JP4723112B2 - Supply device in heating machine and supply device additional heat machine - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a supply device and a supply device additional heat machine in a heater such as a temper furnace for annealing metal parts, for example.
[0002]
[Prior art and problems to be solved by the invention]
Conventionally, a temper furnace that sequentially anneals a large number of metal parts is configured so that metal parts are successively introduced into the temper furnace one after another with a simply-feed type conveyor device, heated for a predetermined time, and then sequentially fed and discharged by this conveyor device. Therefore, if this supply device and discharge device are included, the device becomes extremely large, and a large space is required.
[0003]
In addition, when heat-treating a large number of metal parts, if the heat-treatment is performed by a predetermined amount and configured so that the predetermined amount can be discharged and stored, subsequent transportation, delivery, or packing processing becomes easy. In order to make it easy to manage the metal parts, it is simply configured that the parts are transported in a temper furnace. Due to variations in the furnace temperature, there is a problem that the heat is not uniform and deformation occurs especially in fine parts. It might be.
[0004]
The present invention has found such a problem in a conventional heating machine, and has solved this problem. Heating that has been inevitably large by simply heat-treating a large number of objects to be heated by transverse feed conveyance. The machine supply device and the discharge device can be improved to save space, and the heated object can be managed by placing the heated object on the tray body by a predetermined amount. It is an object of the present invention to provide a supply device and a supply device additional heat machine in an extremely excellent heater such that the internal temperature does not vary and deformation is hardly caused.
[0005]
[Means for Solving the Problems]
The gist of the present invention will be described with reference to the accompanying drawings.
[0006]
A supply device in a heating machine including a heat treatment unit 4 having an introduction unit 2 for supplying an object to be heated 1 and a lead-out unit 3 for discharging the object to be heated 1 that has been subjected to the heat treatment. A tray body supporting portion 6 for supporting and holding the tray body 5 on which the tray 1 is placed is provided in multiple stages in the vertical direction, and a moving mechanism 7 for sequentially moving the tray body supporting portions 5 upward is provided. A shooter portion 8 for feeding a predetermined amount of the object to be heated 1 to the tray body 5 being held can be disposed above the tray body 5. A guide introduction path 9 is provided for introducing the tray body 5 loaded with the medium into the heat treatment section 4 from the introduction section 2 of the heat treatment section 4, and the tray body 5 is introduced into the heat treatment section 4 along the guide introduction path 9. the tray member introducing mechanism 10 to introduce provided, and the moving mechanism 7 A vertical circular moving part 7B that circulates in the vertical direction by a rotational drive source 7A is provided, and a number of the tray support parts 6 are provided at predetermined intervals on the vertical circular moving part 7B, and the vertical direction of the position to move upward is provided. The tray body support section 6 is configured to support and hold the tray body 5 on the tray body support section 6 arranged in multiple stages, and the tray body support section 6 moves upward by the circular movement of the vertical circular movement section 7B. The shooter portion 8 is provided above the tray body 5, and the tray body 5 on which the article 1 to be heated is placed by the shooter portion 8 is guided by the tray body introduction mechanism 10 using the guide introduction path 9 as a guide. The tray body 5 is configured to be introduced into the heat treatment unit 4 through the introduction unit 2, and the shooter unit 8 has an insertion tip 8 </ b> A for dropping and charging one after another positioned at the top. G The uppermost tray body 5 disposed above the body 5 and loaded with the article 1 to be heated by the shooter 8 is introduced by the tray body introduction mechanism 10 using the guide introduction path 9 as a guide. The tray body support portion 6 moves the tray body 5 to the guide introduction path 9 without retreating the shooter portion 8. Then, the tray body support portion 6 has a shape having a relief opening portion 6A that can be moved upward by the vertical circular movement portion 7B .
[0007]
Further, the tray member bearing 6, characterized by being configured to substantially U-shaped frame shape or a substantially U-frame shape having an escape down opening 6A which outside opened is disposed side of the chute portion 8 It concerns on the supply apparatus in the heating machine of Claim 1 .
[0008]
Further, the heat treatment unit 4 is a temper furnace for annealing the article 1 to be heated, and the tray body 5 is arranged in a tandem multistage state on the introduction unit 2 side of the heat treatment unit 4. It concerns on the supply apparatus in the heater of Claim 1 characterized by the above-mentioned.
[0009]
In addition, the shooter unit 8 is configured to be swingable, and the shooter unit 8 is swung while the heated object 1 is dropped, so that the dropping position of the heated object 1 with respect to the tray body 5 can be varied. However, it is related to the supply device in the heater according to any one of claims 1 to 3 , wherein the object to be heated 1 is dropped and placed on the tray body 5.
[0010]
Further, the tray body introduction mechanism 10 has a structure in which a pushing body 10C that pushes the rear of the tray body 5 is provided in a horizontal orbiting moving portion 10B that orbits in a substantially horizontal direction by a rotation driving source 10A. It concerns on the supply apparatus in the heater of any one of Claims 1-4 .
[0011]
The supply device K according to any one of claims 1 to 5 is provided in the introduction unit 2 of the heat treatment unit 4.
[0012]
In addition, the tray body support portions 11 for receiving and holding the tray body 5 on which the heated object 1 on which the heat treatment has been completed are received and supported are provided in multiple stages in the vertical direction, and the tray body support portions 11 for discharge are sequentially provided. A discharge device H provided with a moving mechanism 12 that moves downward is disposed in the lead-out portion 3 of the heat treatment unit 4, and the discharge tray body support portion of the discharge device H from the lead-out portion 3 of the heat treatment unit 4. A guide lead-out path 13 leading to 11 is provided, and the tray body 5 on which the object to be heated 1 that has been subjected to the heat treatment along the guide introduction path 13 is placed from the heat treatment section 4 to the discharge tray body support section 11. 7. The feeding device additional heat machine according to claim 6, wherein the tray is introduced by the tray body introduction mechanism.
[0013]
Further, as the moving mechanism 12, a vertical circular moving portion 12B that circulates in the vertical direction by a rotational drive source 12A is provided, and a number of the discharge tray body support portions 11 are provided at predetermined intervals in the vertical circular moving portion 12B. The tray body 5 on which the heated object 1 having been subjected to the heat treatment is received and supported and held in the discharge tray body support portions 11 arranged in multiple stages in the vertical direction of the position to move downward. The supply apparatus additional heat machine according to claim 7 , wherein the supply apparatus additional heat machine is provided.
[0014]
DETAILED DESCRIPTION OF THE INVENTION
An embodiment of the present invention (how to carry out the invention) considered to be suitable will be briefly described with reference to the drawings, showing its effects.
[0015]
A tray body 5 is supported and held by each tray body support portion 6 arranged in multiple stages in the vertical direction, and a predetermined amount of object to be heated from the shooter portion 8 onto the tray body 5 supported and held by the tray body support portion 6. 1 (for example, a small metal part) is charged.
[0016]
When the charging is finished, the tray body 5 on which the article to be heated 1 is placed moves on the guide introduction path 9 by the tray body introduction mechanism 10 and moves from the introduction section 2 into the heat treatment section 4 (for example, the temper furnace section). It is introduced and heat-treated (for example, annealed) for a predetermined time.
[0017]
When the tray body 5 is thus introduced from the tray body support section 6 into the heat treatment section 4 via the guide introduction path 9 and the introduction section 2, the tray body support section 6 is moved upward by the moving mechanism 7. At the same time, the tray body support portion 6 that supports and holds the lower tray body 5 is raised, and the article 1 to be heated is again put on the tray body 5 from the shooter portion 8, and the heat treatment portion 4 is again supplied for each tray body 5. It is introduced in.
[0018]
As described above, the tray bodies 5 that are placed in the standby storage in multiple stages are sequentially raised one by one, and then the heated object 1 is input from the shooter unit 8 and sequentially introduced into the heat treatment unit 4.
[0019]
On the other hand, when the heat treatment in the heat treatment unit 4 is completed, the heat is sequentially derived from the derivation unit 3 and received and supported by the discharge tray body support unit 11 via the guide derivation path 13.
[0020]
The discharge tray body support portion 11 is arranged in multiple upper and lower stages like the supply device K, and is configured to sequentially move downward, whereby the tray body 5 on which the object to be heated 1 on which the heat treatment is finished is placed. The tray body 5 on which the object to be heated 1 is placed is sequentially received and moved downward, and is discharged and stored in multiple stages.
[0021]
Accordingly, the object to be heated 1 can be placed on the tray body 5 and sequentially heated, and sequentially discharged and stored. Therefore, by managing the tray body 5, the object to be heated 1 can be managed by a predetermined amount. Can be transported to the next step, delivered, or the object to be heated 1 that has been subjected to the heat treatment on the tray body 5 can be packed. Management of the article 1 to be heated is extremely easy.
[0022]
Also, the heat treatment is performed for each tray body 5, for example, introduced into the heat treatment section 4 for each tray body 5, temporarily stopped, subjected to heat treatment, and then led out. Since each tray body 5 is processed, temperature unevenness in the heat treatment unit 4 hardly occurs, and if the heated object 1 on the tray body 5 is placed without being raised, there is no possibility of deformation due to temperature unevenness. .
[0023]
Further, since the supply device K capable of waiting and storing the large number of tray bodies 5 supplied and transported for each tray body 5 can be arranged vertically in the introduction section 2 of the heat treatment section 4, the automatic tray supply system can be used. However, the increase in size of the heater can be eliminated, and space saving can be easily realized.
[0024]
Further, if the discharge device H is configured in the same manner as the supply device K as described above, it can be arranged vertically in the lead-out section 3 of the heat treatment section 4, so that a further heating machine can be used despite the tray automatic supply / discharge system. Therefore, the manageability can be further improved.
[0025]
【Example】
Specific embodiments of the present invention will be described with reference to the drawings.
[0026]
In the present embodiment, the introduction part 2 for supplying a large number of small metal parts 1 on the tray body 5 as the object to be heated 1 and the heat treatment (annealing) for a predetermined time are finished, and the metal parts 1 are discharged for each tray body 5. A heating apparatus (temper furnace) having a heat treatment section 4 (temper furnace section 4) having a lead-out section 3 is provided with a supply device K having a vertical configuration according to the present invention, and a vertical configuration substantially similar to the supply device K. The discharge device H is provided.
[0027]
In this embodiment, an opening / closing plate 14 as a curtain is provided at the left and right introduction parts 2 and the lead-out part 3 which are the entrances and exits of the temperature-controlled temper furnace part 4 to form a semi-sealed temper furnace part 4. The tray body 5 is sequentially introduced into the temper furnace section 4 one by one, heated for a predetermined time in a temporarily stopped state, and introduced once again from the introduction section 2 each time the tray body 5 is discharged from the outlet section 3. It is configured so that foreign matter is prevented from entering as much as possible, temperature unevenness (heat nonuniformity) for each metal part 1 in the temper furnace section 4 is not generated, and defective deformation is not generated in the small metal part 1. ing.
[0028]
Further, in this embodiment, the tray body introduction mechanism 10 that sequentially introduces and discharges the tray body 5 on which the article to be heated 1 is placed one by one, the tray body 5 that is introduced by the tray body introduction mechanism 10, and the tray body 5 A supply device K including a shooter unit 8 for dropping the heated object 1 and a discharge device H for receiving the tray body 5 (with the heated object 1 on which the heating process has been completed) derived by the tray body introduction mechanism 10; The heater is composed of
[0029]
The supply device K of the present embodiment is configured such that the tray body 5 is housed and arranged in a tandem multistage state on the introduction part 2 side of the temper furnace part 4.
[0030]
That is, a tray body support portion 6 for placing a metal shallow box-like tray body 5 on which an object to be heated 1 (small metal parts) is placed is provided in multiple stages at regular intervals in the vertical direction, and each tray body support portion is provided. A moving mechanism 7 is provided for sequentially moving 5 upward, and a shooter portion 8 for feeding a predetermined amount of the heated object 1 to the uppermost tray body 5 placed on the tray body supporting portion 6 is provided above the tray body 5. A large number of heated objects 1 are placed on the tray body 5 by receiving the object to be heated 1 sent from the unillustrated unloading device, and by sliding and dropping from the bowl-shaped shooter unit 8 that slides and conveys. A guide introduction path 9 comprising a pair of left and right guide rails 9 A for introducing the tray body 5 from the introduction section 2 of the heat treatment section 4 into the heat treatment section 4 is provided, and the tray body 5 is provided along the guide introduction path 9. Tray body introduction to introduce heat into the heat treatment unit 4 Has a configuration in which a mechanism 10.
[0031]
Specifically, as the moving mechanism 7, a vertical circular moving part 7B that circulates in the vertical direction by a rotational drive source 7A is provided, and a large number of tray body support parts 6 are provided at predetermined intervals in the vertical circular moving part 7B. The tray body 5 is configured to be placed on the tray body support portions 6 arranged in multiple stages in the vertical direction of the position to move upward. That is, in this embodiment, the rotational drive source 7A is constituted by an electric motor and a sprocket, and the orbiting moving portion 7B is constituted by a chain that is wound around a sprocket that is disposed vertically, and the tray support portion 6 is provided on the chain 7B. The tray body 5 is mounted and set on each tray body support portion 6 that moves above the chain 7B that circulates (is projected in multiple stages in a horizontal state). Therefore, since an air drive source is not required, versatility is improved and it can be manufactured at low cost.
[0032]
Further, a shooter unit 8 is provided above the uppermost tray body 5 (on the tray body support unit 6) at the same height as the introduction unit 2 of the heat treatment unit 4, and the object 1 to be heated is placed by the shooter unit 8. The tray body 5 loaded and placed is introduced into the heat treatment section 4 for each tray body 5 through the introduction section 2 by the tray body introduction mechanism 10 using the guide introduction path 9 as a guide.
[0033]
That is, the shooter unit 8 is provided with a charging tip 8A for dropping and discharging one after another above the tray body 5 positioned at the uppermost position, and the object 1 to be heated is loaded by the shooter unit 8. The uppermost tray body 5 is configured to be horizontally moved and introduced into the heat treatment section 4 through the introduction section 2 by the tray introduction mechanism 10 with the guide introduction path 9 as a guide. . By designing the guide introduction path 9 to be short, the supply device additional heat machine can be designed more simply and more compactly.
[0034]
Further, the tray support portion 6 has a relief opening 6A that can move around the tray body 5 horizontally after moving horizontally to the guide introduction path 9 without retreating the upper shooter 8 at the end. It is said. Specifically, the tray body support portion 6 is configured in a substantially U-shaped frame shape having the relief opening portion 6 </ b> A that is open on the outer side on which the shooter portion 8 is disposed.
[0035]
Therefore, the simple moving mechanism 7 can be adopted with a simple configuration, and the practicality is further improved.
[0036]
Further, the tray body introduction mechanism 10 has a structure in which a rod-like pushing body 10C that pushes the rear wall of the tray body 5 is provided in a horizontal orbiting moving portion 10B that orbits in a substantially horizontal direction by a rotation drive source 10A. . The rotational drive mechanism 10A is also composed of an electric motor and a sprocket, and the horizontal orbiting moving portion 10B is also composed of a chain wound around the sprockets provided on the left and right sides for simplification and does not require an air drive source.
[0037]
Further, although a plurality of pushers 10C are provided as a rod-like body at an interval from the chain 7B, a metal rod-like body is provided so as not to affect the furnace temperature control. Further, the tray body 5 is introduced into the heat treatment section 4 by using the guide introduction path 9 constituted by the left and right guide rails 9A as a guide by the pushing of the pusher 10C, and the guide rail 9A is provided in a continuous manner. It is guided by the lead-out path 13 and configured to be received and discharged to the discharge tray body support 11 having the same height as the discharge device H.
[0038]
Further, the shooter unit 8 of the present embodiment is configured to be swingable, and the shooter unit 8 is swung while dropping the heated object 1 to thereby set the position where the heated object 1 is dropped relative to the tray body 5. The object to be heated 1 is configured to drop and be placed on the tray body 5 while being variable.
[0039]
That is, a small metal component is used for dropping and throwing in the heated object 1 that is successively carried out while swinging the throwing tip 8A left and right and back and forth by the eccentric crank movement by the motor with the base of the shooter 8 as a fulcrum. The object to be heated 1 can be automatically prevented from rising or overlapping on the tray body 5, and is configured to be scattered on the tray body 5, so that defective deformation due to temperature unevenness can be reliably prevented.
[0040]
Further, a discharge device H having the same configuration as the supply device K is disposed on the lead-out unit 3 side of the heat treatment unit 4 of the present embodiment.
[0041]
That is, discharge tray body support portions 11 for receiving and holding the tray body 5 on which the heated object 1 on which the heat treatment has been completed are placed and supported are provided in multiple stages in the vertical direction, and each of the discharge tray body support portions 11 is sequentially moved downward. A discharge device H provided with a moving mechanism 12 for moving to the heat treatment unit 4 is disposed in the lead-out unit 3. Further, a guide lead-out path 13 leading from the lead-out section 3 of the heat processing section 4 to the discharge tray body support section 11 of the discharge device H is provided, and the object to be heated after the heat treatment is finished along the guide introduction path 13 The tray body 5 loaded with 1 is led out from the heat processing section 4 to the discharge tray body support section 11 by the tray body introduction mechanism 10.
[0042]
Specifically, the moving mechanism 12 is provided with a vertical circular moving portion 12B that rotates in the vertical direction by a rotary drive source 12A. The rotary drive source 12A includes a motor and a sprocket. In addition, the orbiting moving part 12B is composed of a chain that is wound around a sprocket arranged vertically, and a large number of discharge tray support parts 11 project from this chain 12B and move downwardly of the orbiting chain 12B. The tray body 5 is placed and set on each discharge tray body support portion 11 (which projects in a multistage manner in a horizontal state). Therefore, since this apparatus does not require an air drive source, versatility is improved and it can be manufactured at a low cost.
[0043]
Therefore, in the vertical supply device K, the tray body 5 can be supported and held by each tray body support portion 6 arranged in multiple stages in the vertical direction, and a predetermined amount of the covered body is sequentially applied from the uppermost tray body 5 to the shooter portion 8. The heated object 1 is charged.
[0044]
When the charging is completed, the tray body 5 on which the article to be heated 1 is placed is pushed by the pushing body 10C provided in the horizontal orbiting moving portion 10B that horizontally circulates the tray body introduction mechanism 10, and the guide introduction path 9 is moved horizontally. It moves and is introduced from the introduction part 2 into the heat treatment part 4, temporarily stopped and heated for a predetermined time (for example, annealing treatment).
[0045]
When the tray body 5 is thus introduced from the tray body support section 6 into the heat treatment section 4 through the guide introduction path 9, the tray body support section 6 is revolved around the upper surface by the moving mechanism 7, At the same time, the tray body support portion 6 that supports and holds the lower tray body 5 is raised, and the article 1 to be heated is again loaded onto the tray body 5 from the shooter portion 8, and the tray body 5 is again moved into the heat treatment section 4. be introduced.
[0046]
As described above, the tray bodies 5 arranged in multiple stages are sequentially raised one by one, and then the heated object 1 is input from the shooter unit 8 and sequentially introduced into the heat treatment unit 4.
[0047]
On the other hand, when the heat treatment in the heat treatment unit 4 is completed, the heat is sequentially derived from the derivation unit 3 and received and supported by the discharge tray body support unit 11 via the guide derivation path 13. That is, in the present embodiment, the heated object 1 is received from the shooter unit 8 and is sequentially introduced into the heat treatment unit 4, and the supply device K sequentially moves upward, whereas the discharge device H By being configured to sequentially move downward, the tray body 5 on which the object to be heated 1 on which the heat treatment has been finished is received is received and sequentially moved downward. It is configured to be discharged and stored.
[0048]
Accordingly, the object to be heated 1 can be placed on the tray body 5 and sequentially heated, and sequentially discharged and stored. Therefore, by managing the tray body 5, the object to be heated 1 can be managed by a predetermined amount. Can be transported to the next process, delivered, or touched by hand with the heated object 1 that has been subjected to the heat treatment on the tray body 5, and can be packed without counting work. 1 is extremely easy to manage.
[0049]
In addition, since each tray body 5 is processed, temperature unevenness in the heat treatment unit 4 hardly occurs, and the heated object 1 on the tray body 5 is placed in a scattered state without being raised. There is no risk of the occurrence.
[0050]
Further, the supply device K capable of storing and storing the large number of tray bodies 5 that are supplied and transported for each tray body 5 in this manner can be arranged vertically in the introduction section 2 of the heat treatment section 4, and the discharge apparatus H is also connected to the supply apparatus K. Since it can be configured in the same manner and arranged vertically in the lead-out section 3 of the heat treatment section 4, it is possible to eliminate the increase in size of the heater and achieve space saving while being the tray automatic supply and discharge method, The manageability is further improved.
[0051]
Note that the present invention is not limited to this embodiment, and the specific configuration of each component can be designed as appropriate.
[0052]
【The invention's effect】
Since the present invention is configured as described above, the heating device supply device, which has had to be large in size, is simply improved by sequentially heat-treating a large number of objects to be heated by lateral feed conveyance, In addition to saving space, by placing a heated object on the tray body by a predetermined amount and heat-treating it, it becomes easier to manage the heated object, and deformation occurs without causing variations in the furnace temperature. It becomes a supply device and a supply device additional heat machine in a very excellent heater such as difficult.
[0053]
In other words, since the object to be heated can be placed on the tray body, sequentially heated, and then discharged and stored, the object to be heated can be managed by a predetermined amount by managing the tray body. It can be transported, delivered, and the heated object on the tray body can be packed, and the management of the heated object becomes extremely easy. Since the supply device that can be stored on standby can be arranged vertically in the introduction part of the heat treatment unit, it is possible to eliminate the increase in size of the heater and easily save space while using the automatic tray supply method. It becomes a supply device in an epoch-making heater and a supply device additional heat machine.
[0054]
Moreover, the present invention does not require the shooter part to be sequentially retracted and moved, the moving mechanism can be simply configured, and the supply device and the supply in an extremely epoch-making heater that can be easily made vertical and save space. It becomes a device additional heat machine.
[0055]
In the invention according to claim 3 , the temper furnace is excellent in practicality in which the functions and effects are exhibited.
[0056]
Further, in the invention of claim 4 , it is possible to automatically prevent the heated object that is a small metal part from rising or overlapping on the tray body, and to be configured such that the heated object is scattered on the tray body, a supply equipment in more Xiu the heater can be prevented reliably defect deformation due to temperature unevenness.
[0057]
Further, in the invention described in claim 7 , the discharge device can be arranged vertically as well as the supply device, the enlargement of the heater can be further eliminated, the space can be saved, and the manageability is further improved. It becomes a very revolutionary supply device additional heat machine.
[0058]
In the invention according to the eighth aspect , the supply device additional heat machine can be realized more easily and has excellent practicality.
[Brief description of the drawings]
FIG. 1 is an explanatory front view of the present embodiment.
FIG. 2 is an explanatory side view of the present embodiment.
FIG. 3 is an explanatory plan view of the present embodiment.
FIG. 4 is an enlarged explanatory plan view of a main part of the present embodiment.
FIG. 5 is an enlarged explanatory perspective view of a main part of the present embodiment.
FIG. 6 is an enlarged explanatory perspective view showing a tray body support portion 6, a moving mechanism 7 and a guide introduction path 9 of the present embodiment.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 To-be-heated object 2 Introducing part 3 Deriving part 4 Heat processing part 5 Tray body 6 Tray body supporting part 6A Relief opening part 7 Moving mechanism 7A Rotation drive source 7B Circulating moving part 8 Shutter part 8A Loading tip part 9 Guide introduction path 10 Introduction mechanism 10A Rotation drive source 10B Horizontal movement part 10C Pushing body 11 Discharge tray body support part 12 Movement mechanism 12A Rotation drive source 12B Vertical circular movement part 13 Guide derivation path K Supply device H Discharge device

Claims (8)

A supply device in a heating machine having a heat treatment part having an introduction part for supplying an object to be heated and a lead-out part for discharging the object to be heated after the heat treatment, wherein a tray body on which the object to be heated is placed The tray body support portions for supporting and holding are provided in multiple stages in the vertical direction, and a moving mechanism for sequentially moving each tray body support portion upward is provided, and a predetermined amount of cover is applied to the tray body supported and held by the tray body support portion. A shooter unit for charging a heated object can be disposed above the tray body, and the tray body on which the object to be heated is placed by loading from the shooter unit is introduced into the heat processing unit from the introduction unit of the heat processing unit. a guide introduction path for introducing the provided tray body introduction mechanism for introducing a tray body to heat treatment portion arranged along the guide introduction path, as the moving mechanism, a vertical circular movement unit which circulates in the vertical direction by the rotary drive source The Therefore, a large number of the tray body support portions are provided at predetermined intervals in the vertical circular movement portion, and the tray body is supported and held by the tray body support portions arranged in multiple stages in the vertical direction of the position of the upward movement. The shooter portion is provided above the tray body on the tray body support portion that moves upward by the circular movement of the vertical circular movement portion, and the object to be heated is placed by the shooter portion. The tray body that has been loaded and loaded is configured to be introduced into the heat treatment section by the tray body introduction mechanism through the introduction section with the guide introduction path as a guide, and the shooter section falls one after another. A charging tip is disposed above the tray body positioned at the uppermost portion, and the uppermost tray body on which an object to be heated is loaded by the shooter portion is guided to the tray body. The mechanism is configured to introduce the guide introduction path into the heat treatment section through the introduction section as a guide, and the tray body support section guides the tray body without retreating the shooter section. A supply device in a heater , wherein the tray support portion is shaped to have a relief opening that can be moved upward by the vertical circular movement portion after moving to the introduction path . The tray body bearing unit according to claim 1, characterized by being configured to substantially U-shaped frame shape or a substantially U-frame shape having an escape up opening outward is disposed side of the chute portion is opened The supply apparatus in the heating machine of description.   The heat treatment section is a temper furnace for annealing an object to be heated, and is configured such that the tray bodies are arranged in a tandem multistage state on the introduction section side of the heat treatment section. The supply apparatus in the heating machine of 1. The shooter unit is configured to be swingable, and the shooter unit is swung while dropping the heated object, so that the position of the heated object falling relative to the tray body can be varied while being varied on the tray body. The supply device for a heater according to any one of claims 1 to 3 , wherein the heated object is configured to drop and mount. Said tray body introduction mechanism according to claim 1-4, characterized in that a pusher for pushing the rear of the tray body, and a structure in which the horizontal circular movement unit which circulates in a substantially horizontal direction by the rotary drive source The supply apparatus in the heating machine of any one of these. A supply device additional heat machine, wherein the supply device according to any one of claims 1 to 5 is disposed in an introduction portion of the heat treatment unit. Displacement tray body support portions that receive and hold the tray body on which the object to be heated on which heat treatment has been completed are provided in multiple stages in the vertical direction, and each of the discharge tray body support portions sequentially moves downward. And a guide lead-out path that leads from the lead-out part of the heat treatment part to the discharge tray body support part of the discharge apparatus. claim 6 wherein the tray member carrying the object to be heated having been subjected to the heat treatment from the heat treatment portion, characterized by being configured to derive by the tray body supply mechanism into the discharge tray body bearing along the Feeding device additional heat machine. As the moving mechanism, a vertical circular moving part that circulates in the vertical direction by a rotational drive source is provided, and a plurality of the discharge tray body support parts are provided at predetermined intervals in the vertical circular moving part, and the position of the position to move downward is provided. according to claim 7, characterized in that it constitutes the heat treating said tray member said carrying an object to be heated through to the discharge tray body bearing portion disposed in multiple stages in the vertical direction to receive and support the holding Feeding device additional heat machine.

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