TW296425B - - Google Patents

Description

A7 B7 Printed by the Central Standard Falcon Bureau Employee Consumer Cooperative of the Ministry of Economy V. Description of the invention (f) 1 1 [Industry utilization field 1 1 1 The present invention relates to a refrigerant circulation tube f for heat exchangers, especially 1 1 car air-conditioning The refrigerant circulation tube of the condenser or evaporator used in the machine. Please 1 first 1 [Known technology] Read the factory aluminum referred to in this manual. The pseudo includes both pure aluminum and aluminum alloys. I and 1 of recent cars 9 in the condenser for the air conditioner is as described in this patent application / XI I Announced N 〇4 5 3 0 0/9 1 as shown in the description 9 It is equipped with; it is separated by --- and parallel matters 1 I and I are arranged on the left and right ~~ Pairs of headers (heade Γ); the two ends are connected to the two pieces of the first set of headers and are arranged in a row of flat refrigerant circulation tubes Adjacent cold sheet— '1 1 Ventilation gap between medium circulation tubes> Corrugated dispersion welded to two refrigerant circulation tubes 1 1 Heat sheet connected to the left header X1U m inlet η tube connected to the right header 1 I Out of the upper and lower mountain sounds P The tube is located at the upper left of the middle section of the left header, and the right partition plate is located at the bottom of the middle of the right header. The number of refrigerant circulation tubes between the left partition plate • x left partition 1 | the number of refrigerant circulation tubes between the plate and the right partition plate, the refrigerant circulation tubes between the right partition plate and the outlet Π 1 I tube The number system gradually decreases from top to bottom. The gas refrigerant flowing from the inlet 1 i tube has always become a liquid phase and flows out of the outlet tube 1 in a serpentine flow in the condenser before the line 1, > 〇L- m This type of parallel flow type or more than 1 i flow type cold The condenser is considered to be able to achieve local performance-low pressure loss 1! 1 and ultra-miniaturized 9 Therefore, it has been widely used to replace the conventional serpentine condenser 1 Ψ 1 Used for the flat refrigerant circulation tube 9 of the above condenser Due to the introduction of local pressure refrigerant gas into its interior 1 1 «pressure resistance is required 〇 is necessary | to meet this requirement and improve the heat exchange efficiency-3 rate» Refrigerant circulation tube used in the past 1 1 1 1 1 1 This paper scale is applicable to the Chinese National Standard Falcon (CNS> Λ4 present grid (210 X2W public feast)) 296425 A7 B7 Printed by the Employee Consumer Cooperative of the Central Bureau of Standards of the Ministry of Economy V. Description of invention (2) 1 1 Used with upper and lower walls and horizontal Reinforcement that extends across the upper and lower walls and extends in the longitudinal direction 1 1 Composition of flat aluminum tubes on the wall 1 I [Problems to be solved by the invention] Please 1 | That is, it is formed as first reading 1 | reading 1 J. Turbine standing parallel refrigerant circulation tube ° Because the air is parallel to the parallel refrigerant circulation back 1 | 1 1 The orthogonal circulation of the 1 tube must be the air flowing through the side of the refrigerant. The heat exchangeability of I is better than that of the refrigerant path on the side of P 1: 1 From item 1 I to 1 I and the gaseous refrigerant above the wind, such as in the refrigerant path, is quickly condensed. Fill in this 1 pack However, there are still gas sheets remaining in the refrigerant passage below the condensate wind 1 I If the body-shaped refrigerant is the entire refrigerant circulation tube and the refrigerant flow is not 1 1, the uniform heat exchange efficiency does not matter. 1 I § It is to provide a heat exchanger with high heat exchange efficiency 1 Order refrigerant circulation tube 〇1 [Solution of invention Section] 1 I To achieve the above-mentioned huge refrigerant flow tube for heat exchanger of the present invention consists of 1 1: a plurality of reinforcing walls provided with upper and lower walls spanning the upper and lower walls and extending in the longitudinal direction * 1 1 at a predetermined interval There are parallel-shaped% I refrigerant channels inside the flat tube. The reinforcing wall is penetrated with a large number of communication holes that can communicate with the parallel 1 1 -shaped refrigerant channels. The proportion of all the communication holes on each reinforcing wall on the reinforcing wall Then the opening rate is 10 ~ 40¾ ^ Refrigerants that circulate through the parallel refrigerant channels are connected by * 1! T holes flow in the width direction of the circulation tube throughout all refrigerant channels and 1 I mixes. Thus, the refrigerant There is no temperature difference between the refrigerant channels, so the refrigerant on the upper side of the wind 1 1 and the lower side of the wind condense in the same way, and the refrigerant can flow evenly. 1 1 -4 1 1 1 1 This paper standard is applicable to the Chinese National Standard (CNS) Λ4 specification (210X 297mm) A7 B7 Printed by the Employee Consumer Cooperative of the Central Standards Bureau of the Ministry of Economy V. Invention description (3) II The heat exchange efficiency will be improved 〇The opening ratio of the ratio of all the communication holes on each reinforcement wall to the reinforcement wall II will affect the thermal conductivity, but the above-mentioned opening P ratio II is within the range of 10 40¾ where good thermal conductivity can be obtained. | Improve the heat exchange efficiency of the refrigerant circulation tube and limit the opening rate to I 0 40¾ Read I \ Read I Fan Yuan The reason is that if it is less than 10%, its thermal conductivity will not increase f more than 40¾ SI on the back II will heat The guide will not increase anymore »and only the friction coefficient will increase due to 0. I care I | In the range of 10 40¾ of the above-mentioned open rate * 10 3 0¾ is more ideal» Item II II 20¾ Degree Tuanban is ideal. Fill in this section. The size of the cross-sectional area of the communication hole is set to make the page of the adjacent refrigerant passage V > _ ·-· II The refrigerant can communicate sufficiently > Plugs for the outflowing solder m II ♦ It does not reduce the pressure resistance C 'of the refrigerant circulation tube and the pitch of the communication holes II is set to »Do not make the pressure resistance of the refrigerant circulation tube PI low and make it possible to set the refrigerant. Get M full exchanges :: < I open the communication hole that penetrates most of the reinforced walls »When viewed from a plane, K staggered II is configured as appropriate II 1 In addition, the distance between the reinforced walls in the tube width direction M 4 mm K is suitable as C, 1 1 If the above-mentioned distance between the reinforcing walls exceeds 4 mm »the heat exchange efficiency will be changed to Izumi I 單單 〇 1 1 * The height of the reinforcing wall Μ 2 m tn Μ It is appropriate that 1 if the height of the reinforcement wall exceeds 2 ΙΏ m 9 not only is it difficult to miniaturize the heat exchanger * and it will increase the resistance of the I air through »heat exchange efficiency deterioration 〇Ψ- 1 J 1 Μ, please refer to the attached Figure »The present invention is intended to be described in more detail. 0 1 (Description of the best specific example) 1 I Figure 19 is the condenser used in the flat refrigerant circulation tube of the present invention 1 1 -5 1 1 1 1 Applicable to Chinese National Standard (CNS) Λ4 specification (210X297mm) 5. Description of invention (A7 B7 The condenser is equipped with: spaced apart and arranged in parallel on the left and right, flow, media 61 cold parts adjacent pipe phase in Two sets of S-IL are connected to 3 connected 6 separate tubes, split end flow, two media and its cold ·> flat 2 i 6 flat, 61-shaped row tube and integrated pair of lines and waves ·, 5 of 6 take over the welding port 3 people 6 ^ The flow of the tube is 3S. The media end is cold and the two 6 are paralleled with the pieces, and the left side of the gap is connected by the wind; between G4 3 6 Η tube heat flow Piece tube 6P tube header set, right side, left side, input ratio is set from the design, 8 • »· · 6 7 6 6 phase tube plate is separated by Q, separated by the right, the left part is built into the inner end Set the position of the square piece on the lower side of the tube, the right side of the middle section · 1 2 in the middle 6 connected to 61 pieces under the 2 plate partitions divided from right and left from from and j, and, count the number of the tube 63 63 The tube is flowing through the medium, and the medium is cold and cold. There are 68 67 plates separated from right to left, 7 to 6 under the liquid flow, and the upper and middle components are directly cooled by the condensation. The cold phase of the snake 63 gas W tube through its flow makes the flow, the medium 65 before the cold tube mouth out of the flow of 66 from 66 tubes, the tube mouth less out of the mouth gradually reduced from 68 to gradually In the case of the Zhongguan example, the body was issued by the body. The M is the upper pipe of the cold pipe of the flow medium in the 3 0 0 pipe case. The medium is condensed by the cold and cold. The book is used for the purpose of making the M rate port open. There are so many ratios that the strong wall reinforcement on the wall of the penetrating station is connected to the hole. There are 40% of the total ~ the top 10 walls are forcibly supplemented (please read the precautions on the back and then fill in this page) The surface Μ 平 is from the opening of the hole and the configuration is mismatched to each other. The media 1 is cold wall • Use the lower device to change over to transfer the crossover. ”-2 shows, so 1 wall 3 under the t to Tutan 1 level: if there is a specific system T1 with a tube wall 1 side wall two lower right upper left and the span is vertical and horizontal, the edge of the intermediary edge 4 side, two 3 2 wall, 011 two extension right extending left Directions in the vertical and horizontal directions; and the paper standards are applicable to the Chinese National Standard (CNS) Λ4 specifications (210X 297 gong) 296425 A7 B7 Printed by the Employees ’Consumer Cooperative of the Central Standards Bureau of the Ministry of Economic Affairs 5. Invention Instructions (5) 1 1 Most of the reinforcing walls 5 placed at intervals are formed of flat aluminum tubes 7 with a parallel 1 1 row of refrigerant channels 6 inside the reinforcing wall 5 1 | ht and there are 6 waves that can pass through the parallel refrigerant channels The majority of the communication here is 1 first 1 square communication hole 8 〇 Reading 1 reading Η | flat aluminum tube 7 is to bend the two sides of the lower aluminum plate 10 vertically and bend the two sides of the back I 1 to the upper side of the aluminum plate 9 The edges of both sides are joined t so that the top and bottom of the Italian I 2 Η aluminum plate 9 Λ 10 can be formed with a hollow part. Matters 1 I 1 1 I reinforcement 5 is formed by the side wall of the r wall 2 formed a protruding side by side protrusion 11 1 Attached to the upper wall ⑴ formed by the inner surface, and the square communication hole 8 Μ on the upper edge of the protruding page · 〆 1 | 1] * The square missing Ρ portion 12 provided at a predetermined interval is composed of 1 1 upper wall 1 plug ft is formed by its open part 〇1 | The above refrigerant circulation tube T1 is manufactured as follows. 4 as shown in the figure »The upper roller 13 is a ring with parallel shape 1 and the weight 14» The peripheral surface is the same as the bottom surface of the annular groove 1 4 The two outer sides 1 I The first small diameter portion 15 »and On both outer sides of the outer side and more than the first small-diameter part 1 1 1 is the small diameter 9 a The second small-diameter part 16 having a larger width than the first small-diameter part 1 The lower roll 17 of 1 1 is on both outer sides With its outer end and the second small-diameter portion 16 the outer end of the line I »K whose width is narrower than the width of the second small-diameter portion 1 6 1 1 The large-diameter portion 18 1 With this: the bottom of the roller 13 17 * The thickness of the upper and lower walls of the cold 1 medium circulation tube to be manufactured is thicker »The aluminum plate blank formed by the 1 I hard-welded m-plate covered with the brazing material layer underneath is rolled with M» ML roll 13 17 outer 1 week The surface of the shaft is thinned to the thickness of the bad material to the predetermined thickness of the part of the lower wall 2, 1 I Μ to form a flat portion 19 »At the same time from the annular groove 1 4 from flat Part 19 is formed in one piece | It is a raised ridge 11 ♦ Mesh. Formed on both sides of the edge is the same as the ridge 11-Water 1 1 -7 1 1 1 1 This paper scale is applicable to the Chinese National Standard (CNS) Λ4 210X 297 mm) A7 B7 Printed by the Consumer Cooperative of the Central Bureau of Standards of the Ministry of Economic Affairs 5. Description of invention (6) 1 1 Flat inner step 20a and protruding upward from its outer edge & with thin walls 20b 1 1 The protruding portion 20 is configured as a rolled aluminum plate 2 1 〇1 Second, as shown in Figures 5 and 6 »Let the aluminum plate 2 1 of IL pass through it 1 | Upper IL roller 22 on the corresponding — on the flow The parallel annular grooves of the IL roller 13 are read first 1 1 | 1 4 position > and there are square protrusions 33 spaced apart at a predetermined interval 33 up and down — between the back 1 | between the rollers 22 Λ 24 »at The upper edge of each protruding strip 11 forms a space at a predetermined interval Missing 0 part 12 1 Μ m into a lower aluminum plate 1 0 〇 Matters 1 I then 1 I In order to make the upper edge of the side-by-side protrusions 11 can be filled in each other when viewed from a plane 1 ά The missing part 12 is staggered configuration »Most of the protrusions 2 3 are configured to form pages 1 1 in a staggered state. 1 1 In the manufacturing method of the lower aluminum plate 10 described above, in order to obtain the protrusion 11 with the missing portion 1 I 1 2, a 2-step process is required , But as shown in Figure 7 in the parallel 1 binding ring-shaped groove] 4 at every interval is provided with a low protrusion shallower than the groove depth 2 5 1 above the roller 26 * to make it with the first flow in the lower The roll 11 is used in combination with 1 I y. As long as the step flow is 1 step, the protrusion 11 with a D-deficient part 12 can be obtained. In addition, it is made into a 1 1 1 formed by a brazing rotary plate covered with a brazing material layer on both sides. Flat upper aluminum plate 9 〇 Upper aluminum The upper part of the edge of both sides of the plate 9 is shown in Figure 1 and the spring I 8. It is formed as an inclined surface 27 that slopes outward and downward. As shown in the line 1 1 of the second figure. ♦ Place the side edge of the upper aluminum plate 9 On the step 20 a of the two projections 20 of 1 1 of the lower aluminum plate 10, the thin wall 20b is bent to engage with the inclined surface 27 of the upper aluminum plate 9 1: Then, the protrusion of the lower aluminum plate 10 is 20 of 1 The segment step 20 a and the tip of the ridge 11 are welded to the F surface of the upper aluminum plate 9 by M 1 1 »The refrigerant circulation tube T 1 is formed by m 1 and 1 is provided on the outer peripheral surface of the upper IL roller 1 3 The faces are: ―: Angle wave-shaped 1 1 -8 1 1 1 1 The paper size is applicable to the Chinese national standard (CNS> Λ4 present grid (210X 297 mm) A7 B7 Printed by the Employee Consumer Cooperative of the Central Standards Bureau of the Ministry of Economic Affairs. Description of the invention (7) 1 I The concave-convex or knurling processor can compete within the entire lower aluminum plate 10 Obtain 1 1 irregularities or lattice-like irregularities extending in the longitudinal direction) to increase the 1 of the lower wall 2 | surface area 0 please 1 1 first 1 (specific example 2) read 4 read 1 I This specific example is shown in Figure 9 » In addition to the refrigerant circulation tube back for heat exchanger 1 | 1 1 The left and right side walls 28 Λ 29 of T2 have a double structure »and the communication hole 3 0 is the anti-staircase I 肜 1 The lower wall 2 has a lengthwise extension 1 and is separated by Interval relative matters 1 I and 1 I The lower majority is used to increase the heat transfer area with protrusions 3 1 * The body is formed on the top and fill in the book 1 The rest is the same as the specific example 1 except the installed shape. Trapezoidal communication hole 3 0 SP Tabs, · 1 1 1 1 L · The edge forms a trapezoidal missing P part 32 to obtain 1 :, 1 1 flat bar aluminum tube 33 that constitutes the refrigerant circulation tube Τ2 II II from above: The next 2 pieces of aluminum 1 I plate 3 4 35 to make it into the middle part. T Both sides of the two aluminum plates 3 4 3 5 1 1 order 1 edge analysis bending electric pry > to make the m barrier part joined to form 0 in the specific Top > The side wall 28 29 is formed by the following steps, ie, 1 I »On both sides of the lower aluminum plate 3 5, protrusions 36 of the same height as the reinforcing wall 5 are provided, and 1 1 is formed at the lower edge of the protrusion 36 to incline outward and upward The inclined surface 38 1 1 In addition »As shown in the chain line of Fig. 9» Contact protrusions are provided on both sides of the upper aluminum plate 3 4% I Starting portion 3 6 Θ The outer side of the spoon exceeds the lower wall 2 and protrudes downward 1 Hanging lower part 3 7 Bend the lower projecting part 37 a of the hanging lower part so as to engage with the inclined surface 38 of the lower aluminum plate 3 5 and weld the upper and lower aluminum plates 34 35 to the contact part for 1 minute ° W- 1 ( Specific example 3) 1 | This specific example is composed of Refrigerant Circulation for Exchanger 1 | Flat aluminum tube 39 of tube T 3 »It is a hard cover covered by a single-sided M hard solder layer 1 1 -9 1 1 1 1 This paper size is applicable to China National Standard (CNS) Λ4 specifications ( 210X 297 mm) A7 B7 Printed by the Consumer Cooperative of the Central Bureau of Standards of the Ministry of Economy V. Invention description (8) 1 1 1 formed by soldering thin plate Η Aluminum plate 4 0 > and forming a hollow 1 1 with a hard solder layer on the outside Normal * Bent in a hairpin shape at the center of the width »Both sides of the edge 1 | That is, it is curved to form a pair of joints. Therefore, the left and right sides m 4 1 42, S please 1 1 are formed in a circular arc shape 0 The cross-section of the butt joint 43 is formed as a slanted surface. First, read I, M. Increase the joint area. The reinforcement wall 44 of the back 1 I is a raised downward projecting strip 44 a formed inward from the upper wall 1. Italian I and inward shape from the lower wall 2 Protruding upward projecting strips 4 4 b formed by joining 1 I 1 1 1 Trapezoidal communication hole 45 is composed of the lower edge of the downward projecting strip 44 a and the upward projecting strip 1 1 4 4 b > It is set at a certain interval-for the trapezoidal missing P page, 〆1 1 part 4 5 a 45b combined by 1J 1 1 (specific example 4) 1 I The specific example is shown in Figure 11 »Refrigerant circulation for heat exchangers except for heat exchangers 1 1 Reinforced wall 4 6 of tube T4 is formed from 1 upper wall 1 inwardly protruding downwardly protruding downward 1 strip 46 a formed by joining to a flat lower wall 2 inner surface Upwardly protruding strips 46 forming a bulge from the lower wall 2 into 1 I are joined to the flat J: the two existences formed by the inner surface 1 1 of the wall 1 »The two are alternately arranged» The trapezoidal communication hole 47 is 1 1 by l £ The lower edge of the downwardly facing rib 46 a and the upwardly facing rib The upper edge of the 46 b is divided into 1 parts. The trapezoidal missing part P is set at a predetermined interval. 4 7 a 4 7 b »Subject to 1 1 any of the upper and lower walls 1 2-the wall seals the open part of it \ 1 Except the rest are the same as the specific example 3 JI (specific example 5) m- 1 1 The specific example is shown in m] 2 as shown in the figure > cold m circulation for heat exchanger 1 I reinforced wall of I tube Τ 4 8 is made of 1: The wall 1 is formed with a bulge inward and a downward protrusion 1 formed by 48 a joined to the inner surface of the flat lower wall 2 »Trapezoidal communication hole 4 9 1 1 -1 0-1 1 1 1 This paper size is suitable for China Standard (CNS) Λ4 present grid (210 X2W mm) A7 B7 Printed by the Employee Consumer Cooperative of the Central Bureau of Standards of the Ministry of Economy V. Description of invention (9) 1 1 is set by the interval defined by the lower edge of the ledge ± 48 a The trapezoid 1 1 lacks P part i 49 a 1 is formed by the lower wall 2 to seal its open part 1 I The rest is the same as in Specific Example 3. ◦ ^ -V. Please 1 first 1 (Specific Example 6) Read 4 Read 1 I This example is as shown in Figure 1 3> Except for the heat exchanger refrigerant circulation back 1 | \ The flat aluminum tube 5 of tube T 6 is the upper surface of the surface covered with a hard solder layer. The lower 2 Μ aluminum plate 5 1, 52 can form a hollow part. * The matter facing up and down 1 I then 1 I The two sides are formed by curved butt joints. The rest are the same as the specific filling in this example. 1 Installation example 3 0 'Left and right butt joint parts 5 3 \ 54 Same as in Example 3 > Page 1 I Cross section Formed as a bevel 1 1 In the above specific example > & aluminum extrusion with a predetermined cross section can be used 1 I profile * Η instead of an aluminum plate with protrusions etc. 1 Order M next »Send this post The actual drag example and the comparative example will be described. The cross-sectional shape of the refrigerant circulation tubes of the example and the comparative example is as shown in Figure 1 1 I. η 1 I (Pump Example 1) 1 1 Length It is 50 8 mm, the interval between the side walls 3 4 is 16.5 mmt. The height between the upper and lower spring I walls 1 2 is 1 ΙΏ > The number of reinforcing walls 5 is 6 The spacing of the reinforcing walls 1 1 The distance between the walls 5 is 2.4 mm »The thickness of the reinforcing wall 5 is 0.3 mm, and the pitch P of the connecting hole 1 is 1. 6 in ΠΙ The length L of the connecting hole 8 is 0.8 mm t connected! The height H of the through hole 8 is 0. 2 Hi m opens the refrigerant pipe with a P rate of 10%. 1 (Real drag example 2) 1 1 Except for the height of the communication hole is 0.4 m \ the opening P rate is 20¾, the rest 1 I The same refrigerant circulation tube as the real drag example 1 1 ~ 1 1 — 1 1 1 1 1 This paper scale is applicable to the Chinese National Standard Falcon (CNS) Λ4 specification (2 丨 OX29? Mm) A7 B7 Printed by the Employee Consumer Cooperative of the Central Bureau of Standards of the Ministry of Economy V. Invention Instructions (10) 1 1 (Real drag 3) 1 1 Except that the height of the communication hole is 0.6 ια, and the open P rate is 30%, the rest 1 | The same refrigerant circulation tube f—, as in Example 1 1 (please sample 4), read first 1 read 1 except connected The height of the hole is 0.8 m and the opening P rate is 40%. The other back side 1 I is the same refrigerant circulation tube as the nucleus case 1 0 Italian I (real drag example 5) Item 1 I 1 I except reinforced wall Merge Except for the formation of communication holes »Fill in the rest with the actual cell example 1 1 Refrigerant circulation tube containing the same page 1 1 (Evaluation Test 1) 1 1 Use the refrigerant circulation tube of Example 2 and Comparative Example 1 1 The relationship between the average dryness (vapor mass ratio in the refrigerant) X and the thermal conductivity h A (h: thermal conductivity 1 rate A: the heat transfer area in the refrigerant circulation tube) is determined as follows: that is »will The refrigerant circulation tube is arranged in the cooling water passage so that H FC 1 3 1 I 4a refrigerant flows in the refrigerant circulation pipe y and the cooling water flows in the cooling water 1 1 passage. After a predetermined time, the refrigerant mass velocity G is set to 40 0 k 8 / 1 1 Π): 1 _ S Refrigerant inlet temperature is 65 The thermal image I flow between the refrigerant and the cooling water is 8 kw / m 7 > and the cooling water flow rate is set so that its Reynolds number becomes 1 1 1500 1 change fb its average dryness X and measure its Thermal conductivity h A \ 1 The result is shown in Fig. 1 4; »It can be seen from FIG. 14» When there is even a J 1 through hole formed in the reinforcement wall »Its thermal conductivity h A at any average dryness X is better than none When connected to 1 hole, it is 11 1 1 (Evaluation Test 2) 1 Use the refrigerant circulation tubes of Case 2 and Comparative Example »Μ and Evaluation Test 1 1 _ 1 2-1 1 1 1 (CNS) Λ4 specification (210X 297mm) A7 B7 Printed and printed by the employee consumer cooperative of the Central Standards Bureau of the Ministry of Economic Affairs V. Invention description (11) 1 1 1 The same method Ϊ investigate the relationship between the average dryness X of the refrigerant and the thermal conductivity h 1 1 〇 The result is shown in Fig. 15 ° 1 1 From _ 15 it can be seen that »When a connecting hole is formed in the reinforcement wall» It is at any — Yiping / —, please 1 I The thermal conductivity h at the average dryness X Larger than when there is no communication hole. Read 1 first (Evaluation Test 3 ) t ώ 1 | of 1 Use the refrigerant circulation tubes t of Examples 1 to 4 and Comparative Examples and the same method of Evaluation I Test 1. The average dryness X of the investigation refrigerant is 20% 50¾ Item 1 I again 1 | and 80% The relationship between the open P rate and the thermal conductivity h A at the time y and the average dryness X are the relationship between the open P rate and the friction coefficient f in the state of 50 ¾ in the book 1 (refrigerant Reynolds standard page 1 1 m =) 0-)-its The result is shown in Figure 1 B. From Figure 16, it can be seen from Figure 16 that t ± reinforcing knot has a connecting hole * which is any — 1 I The thermal conductivity h A at the average dryness X is larger than when there is no connecting hole In particular, the heat mh A is larger when the P rate is set to 20¾ (Evaluation Test 4) 1 I use the refrigerant circulation tubes of the real cell examples 1 to 4 and the comparative example »Μ and evaluation 1 1 test 1 with the same m Method »Investigation of refrigerant The relationship between the open P rate and the thermal conductivity ii when the average dryness X is 20% 50¾ 1 1 and 80¾ ♦ and the average dryness X is the relationship between the open P rate and the friction coefficient f in the state of Izumi I 50¾ (Refrigerant Reynolds Quasi 1 1 number = 1 0-) 〇 The result is shown in Figure 17 ° 1 It can be seen from Figure 17 that t When a connecting hole is formed in the reinforcing wall * It is at any time — I The thermal m rate h at the average dryness X # It is larger than when there is no communication hole *% It is 1 open. When the P rate is 20, the thermal m rate h is 1 1 (Evaluation Test 5) Ί 1 Use the refrigerant circulation tubes of the cell sample 2 and the comparative example respectively. Cheng Ge 1 1 -1 3-1 1 1 1 This paper scale is applicable to the Chinese National Standard (CNS) Λ4 present grid (21 OX 2W mm) 396425 A7 B7 Printed by the Employee Consumer Cooperative of the Central Bureau of Standards of the Ministry of Economy V. Description of invention ( 2) 1 1 3 Multi-flow type condenser as shown in Figure 19. That is, M 37 branch refrigerants circulate 1 1 tube * and 22 mm wide and 7 mm high heat HF corrugated fins 1 I with a pitch of 1 mm are formed into a width of 3 2 6 in m and a height of 3 30 .5 (η m, frontal area of 0. 10 8 m 2 1 I Condenser core> Connect the two ends of each refrigerant circulation tube to the left and right headers. Read 1 Read II Cold I? The device is left and right headers without a partition plate (-pass) Π back 1 I condensation The separator is higher than the middle section of the left header and the middle section of the right header * The refrigerant flow matters above the partition plate of the left header are set at 1 side. 1 I then 1 I The duct is 20 pieces of two partition plates The number of refrigerant circulation tubes in the room is 11 t-bit η 1 The number of refrigerant circulations below the partition plate of the right header is 6 (2 pages 1 I direction circulation) 〇1 type condenser is on the left The upper and lower positions of the pipe fittings are divided into 1 1 Don't install partition plates and the right header is equivalent to the two headers of the left header. 1 I The middle height position and the position below the lower header of the left header are respectively 1 1 Order 1 Set the partition plate, than the left header The number of refrigerant circulation tubes above the upper partition plate is 1 2 * The number of refrigerant circulation tubes between the upper partition plate of the left header and the upper partition plate of the right header 1 I is 9 Support »Located between the upper partition plate of the right 1 1 header and the lower partition plate of the left header, the number of cold 1 1 media circulation tubes is set to 7 branches» Located on the lower partition of the left header and the right header I The number of refrigerant circulation tubes between the partition plates on the lower side of the pipe is set to 5, and the number of refrigerant circulation tubes below the lower partition plate of the right set 1 1 pipe is 4 (5 1 direction circulation). The refrigerant pressure loss AP r of each condenser is positive per unit The relationship between the area of < > N \ 噿 Q / Fa is the result as shown in figure m- 18. Figure 1 shows from 1 to 18. It can be seen from the number 18 11 The performance of the condenser of the refrigerant circulation tube • Compared with its reinforced wall and M / W \ open through 1 1 -1 4-1 1 1 1 This paper scale is applicable to the Chinese National Standard Falcon (CNS) Λ4 specification (210X 29? Mm) A7 B7 Printed by the Consumer Standard Cooperation Department of the Central Standard Falcon Bureau of the Ministry of Economic Affairs V. Description of the invention (13) 1 1 The performance of the refrigerant circulation tube-V condenser with the communication hole is improved * and »that is 1 1 is the loss of the same refrigerant pressure» The performance is also mentioned. 1 I "A brief explanation with a circle] Please 1 1 The first figure is a cross-section of the flat refrigerant circulation tube of the specific example 1 of the present invention. First read the 1 ik plane view, and the second H of the back I 1st Enlarged view of the part of the flat refrigerant circulation tube ° Italian 1 The third figure is the enlarged view of the cross section along the line 3-3 in the first figure. Item 1 I 1 | The fourth figure shows a specific example of the present invention for the production of M rollers 1 Refrigerant Circulation Fill in this 1 Cross-sectional view of the aluminum plate for pipe installation page 1 I 5th figure is a cross-sectional view showing that the upper edge of the parallel protruding strip of the aluminum plate in Figure 4 is set 1 1 notch □ part state 1 I Figure 6 is the section RI along the line 6-6 in Figure 5 1 Order 7 is the longitudinal section showing the state where the protrusion and the missing edge of the upper edge are formed by Μ 1 process 1 0 1 I FIG. 8 is a partially enlarged perspective view showing the state of the flat refrigerant flow 1 1 in the process of manufacturing the present invention 1 1 through the pipe ° 1 1 FIG. 9 is a flat view of the specific example 2 of the present invention Cross-sectional view of the horizontal refrigerant circulation tube 1. 1 1 1 1 1 0 Figure 1 is a specific example 3 of the present invention, the flat refrigerant circulation tube cross-sectional view of JI 1 Figure 11 is a specific example 4 of the present invention Cross-section of the flat refrigerant circulation tube 1-Figure 1 '12 I is the cross section of the flat ψ-shaped refrigerant circulation tube of the specific example 5 of the present invention | surface m 1 1 -1 5-1 1 1 1 paper The scale is applicable to the Chinese National Standard (CNS) Λ4 specification (210X 297mm) A7 B7 5. Description of the invention (Μ) Figure 1 3 is a cross-sectional view of the flat refrigerant circulation tube of the specific example 6 of the present invention ϋ Article 1 4 The figure is a graph showing the results of the evaluation test 1 and the relationship between the average dryness X of the refrigerant and the thermal conductivity h Α. Fig. 15 is a graph showing the results of Evaluation Test 2 and the relationship between the average dryness X of the refrigerant and the thermal conductivity h. Figure 16 shows the results of the evaluation test 3, showing the relationship between the average dryness X of the refrigerant is 20%, the opening rate at 50¾ and 80¾ and the thermal conductivity hA, and the opening rate when the M and the average dryness X are 50% The graph of the relationship between the friction coefficient f and No. 1 7_ are the results of the evaluation test 4, and the relationship between the average dryness of the refrigerant X is 20¾, the opening rate at 50¾ and 801 and the thermal conductivity h, Μ and the average dryness A graph showing the relationship between the aperture ratio and the friction coefficient f when the degree X is 50¾. Figure 8 is the result of evaluation test 5, showing the relationship between the refrigerant pressure loss AP r of the condenser using the refrigerant circulation tube and the heat dissipation Q / F a per unit frontal area (a graph of the relationship. No. 1 9 Kan The front drawing of the condenser used for the flat refrigerant circulation tube.-^ ---- Ji --- install ------ order 丨 ^ ----- 涑 (please read the precautions on the back first (Engrave this page) Printed by the Employee Consumer Cooperative of the Central Bureau of Standards of the Ministry of Economic Affairs -16

Claims (1)

A8 B8 C8 D8 Printed by the Consumer Labor Cooperative of the Central Bureau of Standards of the Ministry of Economic Affairs 6. Patent application scope 1 1 1 · A refrigerant circulation tube for heat exchanger 1 Its holdings are: 1 I from the upper and lower walls > and across the upper and lower walls And extend in the longitudinal direction and are arranged with a large number of reinforcing walls 1 1 1 apart from each other at a predetermined interval. The inner side of the reinforcing wall is formed by a parallel tube of the refrigerant channel. The reinforcing wall is provided with a cold tube that can be read by the cold dragon. Back 1 The majority of the communication holes that the media channels communicate with each other All the connections 1 on each reinforcing wall ▲ The tb ratio of the through holes to the reinforcing wall \ Also its opening is 10 1 1 1 I 4 0% 〇 Matter 1 I 2 · The refrigerant circulation tubes for heat exchangers as described in item 1 of the patent application | 1 1 pack 1 > where the above-mentioned opening ratio is 10 30% Page 3. Refrigerant circulation tubes for heat exchangers as described in the first item of the patent scope, · 1 I > where the above-mentioned opening rate is about 20% 〇1 1 4 · If the patent scope is 1st 2 Or the heat exchanger 1 of any one of the items 3 1 refrigerant circulation tube wherein the shape of the above-mentioned communication hole is either square or trapezoidal I 1 0 1 1 5 Item 1 of the heat exchanger 1 1 refrigerant circulation tube * where the above-mentioned connection through the majority of the reinforcement wall 1 I hole when viewed from the plane »is staggered configuration 〇I silver 6.-heat exchange The refrigerant circulation tube for the device * has the following laminations: 1 1 The upper and lower walls 1 and a plurality of reinforcing walls 1 that extend across the upper and lower walls and extend in the longitudinal direction at a predetermined interval, and have a parallel 1 refrigerant path inside Flat aluminum tube The flat aluminum tube is made of aluminum 1 plate 1 and its reinforcing wall is made of aluminum plate integrally formed into a bulge 1 I »The reinforcing wall is penetrated so that the parallel refrigerant channels can communicate with each other 1 Most of the communication holes y All the communication holes on each reinforcement wall are to the reinforcement wall 1 I -1 7-1 1! 1 This paper scale is applicable to the Zhongpu National Standard (CNS) Λ4 specification (2 丨 OXW? 公 f) ABCD Central Ministry of Economic Affairs Printed by the Staff Consumer Cooperative of the Bureau of Standards 6. Percentage of patent application scope 1 1 »The open D ratio is 10 40¾ > while the connecting holes that are worn on most 1 1 reinforcing walls are staggered when viewed from a plane The configuration 1 1 〇 '«V please 1 I first 1 7 · Read the refrigerant circulation tube for heat exchanger as described in item 6 of the & Green patent scope t * wherein at least one of the two surfaces of the above aluminum plate has a ^ surface It is composed of a brazed sheet with 1 layer of brazed back 1¾ 1 I. Note 1 8. Refrigerant circulation tubes for heat exchangers as described in item 6 of the first patent claim 1 I »where the above The flat aluminum tube is formed by two upper and lower aluminum plates to form a hollow portion. To add at least one of the two aluminum plates, the two sides of the two aluminum plates are folded with M folding, 1 I, and the two sides of the curved The other aluminum plate is joined by 1 1 on both sides of the edge. It is formed by 〇1 1 9. As shown in Φ, the refrigerant circulation tube for heat exchanger as described in item 6 of the patent scope 1 1 Ding 9 where the flat aluminum tube consists of two One piece of aluminum plate is formed as one hollow part * The two edges of two pieces of aluminum plate are folded and overlapped by 1 and the phase 1 1 part is joined to form C '1 I 10. As described in item 6 of the patent scope, the refrigerant for the heat exchanger circulates 1 1 line 1 tube »where the flat aluminum tube is formed by a single aluminum plate forming a hollow part. Up to 1 1 of the side edge, 1 less edge, edge bend r, butt the bent edge to another edge. Edge 1 and edge are joined together to form 〇1 5 1 1 1. As described in item 6 of the patent application The refrigerant for the exchanger Γ circulates 1 1 tube t where the above-mentioned reinforcing wall is from the upper wall to the inner side ____. The bulge formed by the body 1 1 downward ridges > and from the lower wall to the inner side. The bulge formed by the body Upper | The joint formed by the protruding system t and the above-mentioned connecting holes are made by Μ 1 _ 1 8 _ 1 1 1 1 This paper size is applicable to the Chinese National Standard Falcon (CNS) A4 specification (210X 297 mm > VI 、 The scope of patent application A8 B8 C8 D8 is open to Tonglong The wall is shaped like a strip, and the first-class, flat, downward flow of the medium is formed, so that the inner surface of the upper medium is formed at the edge of the cold, and the junction is cooled to the built-in opening. The device is separated by a bar, and the device's wall is abruptly changed, and the phase matching part is changed to any one of the phases. In the middle of the heat, the wall underneath faces the wall of the two fixed ones, and the condition of the fate is stated, and the fate becomes the retreat. From the Tanqi class to the M wall strip, the item has a flat and long type, and the item from the joint is projected from below to 6. The two sub-segments 6 are connected to the upper and lower shapes of the wall. The hole in the wall is facing and the wall is forcibly connected to form a strong opening. Because the quasi-norm-shaped hole is connected to its norm-like shape, it is set up for the first one of the Li Shutu and the Shushu Department. The aspect of the edge of the plug is tertiary, the upper and the upper part of the mouth are separated, and the side wall is described in the middle and bottom. The phase part claims its success towards the wall, the next one is like a partition, the shape is like a strip, and the shape is like a gap. The tube is up and down, and it is in the middle. The tube body is shaped 2 3 Install --- --- order ------ line (please read the precautions on the back before filling in the chicken page) The paper standard printed by the Employee Consumer Cooperative of the Central Standards Bureau of the Ministry of Economic Affairs is applicable to the Chinese National Standard (CNS) Λ4 specification (210X 297 Mm)