CN118288000B - Quick former of inserted sheet radiator processing - Google Patents

Abstract

The invention belongs to the technical field of press fitting, in particular to a rapid forming device for processing an inserting sheet radiator, which comprises a base, wherein the upper surface of the base is fixedly connected with a workbench, a radiating bottom plate is placed on the workbench, a plurality of third hydraulic cylinders are fixedly connected on the workbench, the output ends of every two third hydraulic cylinders are fixedly connected with the same second guide rail, guide rods are slidably arranged in each second guide groove, two guide rods are fixedly connected with the same sliding frame, the bottom end of each sliding frame is rotatably provided with a plurality of rotating plates, one side, far away from the sliding frame, of each fixed frame is fixedly connected with a second hydraulic cylinder, and the output end of each second hydraulic cylinder is slidably provided with a plurality of inserting blocks; the top plate is fixedly connected above the base, a first hydraulic cylinder is fixedly connected on the upper surface of the top plate, a plugboard is fixedly connected at the output end of the first hydraulic cylinder, and the problem that the installation process of the heat dissipation plate is complicated is solved through the matching of the plugboard and the plugboard.

Description

Quick former of inserted sheet radiator processing

Technical Field

The invention belongs to the technical field of press fitting, and particularly relates to a rapid forming device for processing an insert radiator.

Background

The inserted sheet radiator, also called fin radiator or inserted fin radiator, is a kind of high-efficient heat-dissipating equipment, widely used in various occasions needing heat dissipation. The working principle is that the heat dissipation efficiency is improved by increasing the heat dissipation area, so that the effective cooling of equipment or a system is realized, and the inserting sheet radiator is assembled by adopting a press-fit tool or equipment in a plugging manner.

In the conventional press fitting, a fixture or a positioner is generally used to precisely align the heat dissipation fins with slot positions on the substrate, and then a proper force is used to press the heat dissipation fins into the slot holes of the substrate, but twenty heat dissipation fins are required to be inserted into one substrate, so that continuous reciprocating insertion is required, a great deal of time is required to be consumed, the production efficiency is low, and meanwhile, due to continuous reciprocating operation, excessive force is required in the process of inserting the heat dissipation fins by using the fixture or the positioner, the heat dissipation fins are damaged, and new heat dissipation fins are required to be replaced, so that the problem of increased production cost is generated.

Therefore, the invention provides a rapid forming device for processing an insert radiator.

Disclosure of Invention

In order to overcome the deficiencies of the prior art, at least one technical problem presented in the background art is solved.

The technical scheme adopted for solving the technical problems is as follows: the invention discloses rapid forming equipment for processing an inserting sheet radiator, which comprises a base, wherein the upper surface of the base is fixedly connected with a workbench, a radiating bottom plate is placed on the workbench, a plurality of third hydraulic cylinders are fixedly connected on the workbench, the output ends of every two third hydraulic cylinders are fixedly connected with the same second guide rail, the upper surface of each second guide rail is provided with a second guide groove, a guide rod is slidably arranged in each second guide groove, two guide rods are fixedly connected with the same sliding frame, the bottom end of each sliding frame is rotatably provided with a plurality of rotating plates, and a radiating plate is placed in each sliding frame;

the fixed frames are fixedly connected to two sides of the sliding frame, one side, far away from the sliding frame, of each fixed frame is fixedly connected with a second hydraulic cylinder, and the output end of each second hydraulic cylinder is provided with a plurality of inserting blocks in a sliding mode;

the top plate is fixedly connected above the base, a first hydraulic cylinder is fixedly connected on the upper surface of the top plate, and an inserting plate is fixedly connected at the output end of the first hydraulic cylinder.

Preferably, each side of the sliding frame is fixedly connected with a positioning rod, one end of each positioning rod is fixedly connected with a telescopic column, the telescopic column penetrates through the sliding frame, one end of the telescopic column, which is positioned inside the sliding frame, is fixedly connected with a limiting plate, a first pressure spring is sleeved on the circumferential surface of the telescopic column, and a limiting groove is formed in the inner wall of the sliding frame, corresponding to the position of each limiting plate.

Preferably, the output end of each second hydraulic cylinder is fixedly connected with a push plate, one side of each insert close to the push plate is fixedly connected with a sliding block, and the insert can slide along the groove body of the push plate through the sliding blocks.

Preferably, a cleaning plate is fixedly connected to one side of the sliding frame, a plurality of clamping grooves are formed in the cleaning plate, and cleaning blocks are clamped in the clamping grooves.

Preferably, the inner groove is formed in the inner wall of the clamping groove, two second pressure springs are fixedly connected to the inner wall of the inner groove, the two second pressure springs are fixedly connected with the same protruding block, and the cross section of the protruding block is trapezoid.

Preferably, the lower surface rigid coupling of roof has first guide rail, first guide way has been seted up to the lower surface of first guide rail, sliding connection has the drive pneumatic cylinder in the first guide way, the output of drive pneumatic cylinder slides and is provided with two pneumatic splint.

Preferably, a supporting seat is arranged on one side of the workbench, the supporting seat is fixedly connected to the upper surface of the base, a transfer belt is arranged on the upper surface of the supporting seat in a transmission mode, a guide plate is fixedly connected to one side of the workbench corresponding to the transfer belt, and the guide plate is in butt joint with the transfer belt.

Preferably, the upper surface rigid coupling of workstation has a plurality of electric control groove, every electric control inslot all slides and is provided with the slide bar, the upper surface rigid coupling of slide bar has the piece of supporting, the cross-section of supporting the piece is "T" shape, and two wherein support the piece and can with the deflector looks butt, the fixed slot has been seted up to the upper surface of workstation, the fixed slot diapire is provided with electrophoresis magnetic path, fixed slot diapire rigid coupling has a plurality of spring, a plurality of the one end rigid coupling that the fixed slot diapire was kept away from to the spring has same magnetic path, the upper surface rigid coupling of workstation has the fourth pneumatic cylinder, the output rigid coupling of fourth pneumatic cylinder has the push rod.

Preferably, a guide plate is fixedly connected to one side of the workbench, and a baffle is fixedly connected to one side of the guide plate away from the workbench.

Preferably, a rubber plate is fixedly connected to one side of the baffle close to the guide plate.

The beneficial effects of the invention are as follows:

1. According to the rapid forming equipment for processing the insert radiator, the second hydraulic cylinders on the fixing frames on the two sides of each sliding frame are started, the second hydraulic cylinders can drive the plurality of insert blocks which are arranged at the output end of each sliding frame in a sliding mode after being started, the insert blocks are closely attached to each other at the beginning and correspond to the positions where the radiating plates are placed, the tip ends of each insert block are aligned with gaps between every two insert blocks, then the second hydraulic cylinders push the insert blocks to be inserted into the gaps between every two radiating plates, the sliding frames can separate each radiating plate under the combined action of the insert blocks on the two sides, the distance between the cross section of each insert block and each slot hole of the radiating bottom plate is the same, therefore, each radiating plate can be separated to the position corresponding to each slot hole of the radiating bottom plate, and finally the first hydraulic cylinders on the upper surface of the top plate are started, so that the insert plates are driven to move downwards, the insert plates can extrude the radiating plates into the gaps corresponding to the positions of each slot hole, the rapid and convenient effects are achieved, production efficiency is simplified, and production efficiency is improved.

2. According to the rapid forming equipment for processing the insert radiator, the cleaning plate is fixedly connected to one side of the sliding frame, then the cleaning plate at one side of the sliding frame is driven to slide in the process that the sliding frame slides towards the radiating bottom plate along the second guide groove of the second guide rail through the guide rod, the cleaning blocks corresponding to the slotted holes of the radiating bottom plate are clamped on the lower surface of the cleaning plate, and then each cleaning block can clean the slotted holes of the radiating bottom plate, so that a better inserting effect is achieved.

3. According to the rapid forming equipment for processing the insert radiator, in the process that the radiating bottom plate slides downwards along the guide plate, two bottom blocks on the upper surface of the workbench are abutted against the guide plate at the moment, the radiating bottom plate is guided to slide to the upper surface of the workbench in an auxiliary mode, meanwhile, electrophoresis magnetic blocks in the fixing groove are powered off, then the magnetic blocks in the fixing groove are released, the radiating bottom plate slides between the two groups of abutting blocks and the magnetic blocks, then the electric control groove is started to enable each abutting block to move towards the radiating bottom plate, meanwhile, the fourth hydraulic cylinder is started to drive the push rod to move, so that the radiating bottom plate is pushed, and the effect of positioning and limiting the radiating bottom plate is achieved through cooperation of the push rod, the two groups of abutting blocks and the magnetic blocks.

Drawings

The invention is further described below with reference to the accompanying drawings.

FIG. 1 is a perspective view of a first embodiment of the present invention;

FIG. 2 is a schematic view of a portion of the structure of the body of the present invention;

FIG. 3 is a rear view of the body of the present invention;

FIG. 4 is a schematic view of the structure of the carriage of the present invention;

FIG. 5 is a schematic view of the structure of an insert block of the present invention;

FIG. 6 is a schematic view of the structure of the limiting plate of the present invention;

FIG. 7 is a schematic view of the structure of the fixing frame of the present invention;

FIG. 8 is a schematic view of the structure of a cleaning plate of the present invention;

FIG. 9 is a schematic view of the construction of a cleaning block of the present invention;

FIG. 10 is a schematic view of the disassembled structure of the cleaning plate of the present invention;

FIG. 11 is a schematic view of the structure of the first rail of the present invention;

FIG. 12 is a schematic view of the structure of the abutment of the present invention;

FIG. 13 is a schematic view of a magnetic block according to the present invention;

FIG. 14 is a bottom view of the carriage of the present invention;

In the figure: 1. a base;

2. A work table; 21. a baffle; 22. a rubber plate; 23. a guide plate;

3. a support base; 31. a transfer belt; 32. a guide plate;

4. a top plate; 41. a first hydraulic cylinder; 42. inserting plate; 43. a first guide rail; 44. a first guide groove; 45. driving a hydraulic cylinder; 46. pneumatic clamping plates;

5. A carriage; 51. a second hydraulic cylinder; 52. a fixed frame; 53. a push plate; 54. inserting blocks; 55. a positioning rod; 56. a guide rod; 57. a first compression spring; 58. a telescopic column; 59. a limiting plate; 510. a limit groove; 511. a cleaning plate; 512. a second guide groove; 513. a second guide rail; 514. a third hydraulic cylinder; 515. a slide block; 516. cleaning the block; 517. a clamping groove; 518. a bump; 519. an inner tank; 520. a second compression spring; 521. a fixing groove; 522. a magnetic block; 523. a spring; 524. a rotating plate;

6. Abutting blocks; 61. an electric control groove; 62. a slide bar; 63. a fourth hydraulic cylinder; 64. a push rod;

7. a heat dissipation base plate; 71. and a heat dissipation plate.

Detailed Description

The invention is further described in connection with the following detailed description in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.

Example 1

As shown in fig. 1 to 14, the rapid prototyping device for processing an insert radiator according to the embodiment of the invention comprises a base 1, wherein a workbench 2 is fixedly connected to the upper surface of the base 1, a radiating bottom plate 7 is placed on the workbench 2, a plurality of third hydraulic cylinders 514 are fixedly connected to the workbench 2, the output ends of every two third hydraulic cylinders 514 are fixedly connected with a same second guide rail 513, a second guide groove 512 is formed in the upper surface of each second guide rail 513, guide rods 56 are slidably arranged in each second guide groove 512, two guide rods 56 are fixedly connected with a same sliding frame 5, a plurality of rotating plates 524 are rotatably arranged at the bottom end of each sliding frame 5, and a radiating plate 71 is placed in each sliding frame 5; the fixed frames 52 are fixedly connected to the two sides of the sliding frame 5, one side, far away from the sliding frame 5, of each fixed frame 52 is fixedly connected with a second hydraulic cylinder 51, and the output end of each second hydraulic cylinder 51 is slidably provided with a plurality of inserting blocks 54; the top plate 4 is fixedly connected above the base 1, the upper surface of the top plate 4 is fixedly connected with the first hydraulic cylinder 41, and the output end of the first hydraulic cylinder 41 is fixedly connected with the plugboard 42.

Specifically, in the existing press fitting, a fixture or a positioner is generally used to precisely align the radiating fins with slot positions on the substrate, and then a proper force is used to press the radiating fins into the slot holes of the substrate, but one substrate needs to be inserted with twenty radiating fins, so that continuous reciprocating insertion is required, a great deal of time is required to be consumed, the production efficiency is low, meanwhile, due to continuous reciprocating operation, excessive force is likely to be applied in the process of inserting the radiating fins by using the fixture or the positioner, the radiating fins are damaged, and new radiating fins need to be replaced again, so that the problem of increased production cost is generated;

Therefore, the invention solves the problem of complicated installation process of the cooling plates 71 by arranging the corresponding structure, firstly, when the press-fitting equipment is used, the cooling bottom plate 7 is firstly placed under the position, right opposite to the sliding frame 5, of the workbench 2, then the cooling plates 71 needing press-fitting are stacked and then are placed on a plurality of rotating plates 524 in the sliding frame 5, the sliding frame 5 can just clamp all the cooling plates 71, after clamping the cooling plates 71, by starting the second hydraulic cylinders 51 on the fixed frames 52 on two sides of each sliding frame 5, after the second hydraulic cylinders 51 are started, a plurality of inserting blocks 54 which are arranged at the output ends of the second hydraulic cylinders 51 in a sliding manner can be driven, the tips of the inserting blocks 54 are closely attached at first and correspond to the placing positions of the cooling plates 71, the tips of the inserting blocks 54 are aligned with gaps between every two inserting blocks 54, then the second hydraulic cylinders 51 push the inserting blocks 54 into the gaps of every two cooling plates 71, under the combined action of the inserting blocks 54 at the two sides, the sliding frame 5 can separate each heat dissipation plate 71, the cross section of each inserting block 54 is the same as the distance between each slot hole of the heat dissipation bottom plate 7, so that each heat dissipation plate 71 can be separated to the position corresponding to each slot hole of the heat dissipation bottom plate 7, finally, the first hydraulic cylinder 41 on the upper surface of the top plate 4 is restarted, so as to drive the inserting plate 42 to move downwards, the inserting plate 42 can squeeze the heat dissipation plate 71 into the slot hole corresponding to the position of each slot hole, because the bottom of the heat dissipation frame is composed of a plurality of rotating plates 524, the rotating directions of each two rotating plates 524 correspond to the slot holes of the heat dissipation bottom plate 7, automatic reset can be carried out, each heat dissipation plate 71 can be completely inserted into the heat dissipation bottom plate 7, then the inserting plate 42 is driven to reset through the first hydraulic cylinder 41, and then a plurality of third hydraulic cylinders 514 are started at the same time to drive the second guide rail 513 to lift, so that the sliding frame 5 is driven to lift, the sliding frame 5 can be separated from the heat dissipation plate 71, and the produced inserted sheet radiator can be taken out, thereby achieving the effects of rapidness and convenience, simplifying the production flow and improving the production efficiency;

The problems of complicated installation process and low production efficiency of the heat dissipation plate 71 are solved.

As shown in fig. 6, each side of the sliding frame 5 of the present embodiment is fixedly connected with a positioning rod 55, one end of each positioning rod 55 is fixedly connected with a telescopic column 58, the telescopic column 58 penetrates through the sliding frame 5, one end of the telescopic column 58 located inside the sliding frame 5 is fixedly connected with a limiting plate 59, a first pressure spring 57 is sleeved on the circumferential surface of the telescopic column 58, and a limiting groove 510 is formed in the inner wall of the sliding frame 5 corresponding to the position of each limiting plate 59.

Specifically, when the stacked heat dissipation plates 71 are placed in the sliding frame 5, the heat dissipation plates 71 are limited by the limiting plates 59 by elastically arranging the limiting plates 59 on two sides of the sliding frame 5, then when the insert block 54 is inserted into the gap between every two heat dissipation plates 71, when the heat dissipation plates 71 are separated, each heat dissipation plate 71 is gradually separated due to the conical section of the insert block 54, so that the heat dissipation plates 71 which are separated correspond to the slots of each heat dissipation bottom plate 7, the separated heat dissipation plates 71 and the insert block 54 simultaneously press the limiting plates 59 on two sides, then the limiting plates 59 press the first pressure springs 57, and finally each limiting plate 59 is abutted into the limiting grooves 510 formed in the sliding frame 5, so that the limiting plates 59 are embedded into the limiting grooves 510, and the insert plate 42 is not influenced to press the insert block 54, thereby achieving a better press-fit effect.

As shown in fig. 7, in this embodiment, the output end of each second hydraulic cylinder 51 is fixedly connected with a push plate 53, one side of each insert block 54 close to the push plate 53 is fixedly connected with a slide block 515, and the insert blocks 54 can slide along the groove body of the push plate 53 through the slide blocks 515.

Specifically, when the insert blocks 54 are used, the push plates 53 are fixedly connected to the output end of the second hydraulic cylinder 51, then the slide blocks 515 are fixedly connected to the positions of each insert block 54 corresponding to the groove bodies of the push plates 53, and then when the insert blocks 54 are gradually inserted into the gaps of every two heat dissipation plates 71, the insert blocks 54 are extruded by the heat dissipation plates 71 to drive the slide blocks 515 to passively slide, so that each insert block 54 drives the heat dissipation plate 71 to slide to a designated position, and then the insert is inserted.

As shown in fig. 6, a cleaning plate 511 is fixedly connected to one side of the sliding frame 5 in this embodiment, a plurality of clamping grooves 517 are formed in the cleaning plate 511, and a cleaning block 516 is clamped in each clamping groove 517.

Specifically, through having cleaning plate 511 at one side rigid coupling of carriage 5, then when carriage 5 carries out the in-process of sliding to radiating bottom plate 7 along second guide way 512 of second guide rail 513 through guide bar 56, can drive carriage 5 one side cleaning plate 511 and slide, cleaning plate 511 lower surface joint has a plurality of cleaning block 516 that corresponds with radiating bottom plate 7 slotted hole, then every cleaning block 516 can clear up radiating bottom plate 7 slotted hole, has reached better grafting effect.

As shown in fig. 10, an inner groove 519 is formed in the inner wall of the clamping groove 517 in this embodiment, two second compression springs 520 are fixedly connected to the inner wall of the inner groove 519, the two second compression springs 520 are fixedly connected to the same bump 518, and the cross section of the bump 518 is trapezoidal.

Specifically, the cleaning effect of the cleaning block 516 is gradually weakened under long-time use, at this time, the cleaning block 516 needs to be replaced, the old cleaning block 516 is taken down and then put into the new cleaning block 516, the new cleaning block 516 can squeeze the bump 518 of the inner groove 519 when put into the cleaning block 516, and the bump 518 can squeeze the second pressure spring 520, so that the cleaning block 516 is clamped into the clamping groove 517, and the effect of convenient disassembly is achieved.

As shown in fig. 11, a first guide rail 43 is fixedly connected to the lower surface of the top plate 4 in this embodiment, a first guide groove 44 is provided on the lower surface of the first guide rail 43, a driving hydraulic cylinder is slidably connected in the first guide groove 44, and two pneumatic clamping plates 46 are slidably provided at the output end of the driving hydraulic cylinder.

Specifically, before press mounting, the first guide rail 43 on the lower surface of the top plate 4 is started, so that the driving hydraulic cylinder can move along the first guide rail 43, then the driving hydraulic cylinder is started to drive the two pneumatic substrates at the output end of the driving hydraulic cylinder to clamp the stacked new cooling plates 71, at this time, the sliding frame 5 can move to the position right below the driving hydraulic cylinder along the second guide groove 512 of the second guide rail 513 through the guide rod 56, and then the driving hydraulic cylinder drives the cooling plates 71 clamped at the output end of the driving hydraulic cylinder to move downwards, so that the cooling plates 71 are inserted between the two limiting plates 59 of the sliding frame 5, the effect of automatically feeding is achieved, and the efficiency is higher.

Example two

As shown in fig. 2 to 14, a comparative example one, in which another embodiment of the present invention is: one side of the workbench 2 is provided with a supporting seat 3, the supporting seat 3 is fixedly connected to the upper surface of the base 1, a transfer belt 31 is arranged on the upper surface of the supporting seat 3 in a transmission manner, one side of the workbench 2 corresponding to the transfer belt 31 is fixedly connected with a guide plate 32, and the guide plate 32 is abutted with the transfer belt 31.

Specifically, through being provided with the conveyer belt 31 at the upper surface of supporting seat 3, then when using this equipment, transport the deflector 32 department with heat dissipation bottom plate 7 through the conveyer of conveyer belt 31, then heat dissipation bottom plate 7 can slide along the bottom plate and carry out the correction on heat dissipation bottom plate 7, make it can correspond with carriage 5, make things convenient for the pressure equipment.

As shown in fig. 1,3 and 12, the upper surface of the workbench 2 of the embodiment is fixedly connected with a plurality of electric control grooves 61, a sliding rod 62 is slidably arranged in each electric control groove 61, the upper surface of the sliding rod 62 is fixedly connected with a supporting block 6, the section of the supporting block 6 is in a T shape, two supporting blocks 6 can be abutted against the guide plate 32, the upper surface of the workbench 2 is provided with a fixing groove 521, the bottom wall of the fixing groove 521 is provided with an electrophoresis magnetic block 522, the bottom wall of the fixing groove 521 is fixedly connected with a plurality of springs 523, one end of each spring 523 far away from the bottom wall of the fixing groove 521 is fixedly connected with the same magnetic block 522, the upper surface of the workbench 2 is fixedly connected with a fourth hydraulic cylinder 63, and the output end of the fourth hydraulic cylinder 63 is fixedly connected with a push rod 64.

Specifically, in the process that the heat dissipation bottom plate 7 slides down along the guide plate 32, two bottom blocks on the upper surface of the workbench 2 are also abutted against the guide plate 32 at the moment, the heat dissipation bottom plate 7 can be assisted to be guided to slide to the upper surface of the workbench 2, meanwhile, the electrophoresis magnet 522 in the fixing groove 521 is powered off, then the magnet 522 in the fixing groove 521 is released, the heat dissipation bottom plate 7 slides between the two groups of the abutting blocks 6 and the magnet 522, then the electric control groove 61 is started to enable each abutting block 6 to move towards the heat dissipation bottom plate 7, and meanwhile, the fourth hydraulic cylinder 63 is started to drive the push rod 64 to move, so that the heat dissipation bottom plate 7 is pushed, and the heat dissipation bottom plate 7 is positioned and limited through the cooperation of the push rod 64, the two groups of abutting blocks 6 and the magnet 522.

As shown in fig. 1 to 3, a guide plate 23 is fixedly connected to one side of the workbench 2 in the embodiment, and a baffle 21 is fixedly connected to one side of the guide plate 23 away from the workbench 2.

Specifically, after the insert radiator is pressed, after the electrophoresis magnet 522 in the fixed slot 521 is electrified, the magnet 522 is retracted into the fixed slot 521, and at the moment, the fourth hydraulic cylinder 63 is started again to drive the push rod 64, so that the insert radiator is pushed onto the guide plate 23, then slides onto the guide plate 23 and is blocked by the baffle 21, a finished product of the insert radiator can be obtained, and the production speed is improved.

As shown in fig. 3, a rubber plate 22 is fixedly connected to one side of the baffle plate 21 close to the guide plate 23

Specifically, the rubber plate 22 is fixedly connected to one side, close to the guide plate 23, of the baffle 21, so that the impact force of the downward sliding of the insert radiator is relieved, and the effect of protecting the finished insert radiator is achieved.

The working principle is that when the press-fit equipment is used, firstly, the transfer belt 31 is arranged on the upper surface of the supporting seat 3, then when the equipment is used, the heat dissipation bottom plate 7 is transferred to the guide plate 32 by the transfer of the transfer belt 31, then the heat dissipation bottom plate 7 slides onto the heat dissipation bottom plate 7 along the bottom plate, then the magnetic blocks 522 in the fixing grooves 521 are released, the heat dissipation bottom plate 7 slides between the two groups of the abutting blocks 6 and the magnetic blocks 522, then the electric control grooves 61 are started to enable each abutting block 6 to move towards the heat dissipation bottom plate 7, and meanwhile, the fourth hydraulic cylinder 63 is started to drive the push rod 64 to move, so that the heat dissipation bottom plate 7 is pushed, and the heat dissipation bottom plate 7 is positioned and limited by the cooperation of the push rod 64, the two groups of abutting blocks 6 and the magnetic blocks 522;

Then, the stacked heat dissipation plates 71 are placed in the sliding frame 5, through the elastic arrangement of the limiting plates 59 on the two sides of the sliding frame 5, the heat dissipation plates 71 are limited by the limiting plates 59, then when the insert block 54 is inserted into the gap between every two heat dissipation plates 71, and the heat dissipation plates 71 are separated, each heat dissipation plate 71 is gradually separated due to the conical section of the insert block 54, so that the heat dissipation plates correspond to the slotted holes of each heat dissipation bottom plate 7, the separated heat dissipation plates 71 and the insert block 54 simultaneously press the limiting plates 59 on the two sides, then the limiting plates 59 press the first pressure springs 57, and finally each limiting plate 59 is abutted into the limiting grooves 510 formed in the sliding frame 5, so that the limiting plates 59 are embedded into the limiting grooves 510, and the insert plate 42 is not influenced to press the insert block 54, and a better press-fit effect is achieved;

After the heat dissipation plates 71 are clamped, by starting the second hydraulic cylinders 51 on the fixing frames 52 on both sides of each sliding frame 5, after the second hydraulic cylinders 51 are started, a plurality of inserting blocks 54 which are arranged at the output ends of the sliding frames can be driven to slide, the inserting blocks 54 are closely attached at the beginning and correspond to the positions where the heat dissipation plates 71 are placed, the tip of each inserting block 54 is aligned with a gap between every two inserting blocks 54, then the second hydraulic cylinders 51 push the inserting blocks 54 to be inserted into the gaps between every two heat dissipation plates 71, each heat dissipation plate 71 can be separated by the sliding frame 5 under the combined action of the inserting blocks 54 on both sides, the distance between the cross section of each inserting block 54 and each slot of the heat dissipation bottom plate 7 is the same, therefore, each heat dissipation plate 71 can be separated to the position corresponding to each slot of the heat dissipation bottom plate 7, finally, the first hydraulic cylinder 41 on the upper surface of the top plate 4 is restarted, so that the plugboard 42 is driven to move downwards, the plugboard 42 can squeeze the heat dissipation plate 71 into the slot corresponding to the position of each slot, because the bottom of the heat dissipation frame is composed of a plurality of rotating plates 524, the rotating directions of each two rotating plates 524 correspond to the slot of the heat dissipation bottom plate 7, automatic resetting can be carried out, each heat dissipation plate 71 can be inserted into the heat dissipation bottom plate 7 in an intact manner, then the plugboard 42 is driven to reset through the first hydraulic cylinder 41, and then a plurality of third hydraulic cylinders 514 are simultaneously started to drive the second guide rail 513 to lift, so that the sliding frame 5 is driven to lift, and the sliding frame 5 can be separated from the heat dissipation plate 71;

Finally, after the electrophoresis magnet 522 in the fixed slot 521 is electrified, the magnet 522 is retracted into the fixed slot 521, and at the moment, the fourth hydraulic cylinder 63 is started again to drive the push rod 64, so that the insert radiator is pushed onto the guide plate 23, then slides onto the guide plate 23 and is blocked by the baffle 21, a finished product of the insert radiator can be obtained, and the production efficiency is improved.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. A insert radiator processing rapid prototyping equipment which characterized in that: the cooling device comprises a base (1), wherein a workbench (2) is fixedly connected to the upper surface of the base (1), a cooling bottom plate (7) is placed on the workbench (2), a plurality of third hydraulic cylinders (514) are fixedly connected to the workbench (2), the output ends of every two third hydraulic cylinders (514) are fixedly connected with the same second guide rail (513), a second guide groove (512) is formed in the upper surface of each second guide rail (513), 1 guide rod (56) is slidably arranged in each second guide groove (512), two guide rods (56) are fixedly connected with the same sliding frame (5), a plurality of rotating plates (524) are rotatably arranged at the bottom ends of the sliding frames (5), and cooling plates (71) are placed in the sliding frames (5);

the fixed frames (52) are fixedly connected to the two sides of the sliding frame (5), one side, far away from the sliding frame (5), of each fixed frame (52) is fixedly connected with a second hydraulic cylinder (51), and the output end of each second hydraulic cylinder (51) is provided with a plurality of inserting blocks (54) in a sliding mode;

The top plate (4) is fixedly connected above the base (1), a first hydraulic cylinder (41) is fixedly connected on the upper surface of the top plate (4), and a plugboard (42) is fixedly connected at the output end of the first hydraulic cylinder (41);

Positioning rods (55) are fixedly connected to the other two sides of the sliding frame (5), one end of each positioning rod (55) is fixedly connected with a telescopic column (58), the telescopic columns (58) penetrate through the sliding frame (5), one end of each telescopic column (58) located inside the sliding frame (5) is fixedly connected with a limiting plate (59), a first pressure spring (57) is sleeved on the circumferential surface of each telescopic column (58), and limiting grooves (510) are formed in positions, corresponding to the corresponding limiting plates (59), of the inner wall of the sliding frame (5);

The lower surface of the top plate (4) is fixedly connected with a first guide rail (43), a first guide groove (44) is formed in the lower surface of the first guide rail (43), a driving hydraulic cylinder (45) is connected in a sliding manner in the first guide groove (44), and two pneumatic clamping plates (46) are arranged at the output end of the driving hydraulic cylinder (45) in a sliding manner;

A supporting seat (3) is arranged on one side of the workbench (2), the supporting seat (3) is fixedly connected to the upper surface of the base (1), a transfer belt (31) is arranged on the upper surface of the supporting seat (3) in a transmission manner, a guide plate (32) is fixedly connected to one side of the workbench (2) corresponding to the transfer belt (31), and the guide plate (32) is abutted to the transfer belt (31);

The utility model discloses a high-speed electric control device for the working table, including workstation (2), fixed slot (521) have been seted up to the upper surface of workstation (2), fixed slot (521) diapire is provided with electrophoresis magnetic path (522), every all slide in the electric control slot (61) and be provided with slide bar (62), the upper surface rigid coupling of slide bar (62) has support piece (6), the cross-section of support piece (6) is "T" shape, and wherein two support piece (6) can with deflector (32) looks butt, fixed slot (521) have been seted up to the upper surface of workstation (2), fixed slot (521) diapire is provided with electrophoresis magnetic path (522), fixed slot (521) diapire rigid coupling has a plurality of spring (523), a plurality of one end rigid coupling that fixed slot (521) diapire was kept away from to spring (523) has same electrophoresis magnetic path (522), the upper surface rigid coupling of workstation (2) has fourth pneumatic cylinder (63), the output rigid coupling of fourth pneumatic cylinder (63) has push rod (64).

2. The insert radiator processing rapid prototyping apparatus of claim 1 wherein: the output end of each second hydraulic cylinder (51) is fixedly connected with a push plate (53), one side, close to the push plate (53), of each insert block (54) is fixedly connected with a sliding block (515), and the insert blocks (54) can slide along the groove bodies of the push plates (53) through the sliding blocks (515).

3. The insert radiator processing rapid prototyping apparatus of claim 1 wherein: one side rigid coupling of carriage (5) has clearance board (511), a plurality of draw-in groove (517) have been seted up to the inside of clearance board (511), every all joint has clearance piece (516) in draw-in groove (517).

4. A tab heat sink processing rapid prototyping apparatus as in claim 3 wherein: an inner groove (519) is formed in the inner wall of the clamping groove (517), two second pressure springs (520) are fixedly connected to the inner wall of the inner groove (519), one lug (518) is fixedly connected to the two second pressure springs (520), and the section of each lug (518) is trapezoid.

5. The insert radiator processing rapid prototyping apparatus of claim 1 wherein: one side of the workbench (2) is fixedly connected with a guide plate (23), and one side of the guide plate (23) away from the workbench (2) is fixedly connected with a baffle (21).

6. The insert radiator processing rapid prototyping apparatus of claim 5 wherein: a rubber plate (22) is fixedly connected to one side of the baffle (21) close to the guide plate (23).