CN217044237U - Continuous automatic processing equipment for heat shield in heat exchanger - Google Patents
Continuous automatic processing equipment for heat shield in heat exchanger Download PDFInfo
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- CN217044237U CN217044237U CN202220745806.3U CN202220745806U CN217044237U CN 217044237 U CN217044237 U CN 217044237U CN 202220745806 U CN202220745806 U CN 202220745806U CN 217044237 U CN217044237 U CN 217044237U
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Abstract
The utility model discloses a continuous automatic processing device for a heat shield in a heat exchanger, which integrates a first punching component, a first shaping component, a flanging shaping component, a second punching component and a second punching component between an upper template and a lower template and is arranged along the steel belt conveying direction in sequence, and simultaneously can be equipped with an automatic feeding mechanism to punch the steel belt in the excess material part, punch off a first connecting position, punch off a bulge part and shape a connecting edge, shape a flanging and flanging, punch through holes and punch off a second connecting position in sequence, the steel belt is connected into a whole before the punching off processing of the second connecting position and enters into a station along the same track, therefore, the utility model can improve the utilization rate of equipment and the utilization rate of materials, simultaneously ensure the uniformity of the structure of the processed heat shield, is beneficial to the batch production and processing, and ensures the size precision of the heat shield, the quality of the heat shield is improved; in addition, the utility model has the characteristics of compact structure and small occupied space.
Description
[ technical field ] A
The utility model relates to a continuous automatic processing equipment of heat shield plate used in heat exchanger.
[ background of the invention ]
In the production and manufacturing process of the heat shield plate of the prior heat exchanger, a plurality of working procedures are usually required to manufacture and mold; for example, the heat shield needs to be subjected to a plurality of processes such as punching, flanging and punching in the production and manufacturing process, but the equipment for performing the work such as punching, flanging and punching on the heat shield usually works independently of each other, i.e. the punching device, the flanging device and the punching device all work independently, when the heat shield completes the work of one process, the heat shield needs to be carried to the next process by workers for operation, so that the problems of high labor cost, low processing efficiency, low raw material utilization rate and large occupied space exist.
Therefore, the present invention has been made in view of the above problems.
[ Utility model ] A method for manufacturing a semiconductor device
The utility model aims at overcoming the not enough of prior art, providing a be arranged in heat exchanger heat shield continuous automatic processing equipment, can improve the problem that prior art exists, it is high to have a machining efficiency, and raw and other materials high-usage, compact structure's characteristics.
The utility model discloses a realize through following technical scheme:
the utility model provides a be arranged in continuous automatic processing equipment of heat shield among heat exchanger, is including the lower bolster 1 that can supply steel band 100 to pass and the cope match-plate pattern 2 that can 1 reciprocating motion relatively, be equipped with first punching a hole station, first cut edge station, punching press and plastic station, turn-ups and plastic station, second punching a hole station, second cut edge station between cope match-plate pattern 2 and the lower bolster 1 and along 100 direction of delivery of steel band in proper order.
The steel strip 100 has a plurality of forming portions 110 for forming the heat shield plate 200 and a surplus portion 120 connected to the forming portions 110, and a first connecting portion 111 is provided between adjacent forming portions 110 and a second connecting portion 112 is provided between the forming portions 110 and the surplus portion 120.
The first punching station is provided with a first punching assembly 3 for punching a positioning hole 121 in the excess material part 120, and the upper template 2 is provided with a positioning bulge 21 for entering the positioning hole 121 when the upper template 2 and the lower template 1 are pressed together;
the first trimming station is provided with a first punching assembly 4 for punching the first connecting position 111.
The stamping and shaping station is provided with a stamping component 5 for stamping the convex part 210 of the heat shield plate 200 on the forming part 110 and a first shaping component for shaping a connecting edge 211 between the convex part 210 and the forming part 110.
The flanging and shaping station is provided with a flanging 220 for flanging the side edge of the forming part 110 to form the heat shield plate 200 and a flanging shaping component 6 for shaping the flanging 220.
The second punching station is provided with a second punching assembly 7 for punching a through hole 230 of the heat shield plate 200 on the forming part 110.
And a second trimming station is provided with a second punching assembly 8 for cutting off the second connecting position 112.
As mentioned above, the first punching assembly 3 includes the first punching male die 31 disposed on the upper die plate 2 and used for punching the positioning hole 121 on the excess material portion 120, and the lower die plate 1 is provided with the first punching female die 32 for avoiding the first punching male die 31 when the upper die plate 2 and the lower die plate 1 are pressed together.
According to the continuous automatic processing equipment for the heat shield plate in the heat exchanger, the first punching component 4 comprises the first punching male die 41 which is arranged on the upper template 2 and is used for punching the first connecting position 111, and the lower template 1 is provided with the first punching female die 42 which is used for avoiding the first punching male die 41 when the upper template 2 and the lower template 1 are pressed together.
The continuous automatic processing equipment for the heat shield plate in the heat exchanger comprises the first punching male die 41 which is arranged on the upper die plate 2 and is used for punching the middle position of the first connecting position 111 and the second punching male die 412 which is used for punching the two end positions of the first connecting position 111, and the first punching female die 42 comprises a first punching female die 421 for avoiding the first punching male die 411 and a second punching female die 422 for avoiding the second punching male die 412 when the upper die plate 2 is pressed with the lower die plate 1.
The continuous automatic processing equipment for the heat shield plate in the heat exchanger comprises the stamping assembly 5, wherein the lower stamping male die 51 is arranged on the lower template 1, the upper stamping male die 52 is arranged on the upper template 2 at intervals, and the upper stamping female die 53 which can be used for the lower stamping male die 51 to enter to stamp the convex part 210 of the heat shield plate 200 on the forming part 110 when the upper template 2 is pressed with the lower template 1 is formed between the two upper stamping male dies 52; the first shaping assembly comprises a first shaping inner die 511 arranged on the side edge of the lower stamping male die 51, and a first shaping outer die 521 capable of matching with the first shaping inner die 511 to shape the connecting edge 211 is arranged on the side edge of the upper stamping male die 52.
The continuous automatic processing equipment for the heat shield in the heat exchanger comprises an upper shaping male die 61 arranged on an upper die plate 2, wherein a second shaping outer die 611 is arranged on the side edge of the upper shaping male die 61, a lower shaping female die 62 used for avoiding the upper shaping male die 61 when the upper die plate 2 is pressed is arranged on a lower die plate 1, and a second shaping inner die 621 capable of matching with the second shaping outer die 611 to shape a connecting edge 211 is arranged on the side wall of the lower shaping female die 62; the flanging and reshaping component 6 further comprises a flanging male die 63 which is arranged on the upper reshaping male die 61 and is used for flanging the side edge of the forming part 110 to form a flanging 220 of the heat shield 200, and a flanging female die 64 which is arranged on the lower template 1 and is positioned on the inner side of the lower reshaping female die 62 and is used for avoiding the flanging male die 63 when the upper template 2 and the lower template 1 are pressed together; the side edge of the flanging male die 63 is provided with a flanging and shaping external die 631, and the side wall of the flanging female die 64 is provided with a flanging and shaping internal die 641 which can be matched with the flanging and shaping external die 631 to shape the flanging 220 of the heat shield plate 200.
As mentioned above, the second punching assembly 7 includes the second punching male die 71 disposed on the upper mold plate 2 and used for punching the through hole 230 of the heat shield 200 on the forming portion 110, and the lower mold plate 1 is disposed with the second punching female die 72 for avoiding the second punching male die 71 when the upper mold plate 2 and the lower mold plate 1 are pressed together.
According to the continuous automatic processing equipment for the heat shield plate in the heat exchanger, the second punching component (8) comprises a second punching male die 81 which is arranged on the upper template 2 and used for punching the second connecting position 112, and a second punching female die 82 for enabling the swimsuit to avoid the second punching male die 81 when the upper template 2 and the lower template 1 are pressed is arranged on the lower template 1.
As above a be arranged in continuous automatic processing equipment of heat shield in heat exchanger, be equipped with buffer structure between cope match-plate pattern 2 and the lower bolster 1, buffer structure is including the location connecting rod 22 of swing joint on cope match-plate pattern 2, be equipped with the location borehole jack 11 that supplies location connecting rod 22 to get into on the lower bolster 1, on the location connecting rod 22 and be located the cope match-plate pattern 2 and the lower bolster 1 between the cover be equipped with bolster 221.
As mentioned above, the equipment for continuously and automatically processing the heat shield plate in the heat exchanger is characterized in that a guide structure is arranged between the upper template 2 and the lower template 1, the guide structure comprises a guide rod 12 arranged on the lower template 1, and the upper template 2 is provided with a guide sliding sleeve 23 which can be sleeved on the guide rod 12.
Compared with the prior art, the utility model has the advantages of as follows:
1. the utility model discloses a with first punching subassembly, first die-cut subassembly, the punching press subassembly, first plastic subassembly, turn-ups plastic subassembly, second punching subassembly, second die-cut subassembly all integrate between cope match-plate pattern and lower bolster and set gradually along the steel band direction of delivery, can be equipped with automatic feeding mechanism simultaneously and carry out the punching of clout portion with the steel band in proper order, first connection position die-breaking, bellying punching and connection limit plastic, turn-ups and turn-ups plastic, blanking through-hole, second connection position die-breaking, steel band connection is whole and enter a station along the same orbit before the second connection position die-breaking processing, therefore the utility model discloses can improve equipment utilization ratio and material utilization ratio, guarantee the shielding plate structure of processing simultaneously unified, be favorable to the batch production processing, guarantee the size precision of shielding plate, improve shielding plate quality; in addition, the utility model has the characteristics of compact structure and small occupied space.
2. Be equipped with buffer structure between cope match-plate pattern and the lower bolster, at cope match-plate pattern pressfitting lower bolster in-process, buffer structure can play the cushioning effect to the cope match-plate pattern, plays the guard action, can also assist the relative lower bolster separation of cope match-plate pattern in addition, improves efficiency that resets.
3. The guide structure is arranged between the upper template and the lower template, so that the accuracy and the stability of the processing assembly arranged between the upper template and the lower template can be improved, the processing assembly of each station can process the steel strip accurately, and the processing quality is improved.
[ description of the drawings ]
The following detailed description of embodiments of the present invention is provided with reference to the accompanying drawings, in which:
fig. 1 is a schematic view of the three-dimensional structure of the present invention.
Fig. 2 is one of the schematic structural diagrams of the present invention.
Fig. 3 is a second schematic structural diagram of the present invention.
Fig. 4 is a third schematic structural diagram of the present invention.
Fig. 5 is a schematic structural diagram of the first punching assembly and the first punching assembly of the present invention.
Fig. 6 is a schematic structural diagram of the stamping assembly and the first reshaping assembly according to the present invention.
Fig. 7 is a schematic structural view of the flanging reshaping component of the present invention.
Fig. 8 is a schematic structural view of a second punching assembly and a second punching assembly according to the present invention.
Fig. 9 is a schematic view of the steel belt of the present invention.
Fig. 10 is a schematic structural view of the heat shield of the present invention.
[ detailed description ] embodiments
Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.
As shown in fig. 1-10, the utility model relates to a be arranged in continuous automatic processing equipment of heat shield in heat exchanger, including lower bolster 1 that can supply steel band 100 to pass and the cope match-plate pattern 2 of 1 reciprocating motion of lower bolster relatively, just be equipped with first station, the first side cut station, punching press and plastic station, turn-ups and plastic station, the second side cut station of punching a hole in proper order along steel band 100 direction of delivery between cope match-plate pattern 2 and the lower bolster 1.
The steel strip 100 has a plurality of forming portions 110 for forming the heat shield plate 200 and a surplus portion 120 connected to the forming portions 110, and a first connecting portion 111 is provided between adjacent forming portions 110 and a second connecting portion 112 is provided between the forming portions 110 and the surplus portion 120.
The first punching station is provided with a first punching assembly 3 for punching a positioning hole 121 on the excess material part 120, and the upper template 2 is provided with a positioning protrusion 21 for entering the positioning hole 121 when the upper template 2 and the lower template 1 are pressed together.
The first trimming station is provided with a first punching assembly 4 for punching the first connecting position 111.
The punching and shaping station is provided with a punching component 5 for punching the convex part 210 of the heat shield plate 200 on the forming part 110 and a first shaping component for shaping a connecting edge 211 between the convex part 210 and the forming part 110.
The flanging and shaping station is provided with a flanging 220 for flanging the side edge of the forming part 110 to form the heat shield plate 200 and a flanging shaping component 6 for shaping the flanging 220.
The second punching station is provided with a second punching assembly 7 for punching a through hole 230 of the heat shield plate 200 on the forming part 110.
And a second punching component 8 for cutting off the second connecting position 112 is arranged at the second trimming station. When in processing, the external driving device drives the upper template to reciprocate relative to the lower template, and simultaneously, the external automatic feeding mechanism carries out punching of the excess material part, punching of the first connecting position, punching and shaping of the convex part and the connecting edge, shaping of the flanging and the flanging, punching of the through hole and punching of the second connecting position in sequence on the steel strip, namely, the first punching component 3 punches a positioning hole 121 on the excess material part positioned at the first punching station, the positioning protrusion enters the positioning hole positioned at other stations to position the steel strip, and simultaneously, the first punching component punches the first connecting position positioned at the first cutting station and punches the punching component on the forming part positioned at the punching and shaping stations to form the convex part 210 and the first shaping component of the heat shield plate on the connecting edge 211 positioned between the convex part 210 and the forming part 110, and the flanging shaping component carries out flanging treatment on the side edge of the forming part positioned at the flanging and shaping stations to form the flanging 220 of the heat shield 200 and is used for carrying out the flanging treatment on the side edge of the forming part positioned at the flanging and the shaping station The flanging 220 is shaped, the second punching component punches through holes 230 of the heat shield 200 on the forming part 110 located at the second punching station, and the second punching component cuts off the second connecting position located at the second trimming station, so that the heat shield is manufactured.
As shown in fig. 1-10, the utility model discloses a with first punching subassembly, first die-cut subassembly, punching press subassembly, first plastic subassembly, turn-ups plastic subassembly, second punching subassembly all integrate between cope match-plate pattern and lower bolster and set gradually along the steel band direction of delivery, can be equipped with automatic feeding mechanism simultaneously and carry out the punching of clout portion, first connection position die-cut, bellying punching press and connection limit plastic, turn-ups and turn-ups plastic, blanking through-hole, second connection position die-cut with the steel band in proper order, to the steel band connect as an entirety and enter into a station along the same orbit before the processing is broken to second connection position die-cut, therefore the utility model discloses can improve equipment utilization ratio and material utilization ratio, guarantee simultaneously that the heat shield structure of processing is unified, do benefit to batch production processing, guarantee heat shield size precision, improve the heat shield quality; in addition, the utility model has the characteristics of compact structure and small occupied space.
As shown in fig. 1 to 5, in order to improve the punching quality and the punching efficiency, the first punching assembly 3 includes a first punching male die 31 disposed on the upper die plate 2 and used for punching the positioning hole 121 on the remainder portion 120, and the lower die plate 1 is provided with a first punching female die 32 for avoiding the first punching male die 31 when the upper die plate 2 and the lower die plate 1 are pressed together.
As shown in fig. 1 to 5, in order to improve the punching efficiency and the punching effect, the first punching assembly 4 includes a first punching male die 41 that is disposed on the upper die plate 2 and is used for punching the first connecting portion 111, and the lower die plate 1 is provided with a first punching female die 42 that is used for avoiding the first punching male die 41 when the upper die plate 2 and the lower die plate 1 are pressed together.
As shown in fig. 1 to 5, the first punching male die 41 includes a first punching male die 411 that is arranged on the upper die plate 2 and is used for punching the middle position of the first connecting position 111, and a second punching male die 412 that is used for punching the two end positions of the first connecting position 111, and the first punching female die 42 includes a first punching female die 421 that is used for avoiding the first punching male die 411 when the upper die plate 2 is pressed with the lower die plate 1, and a second punching female die 422 that is used for avoiding the second punching male die 412. In the embodiment, the first punching male die 41 is divided into the first punching male die 411 and the second punching male die 412, and the first punching male die 411 and the second punching male die 412 sequentially perform punching work on the first connecting position 111, so that deformation of a formed part caused by overlarge stress of a steel belt in the punching process can be avoided, and the quality of the heat shield is ensured; simultaneously can also simplify first die-cut terrace die 41 structure relatively, be convenient for a die-cut terrace die 41 manufacturing, reduce manufacturing difficulty and cost.
As shown in fig. 1 to 4 and 6, in order to improve the punching effect and ensure the punching quality, the punching assembly 5 includes a lower punch 51 disposed on the lower die plate 1, two upper punches 52 are disposed on the upper die plate 2 at intervals, and an upper punch female 53 is formed between the two upper punches 52, into which the lower punch 51 enters to punch the convex portion 210 of the heat shield 200 on the forming portion 110 when the upper die plate 2 is pressed against the lower die plate 1.
As shown in fig. 1 to 4 and 6, in order to improve the punching effect and ensure the punching quality, the first shaping assembly includes a first inner shaping die 511 provided on the side of the lower punching male die 51, and a first outer shaping die 521 capable of cooperating with the first inner shaping die 511 to shape the connecting edge 211 is provided on the side of the upper punching male die 52.
As shown in fig. 1-4 and 7, in order to further improve the quality of the connecting edge, the flanging and shaping assembly 6 includes an upper shaping male die 61 arranged on the upper die plate 2, a second shaping outer die 611 is arranged on a side edge of the upper shaping male die 61, a lower shaping female die 62 for avoiding the upper shaping male die 61 when the upper die plate 2 is pressed is arranged on the lower die plate 1, and a second shaping inner die 621 capable of matching with the second shaping outer die 611 to shape the connecting edge 211 is arranged on a side wall of the lower shaping female die 62.
As shown in fig. 1-4 and 7, in order to improve the flanging effect and the flanging quality, the flanging shaping component 6 further includes a flanging male die 63 disposed on the upper shaping male die 61 and used for performing a flanging process on the side edge of the shaping portion 110 to form a flanging 220 of the heat shield 200, and a flanging female die 64 disposed on the lower die plate 1 and located inside the lower shaping female die 62 and used for avoiding the flanging male die 63 when the upper die plate 2 and the lower die plate 1 are pressed together is disposed on the lower die plate 1.
As shown in fig. 1-4 and 7, in order to improve the flanging effect and the flanging quality, the flanging male die 63 is provided with a flanging shaping external die 631 on a side edge thereof, and the flanging shaping internal die 641 capable of shaping the flanging 220 of the heat shield 200 by matching with the flanging shaping external die 631 is provided on a side wall of the flanging female die 64.
As shown in fig. 1 to 4 and 8, in order to improve the punching effect, the second punching assembly 7 includes a second punching male die 71 which is arranged on the upper die plate 2 and is used for punching the through hole 230 of the heat shield plate 200 on the forming portion 110, and a second punching female die 72 which is used for avoiding the second punching male die 71 when the upper die plate 2 and the lower die plate 1 are pressed together is arranged on the lower die plate 1.
As shown in fig. 1-4 and 8, in order to improve the punching effect and efficiency, the second punching assembly (8) includes a second punching male die 81 which is arranged on the upper die plate 2 and used for punching the second connecting portion 112, and a second punching female die 82 for making the swimsuit avoid the second punching male die 81 when the upper die plate 2 and the lower die plate 1 are pressed together is arranged on the lower die plate 1.
As shown in fig. 1-8, be equipped with buffer structure between cope match-plate pattern 2 and the lower bolster 1, buffer structure is including the location connecting rod 22 of swing joint on cope match-plate pattern 2, be equipped with the location hole cover 11 that supplies location connecting rod 22 to get into on the lower bolster 1, the cover is equipped with bolster 221 on the location connecting rod 22 and is located between cope match-plate pattern 2 and the lower bolster 1, and at cope match-plate pattern pressfitting lower bolster in-process, buffer structure can play the cushioning effect to the cope match-plate pattern, plays the guard action, can also assist the separation of the relative lower bolster of cope match-plate pattern in addition, improves efficiency of resetting. In order to improve the buffering effect, the buffering member 221 is a return spring or a silica gel sleeved on the positioning link 22.
As shown in fig. 1-8, a guide structure is arranged between the upper template 2 and the lower template 1, the guide structure comprises a guide rod 12 arranged on the lower template 1, a guide sliding sleeve 23 which can be sleeved on the guide rod 12 is arranged on the upper template 2, the accuracy and stability of a processing assembly arranged between the upper template and the lower template can be improved, the processing assembly at each station can process a steel strip accurately, and therefore the processing quality is improved.
Claims (10)
1. The continuous automatic processing equipment for the heat shield plate in the heat exchanger is characterized by comprising a lower template (1) through which a steel strip (100) can pass and an upper template (2) which can reciprocate relative to the lower template (1), wherein a first punching station, a first trimming station, a punching and shaping station, a flanging and shaping station, a second punching station and a second trimming station are sequentially arranged between the upper template (2) and the lower template (1) and along the conveying direction of the steel strip (100);
the steel strip (100) is provided with a plurality of forming parts (110) for forming the heat shield plate (200) and excess material parts (120) connected with the forming parts (110), a first connecting position (111) is arranged between every two adjacent forming parts (110), and a second connecting position (112) is arranged between each forming part (110) and each excess material part (120);
the first punching station is provided with a first punching assembly (3) for punching a positioning hole (121) in the excess material part (120), and the upper template (2) is provided with a positioning protrusion (21) for entering the positioning hole (121) when the upper template (2) and the lower template (1) are pressed;
the first trimming station is provided with a first punching assembly (4) for punching and cutting the first connecting position (111);
the stamping and shaping station is provided with a stamping assembly (5) for stamping a convex part (210) of the heat shield plate (200) on a forming part (110) and a first shaping assembly for shaping a connecting edge (211) between the convex part (210) and the forming part (110);
the flanging and shaping station is provided with a flanging (220) for flanging the side edge of the forming part (110) to form the heat shield plate (200) and a flanging and shaping assembly (6) for shaping the flanging (220);
a second punching assembly (7) for punching a through hole (230) of the heat shield plate (200) on a forming part (110) is arranged at the second punching station;
and a second punching component (8) for cutting off the second connecting position (112) is arranged at the second trimming station.
2. The continuous automatic processing equipment for the heat shield in the heat exchanger is characterized in that the first punching component (3) comprises a first punching male die (31) which is arranged on the upper template (2) and used for punching a positioning hole (121) on the excess material part (120), and a first punching female die (32) which is used for avoiding the first punching male die (31) when the upper template (2) is pressed with the lower template (1) is arranged on the lower template (1).
3. The continuous and automatic processing equipment for the heat shield plate in the heat exchanger is characterized in that the first punching component (4) comprises a first punching male die (41) which is arranged on the upper template (2) and is used for punching off the first connecting position (111), and a first punching female die (42) which is used for avoiding the first punching male die (41) when the upper template (2) and the lower template (1) are pressed together is arranged on the lower template (1).
4. The continuous automatic processing equipment for the heat shield plate in the heat exchanger according to claim 3, wherein the first punching male die (41) comprises a first punching male die (411) which is arranged on the upper die plate (2) and is used for punching the middle position of the first connecting position (111) and a second punching male die (412) which is used for punching the two end positions of the first connecting position (111), and the first punching female die (42) comprises a first punching female die (421) which is used for avoiding the first punching male die (411) and a second punching female die (422) which is used for avoiding the second punching male die (412) when the upper die plate (2) is pressed with the lower die plate (1).
5. The continuous automatic processing equipment for the heat shield plate in the heat exchanger according to claim 3 or 4, characterized in that the punching assembly (5) comprises a lower punching male die (51) arranged on the lower template (1), two upper punching male dies (52) are arranged on the upper template (2) at intervals, and an upper punching female die (53) which can be used for the lower punching male die (51) to enter so as to punch the convex parts (210) of the heat shield plate (200) on the forming part (110) when the upper template (2) is pressed with the lower template (1) is formed between the two upper punching male dies (52);
the first shaping assembly comprises a first shaping inner die (511) arranged on the side edge of the lower stamping male die (51), and a first shaping outer die (521) capable of being matched with the first shaping inner die (511) to shape the connecting edge (211) is arranged on the side edge of the upper stamping male die (52).
6. The continuous and automatic processing equipment for the heat shield in the heat exchanger is characterized in that the flanging and shaping component (6) comprises an upper shaping male die (61) arranged on an upper die plate (2), a second shaping outer die (611) is arranged on the side edge of the upper shaping male die (61), a lower shaping female die (62) used for avoiding the upper shaping male die (61) when the upper die plate (2) is pressed is arranged on the lower die plate (1), and a second shaping inner die (621) capable of matching with the second shaping outer die (611) to shape the connecting edge (211) is arranged on the side wall of the lower shaping female die (62);
the flanging and shaping assembly (6) further comprises a flanging male die (63) which is arranged on the upper shaping male die (61) and is used for flanging the side edge of the forming part (110) to form a flanging (220) of the heat shield plate (200), and a flanging female die (64) which is used for avoiding the flanging male die (63) when the upper template (2) and the lower template (1) are pressed together is arranged on the lower template (1) and is positioned on the inner side of the lower shaping female die (62);
the side edge of the flanging male die (63) is provided with a flanging shaping external die (631), and the side wall of the flanging female die (64) is provided with a flanging shaping internal die (641) which can be matched with the flanging shaping external die (631) to shape a flanging (220) of the heat shield plate (200).
7. The continuous automatic processing equipment for the heat shield in the heat exchanger according to claim 6, wherein the second punching assembly (7) comprises a second punching male die (71) which is arranged on the upper template (2) and is used for punching the through hole (230) of the heat shield (200) on the forming part (110), and a second punching female die (72) which is used for avoiding the second punching male die (71) when the upper template (2) is pressed with the lower template (1) is arranged on the lower template (1).
8. The continuous automatic processing equipment for the heat shield in the heat exchanger according to claim 7, wherein the second punching component (8) comprises a second punching male die (81) which is arranged on the upper template (2) and is used for punching the second connecting position (112), and a second punching female die (82) for enabling the swimsuit to avoid the second punching male die (81) when the upper template (2) and the lower template (1) are pressed is arranged on the lower template (1).
9. The continuous automatic processing equipment for the heat shield in the heat exchanger is characterized in that a buffering structure is arranged between the upper template (2) and the lower template (1), the buffering structure comprises a positioning connecting rod (22) movably connected to the upper template (2), a positioning hole sleeve (11) for the positioning connecting rod (22) to enter is arranged on the lower template (1), and a buffering piece (221) is sleeved on the positioning connecting rod (22) and positioned between the upper template (2) and the lower template (1).
10. The continuous and automatic processing equipment for the heat shield plate in the heat exchanger according to claim 1 or 9 is characterized in that a guide structure is arranged between the upper template (2) and the lower template (1), the guide structure comprises a guide rod (12) arranged on the lower template (1), and a guide sliding sleeve (23) capable of being sleeved on the guide rod (12) is arranged on the upper template (2).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202220745806.3U CN217044237U (en) | 2022-03-31 | 2022-03-31 | Continuous automatic processing equipment for heat shield in heat exchanger |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202220745806.3U CN217044237U (en) | 2022-03-31 | 2022-03-31 | Continuous automatic processing equipment for heat shield in heat exchanger |
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Publication Number | Publication Date |
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CN217044237U true CN217044237U (en) | 2022-07-26 |
Family
ID=82469293
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN202220745806.3U Active CN217044237U (en) | 2022-03-31 | 2022-03-31 | Continuous automatic processing equipment for heat shield in heat exchanger |
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CN (1) | CN217044237U (en) |
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2022
- 2022-03-31 CN CN202220745806.3U patent/CN217044237U/en active Active
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