CN116984588B - Die casting cooling equipment for automobile parts - Google Patents

Abstract

The invention relates to the technical field of automobile part manufacturing, and discloses die casting cooling equipment for automobile parts, which comprises two support plates, wherein linear motors are symmetrically arranged on one sides, close to each other, of the two support plates, cooling assemblies are arranged above the two support plates, the number of the cooling assemblies is two, a processed die casting is placed between the two support plates, a limiting piece is pulled by the pulling force of a tension spring to push a sliding rod to form reverse thrust, so that the die casting is clamped by the driving clamp plate, a bracket arm is used for dragging the bottom of the die casting, the anti-slip piece is propped against the two sides of the die casting to perform anti-slip fixing, a rotor end of each linear motor drives a rotor block to perform transverse displacement, a cooling fan is started to generate wind power from the upper side and the lower side, and air cooling operation is performed on the upper side and the lower side of the die casting simultaneously, so that the cooling effect of the die casting is more uniform and thorough, and the cooling quality of the die casting is improved.

Description

Die casting cooling equipment for automobile parts

Technical Field

The invention relates to the technical field of automobile part manufacturing, in particular to die casting cooling equipment for automobile parts.

Background

In the process of manufacturing automobile parts, a die casting process is generally adopted to produce the automobile parts such as a gearbox shell in a large scale. The temperature of the die casting when the die casting just leaves the die is between 250 ℃ and 350 ℃, and the natural cooling speed of the die casting is low, so that the die casting is usually forced to be cooled by a factory, the cooling speed is improved, and the production efficiency is further improved.

Conventional die casting cooling is typically forced cooling by fans in-line. I.e. the workpiece is transported from one end of the table to the other by means of a conveyor belt. In the process, the workbench utilizes the fan at the top of the workbench to accelerate the speed of air flowing through the surface of the workpiece in unit time so as to cool the workpiece.

According to the related art described above, since the bottom surface of the workpiece and the surface of the conveyor belt are in contact with each other, the air flow-through property of the bottom surface of the workpiece is reduced, and the cooling area of the bottom surface of the workpiece is reduced, the cooling is not uniform, the temperature difference between the upper surface and the lower surface of the workpiece is large, and the cooling quality of the workpiece is affected. A die casting cooling device for automotive parts has been proposed to solve the above-mentioned problems.

Disclosure of Invention

(one) solving the technical problems

Aiming at the defects of the prior art, the invention provides die casting cooling equipment for automobile parts, which solves the problems that the air flow at the bottom of a workpiece is reduced, the cooling is uneven and the cooling quality of the workpiece is affected due to the fact that the bottom of the workpiece is contacted with the surface of a conveyor belt.

(II) technical scheme

In order to achieve the above purpose, the present invention provides the following technical solutions: a die casting cooling device for automobile parts, includes two extension boards, two the linear electric motor is installed to one side symmetry that the extension board is close to each other to be provided with cooling module, cooling module installs the top position between two extension boards, cooling module's quantity has two, and another symmetry installs the below position between two extension boards, install conveying assembly on the linear electric motor, install clamping assembly on the conveying assembly, and clamping assembly includes two slide bars, two install splint on the one end of slide bar, be connected with the antiskid sheet on the one side that the slide bar was kept away from to the splint, the bottom of splint is connected with the trailing arm, one side of splint is connected with the one end of arc arm, the opposite side of splint is connected with the material loading arm, two the slide bar is kept away from and all is connected with spacing piece on the one end of splint.

Preferably, the conveying assembly comprises a rotor block, the rotor block is arranged at the rotor end of the linear motor, two first screw grooves are formed in one side, far away from the linear motor, of the rotor block, an assembling plate is arranged, four screw holes are formed in the assembling plate, the inner walls of the screw holes are connected with first bolts in a threaded mode, the first bolts are connected with the inner walls of the first screw grooves in a threaded mode at the same time, the second bolts are connected with second bolts in a threaded mode, a cross beam is arranged on the assembling plate, two second screw grooves are formed in the middle of one side of the cross beam, the second bolts are connected with the inner walls of the two second screw grooves in a threaded mode, sliding holes are formed in the first ends of the cross beam, and the outer walls of one ends, close to the clamping plates, of the two sliding rods are connected with the inner walls of the first sliding holes in a sliding mode respectively.

Preferably, be provided with spacing subassembly on the extension board, and spacing subassembly includes spacing hole, the lateral wall at the extension board is seted up to spacing hole, the spacing groove has been seted up at the inner wall top in spacing hole, sliding connection has two sliders in proper order to the inner wall in spacing hole, two sliding hole two have all been seted up on the slider, two the top of slider all is connected with the stopper to through stopper sliding connection at spacing inslot wall, two the one end outer wall that the slide bar is close to spacing piece is sliding connection respectively at two sliding hole two inner walls, two the slider is close to one side of spacing piece all is connected with the extension spring, two the one end that the slider was kept away from to the extension spring is connected respectively on adjacent spacing piece.

Preferably, the number of the conveying components, the clamping components and the limiting components is two, the other conveying component is symmetrically arranged on the other linear motor, the other clamping component is symmetrically arranged on the other conveying component, and the other limiting component is symmetrically arranged on the other supporting plate and is arranged on the other clamping component.

Preferably, the cooling module comprises a top plate, the top plate is connected between two support plates, four wind holes are formed in the top plate, fan frames are all installed on the inner walls of the wind holes, cooling fans are all installed on the fan frames, dust screens are all connected to the inner walls of one sides, far away from the fan frames, of the wind holes, and two wind guiding plates are symmetrically installed on one sides, close to the conveying module, of the top plate.

Preferably, two conveyer belt device bases are all installed on the extension board, one the lateral wall of conveyer belt device base on the extension board has set gradually two frames, two all be connected with the mounting plate on the frame, two the mounting hole has all been seted up on the mounting plate, the mounting groove that corresponds with the mounting hole has still been seted up to the lateral wall of conveyer belt device base, every equal threaded connection of mounting hole and its corresponding mounting groove inner wall has the screw.

Preferably, the two frames are provided with driving motors, each frame is provided with a motor adapting hole, and the bottom of each driving motor is provided with a mounting screw corresponding to the motor adapting hole.

Preferably, two belt rollers are rotatably connected between the two belt device bases through bearings, one ends of the two belt rollers movably penetrate through the adjacent support plates, the output shaft of each driving motor is fixedly connected with the penetrating end of the adjacent belt roller, and a conveying belt is connected between the two belt rollers in a transmission mode.

Preferably, the bent rods are symmetrically arranged at the tops of the two conveyor belt device bases, annular grooves are formed in one ends, far away from the conveyor belt device bases, of each bent rod, rolling sleeves are movably sleeved on the inner walls of the annular grooves, and guide plates are arranged on one sides, close to the support plates, of the tops of the conveyor belt device bases.

(III) beneficial effects

Compared with the prior art, the invention provides die casting cooling equipment for automobile parts, which has the following beneficial effects:

1. this a die casting cooling equipment for automobile parts places the die casting after processing between two splint, the pulling force pulling limiting piece of extension spring promotes its promotion slide bar to form reverse thrust to drive splint clamp die casting, the bracket is used for pulling the bottom of die casting, antiskid sheet supports and carries out the fixed effect of antiskid in the die casting both sides, linear electric motor rotor end drives the rotor piece and carries out lateral displacement, cooling fan starts and produces wind-force from upper and lower both sides, carries out the forced air cooling operation simultaneously to the upper and lower face of die casting, makes the cooling effect of die casting more even thoroughly, thereby improves the cooling quality of die casting.

2. This a die casting cooling equipment for automobile parts, the slider receives the kinetic energy that the slide bar displacement produced and can follow the removal to spacing in the spacing inslot through the stopper, make the slider stabilize at spacing downthehole wall lateral displacement, guarantee the straightness nature of removal, avoid dislocation skew's problem, the slide bar slides along slide hole one and slide hole two inner walls, can adjust the interval between two splint, thereby matches not unidimensional die casting.

3. This a die casting cooling device for automobile parts, linear electric motor is close to conveyer belt device and removes the limit distance back, the roller on the curved boom is contacted to the priority of arc arm on two splint, it is rotatory along the annular inner wall to extrude the roller through laminating, thereby the reaction force extrusion arc arm, and pull the extension spring through the slide bar, thereby let two splint keep away from each other gradually, remove the clamping force to the die casting, let the die casting drop naturally on the guide board, and slide to the conveyer belt along the inclined plane orbit of guide board, directly carry the die casting after the cooling to subsequent handling through the conveyer belt, the process degree of engagement is high, greatly reduced the operating pressure of manpower.

Drawings

FIG. 1 is a schematic diagram of a die casting cooling apparatus for automotive parts according to the present invention;

FIG. 2 is a cross-sectional view of a die cast cooling apparatus for automotive parts according to the present invention;

FIG. 3 is a schematic view of the structure of the conveying assembly and clamping assembly and spacing assembly of the die casting cooling apparatus for automotive parts according to the present invention;

FIG. 4 is a disassembled view of a die cast cooling apparatus delivery assembly for automotive parts in accordance with the present invention;

FIG. 5 is a schematic view of the structure of the support plate and the limiting holes of the die casting cooling device for the automobile parts;

FIG. 6 is a schematic diagram of a die casting cooling apparatus rack for automotive parts according to the present invention;

fig. 7 is a disassembled view of a bent rod of a die casting cooling device for automobile parts according to the present invention.

In the figure: 1. a support plate; 2. a linear motor; 3. a transport assembly; 301. a mover block; 302. a first spiral groove; 303. assembling plates; 304. a screw hole; 305. a first bolt; 306. a second bolt; 307. a cross beam; 308. a second spiral groove; 309. a sliding hole I; 4. a clamping assembly; 401. a slide bar; 402. a clamping plate; 403. a non-slip sheet; 404. a bracket arm; 405. an arc arm; 406. a limiting piece; 5. a limit component; 501. a limiting hole; 502. a limit groove; 503. a slide block; 504. a sliding hole II; 505. a limiting block; 506. a tension spring; 6. a cooling assembly; 601. a top plate; 602. a wind hole; 603. a fan frame; 604. a cooling fan; 605. a dust screen; 606. an air guiding plate; 7. a conveyor belt assembly base; 8. a frame; 9. a mounting piece; 10. a motor adapting hole; 11. a driving motor; 12. a belt roller; 13. a conveyor belt; 14. bending a rod; 15. a ring groove; 16. a rolling sleeve; 17. and a guide plate.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-7, the present invention provides a technical solution: a die casting cooling device for automobile parts comprises two support plates 1, wherein one side of the two support plates 1, which is close to each other, is symmetrically provided with a linear motor 2 and is provided with cooling components 6, the cooling components 6 are arranged at the upper position between the two support plates 1, the number of the cooling components 6 is two, the other side of the cooling components is symmetrically arranged at the lower position between the two support plates 1, the two cooling components 6 generate wind power from the upper side and the lower side, the upper side and the lower side of the die casting are simultaneously subjected to air cooling operation, so that the cooling effect of the die casting is more uniform and thorough, a conveying component 3 is arranged on the linear motor 2, a clamping component 4 is arranged on the conveying component 3, the clamping component 4 comprises two slide bars 401, one ends of the two slide bars 401 are provided with clamping plates 402, the clamping plates 402 clamp the die casting, one side, which is far away from the clamping plates 402, are connected with anti-slip sheets 403, the anti-slip sheets 403 are abutted against the two sides of the die casting to perform the anti-slip fixing function, the bottom of the clamping plates 402 is connected with a bracket arm 404, the bracket arm 404 is used for dragging the bottom of the die casting, the die casting is prevented from falling off from the two clamping plates 402, one side of the clamping plates 402 is connected with one end of an arc arm 405, the other side of the clamping plates 402 is connected with a feeding arm, one side of the die casting is pushed into between the two feeding arms, the two clamping plates 402 can be smoothly spread along the arc surface of the feeding arm, the die casting is clamped between the two clamping plates 402, two sliding rods 401 are connected with limiting plates 406 at one ends far away from the clamping plates 402, the conveying component 3 comprises a rotor block 301, the rotor block 301 is arranged on the rotor end of the linear motor 2, one side of the rotor block 301 far away from the linear motor 2 is provided with two screw grooves one 302 and is provided with a assembling plate 303, the inner walls of the two screw holes 304 are all in threaded connection with bolts one 305, the two first bolts 305 are also connected with the inner walls of the two first screw grooves 302 in a threaded manner, the inner walls of the other two screw holes 304 are connected with the second bolts 306 in a threaded manner, a cross beam 307 is arranged on the assembly plate 303, the two second screw grooves 308 are arranged in the middle of one side of the cross beam 307, the two second bolts 306 are also connected with the inner walls of the two second screw grooves 308 in a threaded manner, the first slide holes 309 are arranged at the two ends of the cross beam 307, the outer walls of one ends of the two slide bars 401, which are close to the clamping plates 402, are respectively connected with the inner walls of the two first slide holes 309 in a sliding manner, the screw grooves, the screw holes 304 and the bolts in the conveying assembly 3 are modularized, the assembly is convenient to install and detach, the maintenance and the replacement are convenient, the cooling assembly 6 comprises a top plate 601, the roof 601 is connected between two extension boards 1, four wind holes 602 have been seted up on the roof 601, fan frame 603 is all installed to the inner wall of every wind hole 602, fan frame 603 is used for fixed cooling fan 604, and install in wind hole 602 steadily, all install cooling fan 604 on every fan frame 603, one side inner wall that every wind hole 602 kept away from fan frame 603 all is connected with dust screen 605, wind runs through dust screen 605 can reduce impurity and dust in the wind, guarantee the cleanliness of wind, two induced air boards 606 are installed to the side symmetry that roof 601 is close to conveying assembly 3, induced air board 606 guide wind flow path, carry out the air-out to the place of die casting all the time, guarantee that wind-force stays on the die casting as far as possible.

In this embodiment, be provided with spacing subassembly 5 on the extension board 1, and spacing subassembly 5 includes spacing hole 501, spacing hole 501 has been seted up at the lateral wall of extension board 1, spacing groove 502 has been seted up at the inner wall top of spacing hole 501, the inner wall of spacing hole 501 has two sliders 503 in proper order sliding connection, slide hole two 504 have all been seted up on two sliders 503, the top of two sliders 503 all is connected with stopper 505, and through stopper 505 sliding connection at spacing groove 502 inner wall, the slider 503 receives the kinetic energy that slide bar 401 displacement produced and can follow the removal, and limit in spacing groove 502 through stopper 505, make slider 503 stabilize at spacing hole 501 inner wall lateral displacement, two slide bar 401 are close to spacing piece 406's one end outer wall and are connected at two slide hole two 504 inner walls respectively, two slider 503 are close to spacing piece 406 one side all be connected with extension spring 506, two extension springs 506 keep away from slider 503's one end and are connected respectively on adjacent spacing piece 406, extension spring 506's pulling spacing piece 406, it promotes 401 to form reverse thrust, thereby to drive 402 clamp die casting, conveying subassembly 3, clamping subassembly 4, the quantity that is equipped with spacing subassembly 5, the other symmetrical two clamping assembly is installed on another clamping assembly 2 on another clamping assembly 4, another clamping assembly is installed on another straight line symmetry 4, another clamping assembly is installed on another clamping assembly 1, another clamping assembly is installed on another clamping assembly is another 1.

It is worth noting that the conveyer belt device base 7 is installed on two extension boards 1, two racks 8 are arranged on the side wall of the conveyer belt device base 7 on one extension board 1 in sequence, mounting plates 9 are connected to the bottoms of the two racks 8, mounting holes are formed in the two mounting plates 9, mounting grooves corresponding to the mounting holes are formed in the side wall of the conveyer belt device base 7, screws are connected to the inner wall of each mounting hole and the corresponding mounting groove in a threaded manner, the racks 8 can be installed and detached through the connection mode of the mounting plates 9, the mounting holes and the mounting grooves and the screws, driving motors 11 are arranged on the two racks 8, the racks 8 stably pull the driving motors 11, motor adapting holes 10 are formed in each rack 8, mounting screws corresponding to the motor adapting holes 10 are arranged at the bottoms of the driving motors 11, the mounting screws on the driving motors 11 can be inserted into the corresponding motor adapting holes 10 and can be fastened by means of nut sleeves, two rollers 12 are connected between the two conveyer belt device bases 7 through bearings in a rotating manner, one end of each of the two conveyer belt rollers 12 is connected with one end of each conveyer belt roller 12 through the corresponding to the adjacent conveyer belt device 13, the two end shafts of the two conveyer belt rollers 12 are connected with the corresponding conveyer belt devices 13, and the two end shafts 13 of the adjacent conveyer belt devices are connected with the corresponding conveyer belt devices 13, and the two end shafts of the conveyer belt devices 13 are connected through the driving shafts 13.

It should be noted that, the bent rods 14 are symmetrically installed at the top of the two conveyor bases 7, the annular grooves 15 are formed in one end, away from the conveyor bases 7, of each bent rod 14, the roller sleeves 16 are movably sleeved on the inner wall of each annular groove 15, when the linear motor 2 is driven to be close to the upper side of the conveyor, the arc arms 405 are preferentially contacted with the roller sleeves 16 on the bent rods 14, the arc arms 405 are extruded by attaching and extruding the roller sleeves 16 to rotate along the inner walls of the annular grooves 15, so that the arc arms 405 are extruded by reacting force, the guide plates 17 are installed on one side, close to the support plates 1, of the tops of the two conveyor bases 7, die castings naturally drop onto the guide plates 17, and slide onto the conveyor 13 along the inclined plane track of the guide plates 17.

The working principle is that the structure between the two support plates 1 is used for cooling the die casting of the automobile parts, the two conveyor belt device bases 7, the driving motor 11, the belt roller 12 and the conveyor belt 13 form a complete conveyor belt device, the conveyor belt device belongs to one of the common devices in the prior art, the driving motor 11 works, the output shaft drives the belt roller 12 to rotate and drives the conveyor belt 13 to perform curve motion, so that the conveying effect on the die casting is realized, the processed die casting is placed between the two clamping plates 402, one side of the die casting needs to be pushed between the two feeding arms in the feeding process, the die casting with the distance between the two clamping plates 402 can be pushed between the two clamping plates 402 smoothly, the two clamping plates 402 are propped open, the sliding rod 401 is stressed to slide along the inner walls of the first 309 and the second 504 sliding holes, the spacing between the two clamping plates 402 can be adjusted according to the size matching of the current die casting, meanwhile, the limiting piece 406 is pulled through the pulling force of the tension spring 506, so that the limiting piece 406 pushes the sliding rod 401 to form reverse pushing force, the die casting is clamped by the reaction force of the driving clamping plates 402, the bottom of the die casting is pulled by the supporting arm 404, the die casting is prevented from falling off from the two clamping plates 402, the anti-slip sheets 403 are propped against the two sides of the die casting to perform anti-slip fixing, the clamping stability of the die casting is enhanced, the linear motor 2 is started, the mover end drives the mover block 301 to perform transverse displacement, the beam 307 is driven to synchronously displace through the assembly plate 303, the clamping assembly 4 is driven to follow displacement, meanwhile, the sliding block 503 is driven to follow the movement by kinetic energy generated by the displacement of the sliding rod 401 and is limited in the limiting groove 502 through the limiting piece 505, the sliding block 503 is stabilized in the transverse displacement of the inner wall of the limiting hole 501, the moving linearity is ensured, the problem of dislocation offset is avoided, at this moment, the die casting moves between the two support plates 1, the cooling fan 604 starts to generate wind force from the upper side and the lower side, the upper side and the lower side of the die casting are simultaneously subjected to air cooling operation, the cooling effect of the die casting is more uniform and thorough, thereby improving the cooling quality of the die casting, the air guiding plate 606 guides the wind flowing track, the air is always discharged to the position of the die casting, the wind force is ensured to be remained on the die casting as far as possible, the cooling efficiency is enhanced, the air penetrates the dust screen 605 in the process of sucking the wind by the cooling fan 604, the cleanliness of the wind is ensured, the pollution to the surface of the die casting is reduced, the fan frame 603 is used for fixing the cooling fan 604 and is stably arranged in the air hole 602, when the die casting is cooled between the two support plates 1 and is driven to be close to the upper side of the conveyor belt device by the linear motor 2, the arc arm 405 is preferentially contacted with the roller 16 on the bent rod 14, the roller 16 is pressed by lamination and rotation along the inner wall of the annular groove 15, so that the arc arm 405 is pressed by reaction force, the arc arm 405 drives the clamping plate 402 to generate kinetic energy, the tension spring 506 is stretched by the sliding rod 401, so that the two clamping plates 402 are gradually separated from each other, after the linear motor 2 is close to the conveyor belt device and moves to a limit distance, the two clamping plates 402 are separated from the die casting, the clamping force is relieved, the die casting naturally falls onto the guide plate 17 and slides onto the conveyor belt 13 along the inclined plane track of the guide plate 17, the cooled die casting is directly conveyed to a subsequent process through the conveyor belt 13, the die casting is automatically discharged and conveyed to the subsequent process after being clamped by the feeding of the air, the process engagement degree is high, the working pressure of manpower is greatly reduced, after the linear motor 2 is reset and separated from the conveyor belt device, the continuous operation can be realized by adopting the steps, the continuous operation is convenient, the connection mode of the screw grooves and the screw holes 304 in the conveying assembly 3 and the bolts enables modularization among various structures, the installation and the disassembly are convenient, the maintenance and the replacement are convenient, the mounting screw on the driving motor 11 is inserted into the corresponding motor adapting hole 10 and can be fastened by means of the nut sleeve, so that the driving motor 11 is stably towed by the rack 8, and meanwhile, the rack 8 can be installed and disassembled in a connection mode of the mounting plate 9, the mounting hole, the mounting groove and the screws, and the maintenance and the replacement are convenient.

It is noted that relational terms such as first and second, and the like are 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. Moreover, 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. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

Claims (5)

1. Die casting cooling equipment for automobile parts, comprising two support plates (1), and being characterized in that: two one side symmetry that extension board (1) are close to each other installs linear motor (2) to be provided with cooling module (6), cooling module (6) are installed in the top position between two extension boards (1), the quantity of cooling module (6) has two, and another symmetry installs the below position between two extension boards (1), install conveying subassembly (3) on linear motor (2), install clamping assembly (4) on conveying subassembly (3), and clamping assembly (4) include two slide bars (401), two install splint (402) on the one end of slide bar (401), be connected with non-slip sheet (403) on the one side that slide bar (401) was kept away from to splint (402), the bottom of splint (402) is connected with bracket arm (404), one side of splint (402) is connected with the one end of arc arm (405), the opposite side of splint (402) is connected with the material loading arm, two on the one end that slide bar (401) kept away from splint (402) all is connected with spacing piece (406);

the conveying assembly (3) comprises a rotor block (301), the rotor block (301) is arranged at a rotor end of the linear motor (2), two first screw grooves (302) are formed in one side, far away from the linear motor (2), of the rotor block (301), an assembling plate (303) is arranged, four screw holes (304) are formed in the assembling plate (303), first bolts (305) are connected to the inner walls of the screw holes (304) in a threaded mode, the first bolts (305) are connected to the inner walls of the first screw grooves (302) in a threaded mode at the same time, second bolts (306) are connected to the inner walls of the second screw holes (304) in a threaded mode, a cross beam (307) is arranged on the assembling plate (303), two second screw grooves (308) are formed in the middle of one side of the cross beam (307), sliding holes (309) are formed in the two ends of the cross beam (307) in a threaded mode, and one end, close to the outer wall of the cross beam (307) is connected to the two inner walls of the first sliding holes (309) in a sliding mode;

the support plate (1) is provided with a limiting component (5), the limiting component (5) comprises a limiting hole (501), the limiting hole (501) is formed in the side wall of the support plate (1), a limiting groove (502) is formed in the top of the inner wall of the limiting hole (501), two sliding blocks (503) are sequentially connected with the inner wall of the limiting hole (501) in a sliding mode, two sliding holes II (504) are formed in the sliding blocks (503), limiting blocks (505) are connected to the tops of the two sliding blocks (503) in a sliding mode, the limiting blocks (505) are connected to the inner wall of the limiting groove (502) in a sliding mode, the outer walls of one ends, close to limiting pieces (406), of the sliding rods (401) are respectively connected to the inner walls of the two sliding holes II (504), one sides, close to the limiting pieces (406), of the two sliding blocks (503) are respectively connected to tension springs (506), and one ends, far away from the sliding blocks (503), of the two tension springs are respectively connected to the adjacent limiting pieces (406).

The two support plates (1) are provided with conveyor belt device bases (7), the side wall of the conveyor belt device base (7) on one support plate (1) is sequentially provided with two frames (8), the two frames (8) are connected with mounting plates (9), the two mounting plates (9) are provided with mounting holes, the side wall of the conveyor belt device base (7) is also provided with mounting grooves corresponding to the mounting holes, and each mounting hole is in threaded connection with the inner wall of the corresponding mounting groove;

two bent rods (14) are symmetrically arranged at the top of the conveyor belt device base (7), annular grooves (15) are formed in one ends, far away from the conveyor belt device base (7), of each bent rod (14), rolling sleeves (16) are movably sleeved on the inner walls of the annular grooves (15), and guide plates (17) are arranged at one sides, close to the support plates (1), of the tops of the conveyor belt device bases (7).

2. The die casting cooling apparatus for automobile parts according to claim 1, wherein: the conveying assembly (3), the clamping assembly (4) and the limiting assembly (5) are two in number, the other conveying assembly (3) is symmetrically arranged on the other linear motor (2), the other clamping assembly (4) is symmetrically arranged on the other conveying assembly (3), and the other limiting assembly (5) is symmetrically arranged on the other support plate (1) and is arranged on the other clamping assembly (4).

3. The die casting cooling apparatus for automobile parts according to claim 2, wherein: the cooling assembly (6) comprises a top plate (601), the top plate (601) is connected between two support plates (1), four air holes (602) are formed in the top plate (601), fan frames (603) are all installed on the inner walls of the air holes (602), cooling fans (604) are all installed on the fan frames (603), dust screens (605) are all connected to the inner walls of one side, far away from the fan frames (603), of the air holes (602), and two air guide plates (606) are symmetrically installed on one side, close to the conveying assembly (3), of the top plate (601).

4. A die casting cooling apparatus for automotive parts according to claim 3, characterized in that: drive motors (11) are arranged on the two frames (8), motor adaptation holes (10) are formed in each frame (8), and mounting screws corresponding to the motor adaptation holes (10) are mounted at the bottoms of the drive motors (11).

5. The die casting cooling apparatus for automobile parts according to claim 4, wherein: two belt rollers (12) are rotatably connected between two conveyor belt device bases (7) through bearings, one ends of the two belt rollers (12) movably penetrate through adjacent support plates (1), an output shaft of each driving motor (11) is fixedly connected with the penetrating end of each adjacent belt roller (12), and a conveyor belt (13) is connected between the two belt rollers (12) in a transmission mode.