CN216989529U - Plate stamping die for producing radiating fins - Google Patents

Abstract

The utility model discloses a plate stamping die for producing cooling fins, which comprises a top die and a bottom die, wherein the lower end face of the top die is provided with a stamping die, the bottom die is arranged on the lower side of the top die, the upper end face of the bottom die is provided with a lower die block, a plurality of guide assemblies are arranged between the bottom die and the top die, one side of the outer side end of the top die is provided with a mechanical transmission mechanism, the fixed end of the lower side of the mechanical transmission mechanism is arranged on the outer side end of the bottom die, the lower part of the lower die block is internally provided with a cooling cavity, both sides of the cooling cavity are respectively provided with a temporary storage cavity, both sides of the lower die block are respectively connected with a conveying mechanism, and the end face, close to the cooling cavity, on the temporary storage cavity is provided with a plurality of flow guide through holes. The utility model has reasonable integral design, ensures good cooling effect of the processing table by circularly introducing the internal cooling liquid, can avoid directly operating the material belt in the processing area, ensures safe operation and has good use effect.

Description

Panel stamping die is used in fin production

Technical Field

The utility model relates to the technical field of related devices for producing and processing radiating fins, in particular to a plate stamping die for producing radiating fins.

Background

The stamping die is a special process equipment for processing materials into parts in stamping process, and generally applies stamping force to a material belt to separate and shape the material belt.

At present, in the stamping production of the radiating fin, because the stamping processing generates larger heat, the friction heat between a die and a material, the plastic deformation heat of the material and the like are all expressed in the form of processing heat, particularly in the high-speed processing technology, the generation of heat is more, the die is easy to expand and soften due to overhigh temperature of the die, so the processing efficiency of the die is reduced, and in addition, in the die assembly process of an upper die and a lower die, great potential safety hazards are easy to exist due to machine faults.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a plate stamping die for producing radiating fins, which aims to solve the problems in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme: the utility model provides a panel stamping die is used in fin production, includes top mould and die block, the lower terminal surface of top mould is provided with the press die, the downside at the top mould is established to the die block, the up end of die block is provided with down the module, the die block with be provided with several direction subassembly between the top mould, outside end one side of top mould is provided with mechanical drive mechanism, mechanical drive mechanism's downside stiff end sets up the outside end at the die block, the lower part of module down be equipped with the cooling chamber in the die block, the both sides in cooling chamber all are equipped with the chamber of keeping in, the both sides homogeneous phase of module connects down and is provided with conveying mechanism.

Preferably, the direction subassembly includes activity guide bar and fixed uide bushing, the top setting of activity guide bar is in the end angle department of terminal surface under the cope match-plate pattern, the bottom welding of activity guide bar is provided with the piston piece, the intracavity portion is being kept in to the lower part of piston piece is established, fixed uide bushing cup joints the slip outside at the activity guide bar, just fixed uide bushing welding sets up at the die block terminal surface.

Preferably, mechanical transmission mechanism is including rotating the motor, the output that rotates the motor is provided with the connection grillage through the coupling joint, the opposite side cup joints on the connection grillage and is provided with the connecting rod, another side is provided with the connection platform on the connecting rod, just connect the side that the platform welding set up at the top mould, the outer terminal surface front and back portion of connecting the platform all is provided with sliding block set, the front and back side sliding block set's outside is provided with vertical guide rail, vertical guide rail's lower extreme welding is provided with the backup pad, just pass through the screw in the backup pad and rotate the fixed setting of motor, the one end welding of nearly die block sets up the side at the die block in the backup pad.

Preferably, conveying mechanism is including carrying the home roll and carrying the slave roll, carry the home roll with carry the slave roll and go up the round joint and be provided with the conveyer belt, carry the home roll upper end and be provided with conveying motor, just conveying motor passes through the shaft coupling and carries the home roll to be connected.

Preferably, a plurality of flow guide ports are arranged on the end face, close to the cooling cavity, of the temporary storage cavity.

Preferably, the belt surfaces of the conveying belts on the two sides are connected with the end surfaces on the two sides of the lower module.

Compared with the prior art, the utility model has the beneficial effects that:

1. the temporary storage cavity, the cooling cavity, the piston block, the fixed guide rod and the movable guide sleeve are movably mounted at the upper end in the temporary storage cavity, extrusion force generated when the piston block moves downwards compresses the air volume in the temporary storage cavity, so that cooling liquid is introduced into the cooling cavity from the temporary storage cavity through the plurality of flow guide ports, heat exchange cooling is performed on the lower module, negative pressure suction force is generated when the piston block moves upwards, the cooling liquid can be introduced into the temporary storage cavity from the cooling cavity through the plurality of flow guide ports, cooling operation is performed on the cooling liquid after heat exchange operation is completed, and the use effect is good;

2. the conveying belt connected with the two side ends outside the lower module is arranged, so that the lower module can be moved out of a processing area of the stamping die under the action of the conveying motor, the material belt is prevented from being directly operated in the processing area below the stamping die, and the safety operation is ensured.

Drawings

FIG. 1 is a general view of the structure of the present invention;

FIG. 2 is a side view of the conveying mechanism of the present invention;

fig. 3 is a related structural diagram of the mechanical transmission mechanism of the utility model.

In the figure: 1. carrying out top die; 2. bottom die; 3. stamping a die; 4. a lower module; 5. a guide assembly; 51. a movable guide bar; 52. fixing a guide sleeve; 53. a piston block; 6. a mechanical transmission mechanism; 61. rotating the motor; 62. a connecting plate frame; 63. a connecting rod; 64. a connecting table; 65. a slide block set; 66. a vertical guide rail; 67. a support plate; 7. a cooling chamber; 8. a temporary storage cavity; 9. a conveying mechanism; 91. a conveying main roller; 92. a delivery slave roller; 93. a conveyor belt; 94. a conveying motor; 10. and (6) a flow guide port.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-3, the present invention provides a technical solution: the utility model provides a panel stamping die is used in fin production, including top mould 1 and die block 2, press die 3 is installed to the lower terminal surface of top mould 1, the downside at top mould 1 is established to die block 2, module 4 down is installed to the up end of die block 2, install several direction subassembly 5 between die block 2 and top mould 1, mechanical drive mechanism 6 is installed to outside end one side of top mould 1, the outside end at die block 2 is installed to the downside stiff end of mechanical drive mechanism 6, be equipped with cooling chamber 7 in the lower part die block 2 of die block 4 down, the both sides of cooling chamber 7 all are equipped with the chamber 8 of keeping in, conveying mechanism 9 is installed in the both sides homogeneous phase of lower module 4.

The guide assembly 5 comprises a movable guide rod 51 and a fixed guide sleeve 52, the top end of the movable guide rod 51 is installed at the end angle of the lower end face of the top die 1, the bottom end of the movable guide rod 51 is welded and installed with a piston block 53, the lower part of the piston block 53 is arranged in the temporary storage cavity 8, the fixed guide sleeve 52 is sleeved and slid outside the movable guide rod 51, and the fixed guide sleeve 52 is welded and installed on the end face of the bottom die 2; the mechanical transmission mechanism 6 comprises a rotating motor 61, the output end of the rotating motor 61 is connected and installed with a connecting plate frame 62 through a coupler, the other side of the connecting plate frame 62 is sleeved and installed with a connecting rod 63, the other side end of the connecting rod 63 is installed with a connecting table 64, the connecting table 64 is installed at the side end of the top die 1 in a welding mode, the front and rear parts of the outer end face of the connecting table 64 are all provided with a sliding block set 65, the outer parts of the front and rear sliding block sets 65 are provided with vertical guide rails 66, the lower ends of the vertical guide rails 66 are provided with supporting plates 67 in a welding mode, the supporting plates 67 are fixedly installed with the rotating motor 61 through screws, and one ends, close to the bottom die 2, of the supporting plates 67 are installed at the side end of the bottom die 2 in a welding mode; the conveying mechanism 9 comprises a conveying main roller 91 and a conveying auxiliary roller 92, a conveying belt 93 is wound on the conveying main roller 91 and the conveying auxiliary roller 92, a conveying motor 94 is arranged at the upper end of the conveying main roller 91, and the conveying motor 94 is connected with the conveying main roller 91 through a coupler; a plurality of flow guide ports 10 are formed in the end face, close to the cooling cavity 7, of the temporary storage cavity 8, so that cooling liquid stored in the temporary storage cavity 8 can be conveniently introduced into the cooling cavity 7; the belt surfaces of the conveyor belts 93 on the two sides are connected with the end surfaces on the two sides of the lower module 4, so that the conveyor belts 93 on the two sides can drive the connected lower module 4 to complete longitudinal displacement motion on the horizontal plane on the end surface of the bottom module 2.

The working principle is as follows: when the utility model is used, the module 4 is driven by the conveyer belt 93 in the conveying mechanism 9 connected with the two side ends of the lower module 4 to realize displacement change on the horizontal end face of the bottom die 2, the lower module 4 is displaced out of the processing area of the stamping die 3, then the material belt is placed on the end face of the lower module 4, then the material belt is displaced under the action of the conveyer belt 93 to the position under the processing area of the stamping die 3, at the moment, the power supply of the rotating motor 61 in the mechanical transmission mechanism 6 is switched on, the connecting platform 64 connected with the other end of the connecting rod 63 is driven by the transmission of the connecting plate frame 62 and the connecting rod 63 through the sliding block set 65 to realize displacement change in the vertical direction between the sliding rails, so that the stamping die 3 arranged on the end face of the top die 1 applies stamping force to the material belt for processing, meanwhile, in the stamping moving down process, the movable guide rod 51 can move down under the limiting action in the fixed guide sleeve 52, the air volume in the temporary storage cavity 8 is reduced through the piston block 53, the extrusion force of production lets in cooling chamber 7 with coolant liquid through keeping in a plurality of water conservancy diversion ports 10 that are equipped with on the terminal surface that chamber 8 and cooling chamber 7 meet mutually, exchange the cooling to lower module 4, move down the operation completion back in the punching press, top mould 1 can continue at connecting plate frame 62, it rises to realize top mould 1 under the transmission of connecting rod 63, piston block 53 shifts up the negative pressure suction that produces in keeping in chamber 8 and can return the coolant liquid that flows in cooling chamber 7 and let in keeping in chamber 8, cool down the coolant liquid of heat exchange, and the operation is simple, high durability and convenient use, good use effect's advantage has.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a panel stamping die is used in fin production, includes top mould (1) and die block (2), its characterized in that: the lower terminal surface of top mould (1) is provided with press die (3), establish the downside at top mould (1) bottom mould (2), the up end of bottom mould (2) is provided with down module (4), bottom mould (2) with be provided with several direction subassembly (5) between top mould (1), outside end one side of top mould (1) is provided with mechanical transmission mechanism (6), the downside stiff end setting of mechanical transmission mechanism (6) is at the outside end of bottom mould (2), the lower part of module (4) down be equipped with cooling chamber (7) in bottom mould (2), the both sides in cooling chamber (7) all are equipped with temporary storage chamber (8), the both sides homogeneous phase of module (4) connects down and is provided with conveying mechanism (9).

2. The plate material press mold for producing a fin as claimed in claim 1, wherein: guide assembly (5) are including activity guide bar (51) and fixed uide bushing (52), the top setting of activity guide bar (51) is in the end angle department of terminal surface under top mould (1), the bottom welding of activity guide bar (51) is provided with piston piece (53), the lower part of piston piece (53) is established inside chamber (8) of keeping in, fixed uide bushing (52) cup joint and slide in activity guide bar (51) outside, just fixed uide bushing (52) welding sets up at die block (2) terminal surface.

3. The plate material press mold for producing a fin as claimed in claim 1, wherein: mechanical drive mechanism (6) are including rotating motor (61), the output that rotates motor (61) is provided with connection panel frame (62) through the coupling joint, connection panel frame (62) are gone up the opposite side and are cup jointed and are provided with connecting rod (63), another side is provided with connection platform (64) on connecting rod (63), just connect platform (64) welding and set up the side in top mould (1), the outer terminal surface front and back portion of connecting platform (64) all is provided with slider group (65), the front and back side the outside of slider group (65) is provided with vertical guide rail (66), the lower extreme welding of vertical guide rail (66) is provided with backup pad (67), just go up through the screw and rotate motor (61) fixed the setting in backup pad (67), the one end welding setting of nearly end mould (2) is at the side of die block (2) on backup pad (67).

4. The plate material press mold for producing a fin as claimed in claim 1, wherein: conveying mechanism (9) are including carrying main roll (91) and carrying from roller (92), carry main roll (91) with carry to go up the wraparound and be provided with conveyer belt (93) from roller (92), carry main roll (91) upper end to be provided with conveying motor (94), just conveying motor (94) are connected with carrying main roll (91) through the shaft coupling.

5. The plate material press mold for producing a fin as claimed in claim 1, wherein: the end face, close to the cooling cavity (7), of the temporary storage cavity (8) is provided with a plurality of flow guide ports (10).

6. The plate material press mold for producing heat radiating fins as claimed in claim 4, wherein: the belt surfaces of the conveying belts (93) on the two sides are connected with the end surfaces on the two sides of the lower module (4).

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