figure 17, in the present embodiment, it is provided on groove roof 1111 and extends away from water tank 20 Mounting post 116, mounting post 116 is two that 114 two sides of mounting cylinder are arranged in, is provided on pressure connecting disk 61 and mounting post 116 The second mounting hole 612 being correspondingly arranged.Above structure is simple, and pressure connecting disk 61 applies first annular flange 42 and continues The downward power in ground, so that first annular flange 42 can be folded in securely between pressure connecting disk 61 and installation protrusion 115.

As shown in Figure 12, Figure 15 and Figure 17, in the present embodiment, first adapter 60 further includes the first communicating pipe 40 of connection With the connecting tube 62 of the second communicating pipe 50.Above structure is simple, easy to process.

Since the second communicating pipe 50 was hose, once if the bending angle of the second communicating pipe 50 is excessive, the second connection Pipe 50 causes the flowing of the coolant liquid in the second communicating pipe 50 to have some setbacks it is possible that dead point.To solve the above-mentioned problems, such as Shown in Figure 12, Figure 13, Figure 15 and Figure 17, in the present embodiment, connecting tube 62 includes the first pipeline section 621 for being laterally arranged, and first Pipeline section 621 is connect with the second communicating pipe 50, is in predetermined angular between the axis of the first pipeline section 621 and pot body 10 in the longitudinal direction To reduce the bending angle of the second communicating pipe 50.Due to being between the axis of the first pipeline section 621 and pot body 10 in the longitudinal direction Predetermined angular, therefore the second communicating pipe 50 after connecting with the first pipeline section 621 will be along the seam between shell and heating device The gentle arrangement of gap avoids the occurrence of the excessive situation of the bending angle of the second communicating pipe 50, so that in the second communicating pipe 50 Coolant liquid flowing it is smooth.

As shown in Figure 12, Figure 13, Figure 15 and Figure 17, in the present embodiment, connecting tube 62 further includes vertically arranged second Pipeline section 622, the second pipeline section 622 are connect with the first communicating pipe 40, and the second pipeline section 622 is threaded through on pressure connecting disk 61.Due to the second pipe Section 622 is vertically arranged, therefore the first communicating pipe 40 connected to it also will be vertically arranged, so that the outflow and sucking of coolant liquid are more Add smoothly.

As shown in FIG. 15 to 18, in the present embodiment, the end of the first communicating pipe 40 is provided with guiding surface, the second pipe The end of section 622 is provided with the cooperation inclined-plane with guiding surface cooperation, so that the second pipeline section 622 can smoothly protrude into the first connection In pipe 40.

In the present embodiment, connecting tube 62 is structure as a whole with pressure connecting disk 61.Above structure is simple, easy to process.In addition, Above structure reduces installation step, improves production efficiency.

As shown in Figure 12, Figure 14 and Figure 21, in the present embodiment, water pump 30 includes: the first water pump 31 and the second water pump 32, the first water pump 31 is connected to water tank 20 and cooling chamber 1, and coolant liquid is entered in cooling chamber 1 by the first water pump 31, and second Water pump 32 is connected to water tank 20 and cooling chamber 1, and the coolant liquid in cooling chamber 1 is entered in water tank 20 by the second water pump 32, Wherein, the first communicating pipe 40 included water inlet communicating pipe 40a and water outlet communicating pipe 40b, intake communicating pipe 40a and the first water pump 31 Connection, water outlet communicating pipe 40b are connected to the second water pump 32.Above structure makes coolant liquid pass through the first water pump 31 and the second water Pump 32 can recycle between water tank 20 and cooling chamber 1.

As shown in Figure 14, Figure 16 and Figure 18, in the present embodiment, the length of water inlet communicating pipe 40a is longer than water outlet communicating pipe The length of 40b.Above structure makes the outflow of coolant liquid and sucking more smooth.

In the following, specifically introducing the installation process of the first communicating pipe 40:

Firstly, the first communicating pipe 40 was protruded into mounting cylinder 114, and cooperate installation groove 44 and installation protrusion 115.So First adapter 60 was pressed on the first communicating pipe 40 afterwards, the end of the second pipeline section 622 is gradually protruded into during being pressed downward In first communicating pipe 40.After pressure connecting disk 61 is pressed in mounting post 116, make the second mounting hole 612 and installation on pressure connecting disk 61 Mounting hole alignment in column 116, then be threaded through in the mounting hole in the second mounting hole 612 and mounting post 116 i.e. by fastener It can.

As shown in Fig. 1, Figure 14 and Figure 22, in the present embodiment, connecting setting on side wall 1113, there are two the second protrusion knots Structure 117, two the second bulge-structures 117 are located at the two sides on the transverse direction of connection side wall 1113, are arranged on the first workpiece Have with the second fit structure 221 of the second bulge-structure 117 cooperation to position the first workpiece.

Using the technical solution of the present embodiment, setting is connected on side wall 1113 there are two the second bulge-structure 117, two the Two bulge-structures 117 are located at the two sides on the transverse direction of connection side wall 1113.When assembling the first workpiece, by the first workpiece The second fit structure 221 be directed at the second bulge-structure 117, the first workpiece is pushed away to the rear of pot body 10 after alignment, until the Until one workpiece is installed in place.On the one hand above structure can be avoided the first workpiece in 10 left and right directions play of pot body, and make The positioning of first workpiece is convenient and efficient, improves the user experience, and solves the usage experience difference of user in the prior art Problem.On the other hand, above structure can increase the intensity of the connection side wall 1113 of pot body 10, to ensure that cooking apparatus Service life.

As shown in figure 14, in the present embodiment, the second bulge-structure 117 extends to groove bottom wall from groove roof 1111 1112.Above structure makes seamless between the top and groove roof 1111 of the second bulge-structure 117, the second bulge-structure It is seamless between 117 bottom and groove bottom wall 1112.Therefore the second bulge-structure 117 and groove roof 1111 and groove-bottom The junction of wall 1112 will not hide ash, and user is facilitated to clean, and improve the user experience.In addition, above structure makes connecting side The intensity of wall 1113 is more preferable, further ensures the service life of cooking apparatus.

As shown in Fig. 1, Figure 14 and Figure 22, in the present embodiment, the second bulge-structure 117 is led including interconnected first To inclined-plane 1171 and the second guiding surface 1172, the first guiding surface 1171 and the angled setting of the second guiding surface 1172. Specifically, the second fit structure 221 is recessed structure.When assembling the first workpiece, by the second fit structure 221 of the first workpiece It is directed at the second bulge-structure 117, pushes away the first workpiece to the rear of pot body 10 after alignment, when the side wall of recessed structure is led with first When cooperating to inclined-plane 1171 or the second guiding surface 1172, the first workpiece is pushed backward, the first workpiece can be along scheduled side Into entrance pockets 111.Therefore, above structure can play guiding role, and the first workpiece is smoothly installed to Position.It should be noted that above-mentioned the first guiding surface 1171 and the second guiding surface 1172 is not limited to plane, can also be Cambered surface.

As shown in Fig. 1 and Figure 14, in the present embodiment, the second bulge-structure 117 further includes transition face 1173, transition face 1173 the first guiding surfaces 1171 of connection and the second guiding surface 1172.Above structure makes the first guiding surface 1171 and second The junction of guiding surface 1172 is softer, on the one hand user is prevented to be scratched, and on the other hand makes appearance more beautiful.

As shown in Fig. 1, Figure 12, Figure 20, Figure 24 and Figure 27, in the present embodiment, the first workpiece is water tank 20, and water tank 20 wraps It includes the first water tank side wall 21 being oppositely arranged, the second water tank side wall 22, be located at the first water tank side wall 21 and the second water tank side wall 22 Between the third water tank side wall 23 being oppositely arranged and the 4th water tank side wall 24 and tank bottom wall 25, the first water tank side wall 21 In the side of the separate connection side wall 1113 of the second water tank side wall 22, after in the installation to pockets 111 of water tank 20, third water Case side wall 23 and/or the 4th water tank side wall 24 are concordant with the lateral wall of shell 11.Specifically, in said structure, water tank 20 is in U Font, after water tank 20 is mounted in pockets 111, third water tank side wall 23 and/or the 4th water tank side wall 24 can with it is outer The flush of shell 11 being connected with it.After above structure installs water tank 20, the lateral wall formation one of cooking apparatus is complete Whole tubular, so that the appearance of product is more beautiful.

As shown in Fig. 1, Figure 12, Figure 21, Figure 22 and Figure 24, in the present embodiment, the inner surface of side wall 1113 is connected The second bulge-structure 117 at formed the second recessed structure 118 to avoid part heating device 13.Specifically, the second protrusion knot The back side of structure 117 forms the second recessed structure 118, and the second recessed structure 118 can avoid part heating device 13.In above-mentioned knot In structure, the second bulge-structure 117 can play the role of positioning the first workpiece, while 117 back side of the second bulge-structure forms the Two recessed structures 118 can also avoid part heating device outstanding, to reduce the volume of product.

As shown in Fig. 7, Figure 21 and Figure 24, in the present embodiment, heating device 13 is including heating device ontology 131 and admittedly Determine the bracket 137 of heating device ontology 131, the second recessed structure 118 can avoid bracket 137.

As shown in Figure 14, Figure 21 to Figure 25, in the present embodiment, 11 area defined of shell includes far from shell 11 The high-temperature area of inner wall is passed through coolant liquid to reduce the temperature of high-temperature area, cooking apparatus further include: locating part communicating pipe 80 70, it is arranged on the inner wall of shell 11, locating part 70 limits communicating pipe 80 so that communicating pipe 80 is far from high-temperature area.

Using the technical solution of the present embodiment, communicating pipe 80 is limited by locating part 70, enables communicating pipe 80 separate High-temperature area avoids communicating pipe 80 from damaging under high temperature environment, from the service life for improving cooking apparatus, solves the prior art In cooking apparatus the short problem of service life.

As shown in Figure 21 to Figure 25, in the present embodiment, heating device 13 forms high-temperature area when heated, at least partly Locating part 70 is located at communicating pipe 80 close to the side of heating device 13, is limited in the interior of locating part 70 and shell 11 communicating pipe 80 To prevent communicating pipe 80 to 13 play of heating device between wall.Since at least partly locating part 70 is located at communicating pipe 80 close to heating The side of device 13, therefore when communicating pipe 80 is to 13 play of heating device, locating part 70 can backstop communicating pipe 80, with the company of preventing Siphunculus 80 continues to contact, prevent with the higher heating device 13 of temperature so as to avoid communicating pipe 80 to 13 play of heating device Communicating pipe 80 heat damage.

As shown in Figure 22 to Figure 25, in the present embodiment, locating part 70 includes baffle plate 71 and connecting plate 72, baffle plate 71 are located at communicating pipe 80 close to the side of heating device 13, and connecting plate 72 connects baffle plate 71 and shell 11.Above structure is simple, It is easy to process.Specifically, when communicating pipe 80 is to 13 play of heating device, baffle plate 71 can backstop communicating pipe 80, with the company of preventing Siphunculus 80 continues to 13 play of heating device.

As shown in figure 3, in the present embodiment, the edge of the separate shell 11 at the edge and connecting plate 72 of baffle plate 71 connects It connects, the angle between baffle plate 71 and connecting plate 72 is between 80 ° to 150 °.

As shown in Figure 21 and Figure 25, in the present embodiment, the second communicating pipe 50 included that the first connection pipeline section 51, second is connected to Pipeline section 52 and the first connection pipeline section 51 of connection the second adapter 53 for being connected to pipeline section 52 with second, first is connected to pipeline section 51 and the A connecting pipe 40 is connected to, and the second connection pipeline section 52 is connected to cooling chamber 1, and locating part 70 and the second adapter 53 cooperate.Above-mentioned knot The coolant liquid that structure enables the first connection pipeline section 51 to be connected in pipeline section 52 with second is interconnected.In the present embodiment, second Adapter 53 is made of hard material, and generates dead point with the junction for preventing the first connection pipeline section 51 to be connected to pipeline section 52 with second, Guarantee the fluency of coolant flow.

As shown in figure 25, in the present embodiment, the second adapter 53 includes first horizontal segment 531 and the first vertical section 532, the first vertical section 532 is contacted with connecting plate 72, and between baffle plate 71 and the inner wall of shell 11.Specifically, After installation, the first vertical section 532 is supported on connecting plate 72, and above structure can guarantee that the first vertical section 532 being capable of position always Between baffle plate 71 and the inner wall of shell 11, thus guarantee that baffle plate 71 can play backstop action to the first vertical section 532, It is final to realize the purpose for preventing 80 heat damage of communicating pipe.

In the present embodiment, locating part 70 is an integral molding structure with shell 11.Above structure is simple, easy to process.

As shown in Fig. 1, Fig. 3 and Figure 26, in the present embodiment, spilling water channel 2,2, spilling water channel are provided in pot body 10 In cooling chamber 1 top and be connected to cooling chamber 1, when the liquid level of coolant liquid be higher than predetermined position when, coolant liquid can be from spilling water It flows out in channel 2.

Using the technical solution of the present embodiment, when the liquid level of the coolant liquid in cooling chamber 1 is higher than predetermined position, coolant liquid energy Enough to flow out from spilling water channel 2, other regions for preventing coolant liquid from entering in pot body 10 avoid making cooking apparatus by discharge At adverse effect, so as to improve the usage experience of user.

As shown in Fig. 1, Fig. 3 and Figure 26, in the present embodiment, when the liquid level of the coolant liquid in cooling chamber 1 is higher than pre-determined bit When setting, coolant liquid can flow out in water tank 20 from spilling water channel 2.The coolant liquid flowing in water tank 20 can be returned by water pump 30 With the cooling of internal pot 12 in cooling chamber 1, above structure enables the coolant liquid flowed out from spilling water channel 2 to be recycled, To improve the utilization rate of coolant liquid.

As shown in figure 26, in the present embodiment, pot body 10 further includes middle plate 14, and the top of shell 11 is arranged in middle plate 14, Spilling water channel 2 is formed on middle plate 14, and the cavity that middle plate 14 is surrounded is water overflow chamber 3, spilling water channel 2 and water overflow chamber 3 and cold But chamber 1 is connected to, and when coolant liquid enters in water overflow chamber 3, and when the liquid level of coolant liquid is higher than spilling water channel 2, coolant liquid can be from It flows out in spilling water channel 2.Above structure is simple, easy to process and assembly.

As shown in Figure 1, in the present embodiment, middle plate 14 includes middle plate ontology 141 and is threaded through on middle plate ontology 141 Overflow pipe 142 forms spilling water channel 2 inside overflow pipe 142.When coolant liquid enters in water overflow chamber 3, and the liquid level of coolant liquid is high When spilling water channel 2, coolant liquid will flow to outlet end from the arrival end of overflow pipe 142.Above structure is simple, it is easy to accomplish.

As shown in Fig. 1, Fig. 3 and Figure 26, in the present embodiment, evacuation overflow pipe 142 is provided on groove roof 1111 Escape port 1114.Specifically, after middle plate 14 is installed in place, the outlet end of overflow pipe 142 can be pierced by from escape port 1114, and spilling water The outlet end of pipe 142 is located at the surface of water tank 20, and above structure enables the coolant liquid flowed out from overflow pipe 142 smoothly to flow Enter in water tank 20.

As shown in figure 26, in the present embodiment, overflow pipe 142 includes the second horizontal segment 1421 and the second vertical section 1422, the second vertical section 1422 protrudes into escape port 1114.The opening of second vertical section 1422 towards water tank 20 is arranged, above-mentioned knot Structure enables coolant liquid smoothly to flow into water tank 20.Certainly, it will be appreciated by those skilled in the art that the second horizontal segment 1421 simultaneously Not only refer to that horizontally disposed pipeline section, the second horizontal segment 1421 can also be arranged between horizontal plane in predetermined angular, In the arrival end of the second horizontal segment 1421 be higher than the outlet end of the second horizontal segment 1421, above structure is further such that water overflow chamber The enough smoothly export of water energy in 3.

In the present embodiment, middle plate ontology 141 is an integral molding structure with overflow pipe 142.Above structure is simple, convenient for adding Work.In addition, above structure reduces the installation step of overflow pipe 142, to improve assembly efficiency.

As shown in Fig. 4, Fig. 6 and Figure 26, in the present embodiment, sealing structure is provided between middle plate 14 and heating device 13 15 to prevent gap outflow of the coolant liquid therefrom between plate 14 and heating device 13.Above structure can seal in plate 14 and heating Gap between device 13 prevents the damage of the electric elements due to caused by discharge.

As shown in Fig. 4, Fig. 6 and Figure 26, in the present embodiment, sealing structure 15 is sealing ring.Above structure is simple, sealing Property is good, and is easily assembled.

As shown in Figure 27 and Figure 28, in the present embodiment, cooling liquid inlet 138, cooking pot are provided on heating device 13 Tool further includes stop part 139.So that coolant liquid cannot be direct between pot 12 and cooling liquid inlet 138 including the setting of stop part 139 It is ejected on interior pot 12.

Using the technical solution of the present embodiment, when coolant liquid enters cooling chamber 1 from cooling liquid inlet 138, coolant liquid meeting First by 139 backstop of stop part.Coolant liquid by backstop will not be contacted directly with interior pot 12.It is cold in cooling chamber 1 with entering But the rising of the liquid level of liquid, interior pot 12 immerse in coolant liquid at leisure, thus greatly reduce the amount for generating steam, reduce as far as possible Into the quantity of steam in other regions in pot body 10, reduces steam and adverse effect is caused to cooking apparatus, to improve user Usage experience.

As shown in Figure 27 and Figure 28, in the present embodiment, stop part 139 is stop tab.Above structure is simple, is easy to add Work.

As shown in Figure 27 and Figure 28, in the present embodiment, stop part 139 is arranged on heating device 13.Above structure letter It is single, it is easy to process.Certainly, it will be appreciated by those skilled in the art that stop part 139 also can be set in other structures, such as On middle plate.

In the present embodiment, stop part 139 is an integral molding structure with heating device 13.Above structure is simple, is easy to add Work.In addition, above structure reduces the installation steps of installation stop part 139, to improve production efficiency.Preferably, backstop Part 139 and heating device 13 are integrated injection molding.

As shown in Figure 27 and Figure 28, in the present embodiment, heating device 13 is upward including bottom 132 and by bottom 132 It is formed between the bottom 132 and barrel 136 of the barrel 136 of extension, interior pot 12 and heating device 13 and accommodates the cold of coolant liquid But the junction of bottom 132 Yu barrel 136 is arranged in cooling interior pot 12, stop part 139 in chamber 1.

In the present embodiment, bottom 132 is an integral molding structure with barrel 136.Above structure is simple, easy to process. In addition, above structure reduces the step being mounted on barrel 136 on bottom 132, to improve production efficiency.

It should be noted that heating device 13 in the present embodiment has bottom 132 and the cylinder on bottom 132 Body portion 136, wherein coil is provided on bottom 132 for heating interior pot 12, barrel 136 is for keeping the temperature.Preferably, at this In embodiment, bottom 132 is structure as a whole with barrel 136, still, it will be appreciated by those skilled in the art that bottom 132 and cylinder Body portion 136 or separate structure, i.e. bottom 132 are heating dish, and barrel 136 is insulation cover, and heating dish and insulation cover fill Heating device ontology 131 is formed after matching.

It should also be noted that, heating device 13 includes heating device ontology 131 and bracket 137, heating device ontology 131 include bottom 132 and barrel 136.

As shown in Figure 14, Figure 21 and Figure 29, in the present embodiment, water pump 30 includes: the first water pump 31 and the second water pump 32, the first water pump 31 is connected to water tank 20 and cooling chamber 1, and the coolant liquid in water tank 20 enters to cooling by the first water pump 31 In chamber 1, the second water pump 32 is connected to water tank 20 and cooling chamber 1, and the coolant liquid in cooling chamber 1 is entered to by the second water pump 32 In water tank 20.

Using the technical solution of the present embodiment, the second water pump 32 extracts the coolant liquid in cooling chamber 1 out, so that cooling chamber 1 Interior coolant liquid can be extracted mostly as much as possible under the action of the external force that its own gravity and the second water pump 32 generate, Guarantee the service life of cooking apparatus.Further, since the first water pump 31 can control the stream into the coolant liquid in cooling chamber 1 Amount, the second water pump 32 can control the flow of the coolant liquid of outflow cooling chamber 1, therefore the liquid level of coolant liquid can be guaranteed predetermined In range, prevents coolant liquid from overflowing cooling chamber and solve the use of cooking apparatus in the prior art to improve the user experience The problem of family usage experience difference.

In the present embodiment, cooking apparatus further includes control unit.32 electricity of control unit and the first water pump 31 and the second water pump Connection, when control unit receives the first signal, the work of the first water pump 31, when control unit receives second signal, control unit control First water pump 31 is worked at the same time with the second water pump 32, so that coolant liquid can recycle in water tank 20 and cooling chamber 1, works as control unit When receiving third signal, the first water pump 31 stops working, and the second water pump 32 works on, when control unit receives fourth signal, Second water pump 32 stops working.Specifically, when needing quickly reduces the pressure in interior pot 12, the first water pump 31 of starting, first Water pump 31 starts to be passed through coolant liquid into cooling chamber 1, in the liquid level arrival preset range of the coolant liquid in cooling chamber 1, or When first water pump 31 has been passed through the coolant liquid of predetermined time, the second water pump 32 is opened.At this point, the first water pump 31 continues to cooling Coolant liquid is passed through in chamber 1, and the second water pump 32 starts the coolant liquid discharge in cooling chamber 1.Above scheme can guarantee water tank 20 recycle with the coolant liquid in cooling chamber 1, to realize the purpose of 12 temperature of pot in quickly reduction.Further, since the first water pump 31 is controllable with the pumping of the second water pump 32 and the flow of extraction coolant liquid, and therefore, the coolant liquid in cooling chamber 1 can remain Within a predetermined range, prevent coolant liquid from overflowing out of cooling chamber 1.After the temperature of interior pot 12 is reduced to predetermined temperature, Ke Yiting Only the first water pump 31, i.e. the first water pump 31 stop being passed through coolant liquid into cooling chamber 1.Second water pump 32 works on, cold at this time But the coolant liquid in chamber 1 can be all pumped into the recycling for realizing coolant liquid in water tank 20.

As shown in figure 26, in the present embodiment, cooling chamber 1 is in communication with the outside.

As shown in figure 26, in the present embodiment, heating device 13 includes bottom 132 and is upwardly extended by bottom 132 The cooling chamber 1 for accommodating coolant liquid is formed between the bottom 132 and barrel 136 of barrel 136, interior pot 12 and heating device 13, The top of interior pot 12 and the top of barrel 136 form opening to be in communication with the outside.Above structure make the volume of cooling chamber 1 compared with Greatly, the outer surface of interior pot 12 can the coolant liquid as much as possible in cooling chamber 1 contact, uncap speed to improve.

In the present embodiment, the first water pump 31 is one-way pump.Above structure is simple, at low cost.

In the present embodiment, the first water pump 31 is two-way pump.When pressure in need quickly to reduce in pot 12, starting the One water pump 31, the first water pump 31 start to be passed through coolant liquid into cooling chamber 1.After the temperature of interior pot 12 is reduced to predetermined temperature, It can be reversed the first water pump 31 of starting, i.e. the first water pump 31 stops being passed through coolant liquid into cooling chamber 1.Second water pump 32 continues work Make, the coolant liquid in cooling chamber 1 can be all pumped into the recycling for realizing coolant liquid in water tank 20 at this time.When in cooling chamber 1 Coolant liquid be reduced to predetermined altitude or all be extracted after, can be reversed starting the first water pump 31 so that in the first water pump 31 Coolant liquid can all be recycled in water tank 20.Above structure makes noresidue coolant liquid in the first water pump 31, to improve The service life of first water pump 31.

In the present embodiment, the second water pump 32 is one-way pump.Above structure is simple, at low cost.

As shown in Figure 29 to Figure 31, in the present embodiment, water pump 30 is located at the front of pot body 10, and the axis of water pump 30 with It is arranged between the axis of pot body 10 in the longitudinal direction in predetermined angular.

Using the technical solution of the present embodiment, since water pump 30 is located at the front of pot body 10, water pump 30 is in pot body 10 Length in the front-back direction determine the whole length of cooking apparatus in the longitudinal direction.Therefore, in the present embodiment, water pump It is arranged between the axis of 30 axis and pot body 10 in the longitudinal direction in predetermined angular.Above structure can shorten water pump 30 and exist Length on front-rear direction shortens the length of cooking apparatus in the longitudinal direction, to reduce the product of cooking apparatus Volume solves the problems, such as the bulky of cooking apparatus in the prior art.

It should be noted that in the present embodiment, cooking apparatus includes pot body 10 and the pot cover that lid is located in pot body, pot The side of lid is articulated in pot body 10, and the opposite other side of pot cover is connected in pot body 10 by clamping structure.In this implementation In example, the front of pot body 10 refers to that the side where clamping structure, the rear of pot body refer to one where the pivot of pivot joint Side.

As shown in figure 31, in the present embodiment, cooking apparatus includes that third connecting pipeline section 54 is connected to pipeline section 55 with the 4th, water 30 connection third connecting pipeline section 54 of pump is connected to pipeline section 55 with the 4th, and the free end of third connecting pipeline section 54 is connected to cooling chamber 1, the The free end of four connection pipeline sections 55 is connected to water tank 20, and water pump 30 includes first end 33 and second end 34, the pumping hole of water pump 30 Positioned at first end, in second end 34 to the direction of first end 33, between the axis of water pump 30 and pot body 10 in the longitudinal direction Distance gradually increase so that the 4th connection pipeline section 55 far from heating device 13.Above structure enables the 4th to be connected to pipeline section 55 Enough separate higher heating devices 13 of temperature to prevent the 4th connection 55 heat damage of pipeline section, and then guarantee cooking apparatus Service life.

As shown in figure 21, in the present embodiment, cooking apparatus included the second communicating pipe 50.Second communicating pipe 50 included in angle First connection pipeline section 51, second of degree setting is connected to pipeline section 52 and connection the first connection pipeline section 51 and is connected to pipeline section 52 with second Second adapter 53, third connecting pipeline section 54 are connected to pipeline section 55 with the 4th and form the second connection pipeline section 52, the 4th connection pipeline section 55 Free end by first connection pipeline section 51 be connected to water tank 20.

As shown in Figure 14 and Figure 21, in the present embodiment, cooking apparatus includes: the first communicating pipe 40 and first adapter 60.Wherein, the first communicating pipe 40 was threaded through on shell 11 and protruded into water tank 20.First adapter 60 was connected to for the first communicating pipe 40 With the second communicating pipe 50, the first connection pipeline section 51 of the second communicating pipe 50 with water tank 20 by being connected to the first communicating pipe 40.

As shown in figure 31, in the present embodiment, between the axis of the axis of water pump 30 and pot body 10 in the longitudinal direction Angle is between 8 degree to 50 degree.Above structure is further such that the 4th connection pipeline section 55 can be far from the higher heating dress of temperature 13 are set, to prevent the 4th connection 55 heat damage of pipeline section.

As shown in figure 31, in the present embodiment, water pump 30 is located at the side of the close water tank 20 of the bottom of shell 11.It is above-mentioned Structure enables water pump 30 as far as possible far from heating device 13, so that water pump 30 and the coolant liquid in the second communicating pipe 50 Temperature as far as possible low, to guarantee the heat absorption capacity of coolant liquid.In addition, the lower water tank 20 of temperature is arranged in water pump 30 Lower section enables water pump 30 as far as possible far from high-temperature area, to guarantee the service life of water pump 30.

As shown in figure 31, in the present embodiment, the first water pump 31 and the second water pump 32 are relative to pot body 10 in front-rear direction On axisymmetrical.Above structure is simple, convenient for assembly.

As shown in figure 30, in the present embodiment, pot body 10 further includes being located under shell 11, heating device 13 and interior pot 12 The bottom case 16 of side is provided with heat release hole 161 on bottom case 16, and the projection of heat release hole 161 in the horizontal plane and water pump 30 are in horizontal plane On projection be not overlapped.Above structure makes that water pump 30 will not be touched user's finger stretches in heat release hole 161, from And meet safety requirement.It should be noted that Figure 30 shows the present invention looks up structural representation of pot body, radiate as we can see from the figure The two sides in hole 161, heat release hole 161 have baffle, to block water pump 30.If the axis of water pump 30 and pot body 10 are in front and back If upward axis is in the same direction, then length of the baffle on the front-rear direction of pot body 10 will be longer, so that heat release hole 161 area becomes smaller.And if be arranged between the axis of the axis and pot body 10 of water pump 30 in the longitudinal direction in predetermined angular If.So length of the water pump 30 on the front-rear direction of pot body 10 will be shorter, blocks the baffle of water pump 30 in pot body 10 Length on front-rear direction will also shorten therewith, and the area of such heat release hole 161 is larger by what be can be set.Therefore, will Dissipating for cooking apparatus can be improved in predetermined angular setting between the axis of the axis and pot body 10 of water pump 30 in the longitudinal direction Thermal energy power.

As shown in Figure 29 and Figure 30, in the present embodiment, pot body 10 includes the bottom case 16 being arranged in below shell 11, in water After pump 30 is mounted on shell 11, bottom case 16 is installed.

Using the technical solution of the present embodiment, during installation, first water pump 30 is mounted on shell 11, at this time with water pump 30 The component of connection is fixed.Installation finally is can be completed into the lower section that the lid of bottom case 16 is located at shell 11.In said structure, by In water pump 30 not on bottom case 16, therefore, water pump 30 is interfered with shell 11 or other component when avoiding installation bottom case 16, Consequently facilitating installation, improves installation effectiveness, solve the problems, such as that the installation of cooking apparatus in the prior art is inconvenient.In addition, Due to being previously installed on shell 11 with water pump 30, the position for the pipeline connecting with water pump 30 can be fixed in advance, Then bottom case 16 is covered to the lower section for being located at shell 11 again.That is, bottom case 16 after the installation is completed, the pipe being connect with water pump 30 The position of line will not channel bit, and therefore, above structure can be avoided pipeline and contact with heating device 13, prevent pipeline heat damage, The final service life for guaranteeing cooking apparatus.

As shown in Fig. 4, Fig. 5 and Figure 31, in the present embodiment, the bottom of groove bottom wall 1112 is arranged in water pump 30.It is above-mentioned Structure is simple, is easily assembled.

In the present embodiment, cooking apparatus is electric pressure cooking saucepan.

The foregoing is only a preferred embodiment of the present invention, is not intended to restrict the invention, for the skill of this field For art personnel, the invention may be variously modified and varied.All within the spirits and principles of the present invention, made any to repair Change, equivalent replacement, improvement etc., should all be included in the protection scope of the present invention.

The foregoing is only a preferred embodiment of the present invention, is not intended to restrict the invention, for the skill of this field For art personnel, the invention may be variously modified and varied.All within the spirits and principles of the present invention, made any to repair Change, equivalent replacement, improvement etc., should all be included in the protection scope of the present invention.

Claims (10)

1. a kind of cooking apparatus characterized by comprising

Pot body (10) is provided with pockets (111) on the lateral wall of the pot body (10), the slot of the pockets (111) The first bulge-structure (112) towards the pockets (111) internal stretch is provided on wall；

Pot cover, lid are located on the pot body (10)；

First workpiece is contained in the pockets (111), and the front-rear direction along the pot body (10) dismantles first work Part, first workpiece can the abjection out of the pockets (111), be provided on first workpiece with it is described first convex First fit structure (251) of structure (112) cooperation is played to position first workpiece；

Second workpiece is located in the pot body (10), and the second workpiece is fixed on first bulge-structure by connector (112) on.

2. cooking apparatus according to claim 1, which is characterized in that first fit structure (251) is and described the First recessed structure of one bulge-structure (112) cooperation.

3. cooking apparatus according to claim 1, which is characterized in that the cell wall of the pockets (111) includes opposite Groove roof (1111), groove bottom wall (1112) and the connection groove roof (1111) of setting and the groove bottom wall (1112) connection side wall (1113), first bulge-structure (112) are arranged on the groove bottom wall (1112).

4. cooking apparatus according to claim 3, which is characterized in that first bulge-structure (112) is located at described recessed The junction of groove bottom wall (1112) and connection side wall (1113).

5. cooking apparatus according to claim 3, which is characterized in that the pot body (10) includes shell (11) and is located at Interior pot (12) in the shell (11), the interior pot (12) to hold food to be cooked, the shell (11) with it is described The temperature of the interior pot (12) is reduced between interior pot (12) with cooling chamber (1), the pockets (111) are arranged described On the lateral wall of shell (11).

6. cooking apparatus according to claim 5, which is characterized in that first workpiece be water tank (20), described second Workpiece is water pump (30), and coolant liquid is recycled between the water tank (20) and the cooling chamber (1) by the water pump (30).

7. cooking apparatus according to claim 6, which is characterized in that first fit structure (251) is arranged described In the tank bottom wall (25) of water tank (20).

8. cooking apparatus according to claim 1, which is characterized in that the lower part of first bulge-structure (112) is arranged Have the first mounting hole (113) upwardly extended, the connector is screw, the screw penetrate after the second workpiece with it is described First mounting hole (113) cooperates so that the second workpiece to be fixed on first bulge-structure (112).

9. cooking apparatus according to claim 1, which is characterized in that first bulge-structure (112) is interval setting Two, two first bulge-structures (112) are arranged along the front-rear direction perpendicular to the pot body (10).

10. cooking apparatus according to any one of claim 1 to 9, which is characterized in that the cooking apparatus is Voltage force Pot.