CN116493577A - Be used for cast spare part heat sink of sand mould - Google Patents

Abstract

The invention relates to the technical field of sand mold casting cooling, in particular to a part cooling device for sand mold casting, which comprises an outer barrel body and a cooling barrel body fixed in the outer barrel body and used for containing cooling liquid, wherein a cooling mechanism used for cooling a part sand mold is arranged in the cooling barrel body, the cooling mechanism comprises a cooling box body arranged in the cooling barrel body and used for placing the part sand mold, a support frame fixed with the cooling barrel body is arranged at the bottom of the cooling box body, a lifting assembly used for driving the cooling box body to move up and down is arranged on the cooling barrel body, and an air cooling assembly used for blowing air to the cooling box body after rising is arranged on one side of the top of the cooling barrel body. The invention is beneficial to accelerating the cooling speed of the part sand mould, realizing rapid and thorough cooling of the part sand mould, improving the working efficiency of the cooling device, greatly improving the cooling effect of the sand mould for casting the part, and avoiding the condition of slower cooling speed of the part sand mould in the prior art.

Description

Be used for cast spare part heat sink of sand mould

Technical Field

The invention relates to the technical field of sand mold casting cooling, in particular to a cooling device for a part cast by a sand mold.

Background

The sand mould casting needs to put into finished product part model or wooden model in the sand, then fill up the sand around the model, unpacking takes out the model and then the sand forms the mould, search the bulletin number CN212734110U and disclose a cooling device for sand mould casting, including liquid cooling pond, sand mould tray, no. one controller, no. two controllers, slip riser, locator and lift slider, this prior art places spare part sand mould at sand mould tray, then sand mould tray soaks in the liquid cooling pond, but the cooling rate of this kind of mode is slower, need soak longer time and just can thoroughly cool down, cooling device's work efficiency has been reduced, influence cooling device's normal use, and cooling effect also can become progressively worse, be difficult to satisfy the demand of in-service.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides a part cooling device for sand mould casting, which solves the problem that the cooling rate of a part sand mould is slow and the part sand mould can be thoroughly cooled only by soaking for a long time in the prior art.

In order to solve the technical problems, the invention provides the following technical scheme: the cooling device for the parts for sand mould casting comprises an outer barrel body and a cooling barrel body which is fixed in the outer barrel body and used for containing cooling liquid, wherein a cooling mechanism used for cooling the sand mould of the parts is arranged in the cooling barrel body;

the cooling mechanism comprises a cooling box body arranged in a cooling barrel body and used for placing a part sand mould, and a supporting frame fixed with the cooling barrel body and arranged at the bottom of the cooling box body, wherein a lifting component used for driving the cooling box body to move up and down is arranged on the cooling barrel body, an air cooling component used for blowing the cooling box body after ascending is arranged on one side of the top of the cooling barrel body, a circulating component used for enabling cooling liquid to circulate is arranged on one side of the bottom of the cooling barrel body, and the cooling mechanism further comprises a driving component arranged on one side of the inner part of the outer barrel body and used for providing a power source.

Preferably, the lifting assembly comprises a face gear arranged in the middle of the cooling barrel body in a rotating mode and a first connecting rod arranged on the periphery of the cooling box body, a rotating ring body is fixed at the bottom of the face gear, a limiting ring body fixed with the cooling barrel body is arranged on the outer side of the rotating ring body in a rotating mode, a connecting seat fixed with the cooling box body is hinged to the bottom of the first connecting rod, a second connecting rod is hinged to the top of the first connecting rod, and a rotating shaft penetrating through the cooling barrel body and connected with the second connecting rod in a rotating mode through a bearing is fixed to the top of the second connecting rod.

Preferably, a transmission gear meshed with the end face gear is fixed at one end of the rotating shaft far away from the second connecting rod, a supporting seat fixed with the limiting ring body is arranged at one side of the transmission gear, and one end of the rotating shaft far away from the second connecting rod is rotatably connected with the top of the supporting seat through a bearing.

Preferably, the driving assembly comprises a gear motor fixed at one side in the outer barrel body and a connecting shaft fixed at the output end of the gear motor and rotatably arranged at the bottom of one supporting seat through a bearing, a rotating disc is fixedly arranged on the connecting shaft, a grooved wheel is rotatably arranged at the top of the rotating disc, one side of the grooved wheel is fixedly connected with one rotating shaft, and a deflector rod matched with the grooved wheel is fixed on the rotating disc.

Preferably, the air cooling assembly comprises fan blades arranged on one side of the top of the cooling barrel body, vent holes matched with the fan blades are formed in two sides of the top of the cooling barrel body, a first rotating shaft with one end rotatably connected with the cooling barrel body through a bearing is fixed at the axis center of the fan blades, and the other end of the first rotating shaft is rotatably connected with the outer barrel body through a bearing.

Preferably, the first rotating shaft is connected with a first driving belt through a belt pulley in a driving way, and the bottom of the first driving belt is connected with the connecting shaft through the belt pulley in a driving way.

Preferably, the circulating assembly comprises a communicating pipe fixedly communicated with one side of the bottom of the cooling barrel body, and a propeller blade is arranged on the inner side of the top of the communicating pipe.

Preferably, a second rotating shaft is fixed on one side of the propeller blade, one end of the second rotating shaft penetrates through the communicating pipe and is rotationally connected with the communicating pipe through a bearing, a second driving belt is connected to one end of the second rotating shaft through belt pulley transmission, and the top of the second driving belt is in transmission connection with the connecting shaft through the belt pulley.

Preferably, the top of the cooling box body is provided with a sealing cover body, a limiting shaft is fixed at the bottom of one end of the sealing cover body, a limiting seat fixed with the cooling box body is rotationally arranged outside the limiting shaft, and a bar-shaped magnetic plate fixed with the cooling box body is magnetically arranged on one side of the sealing cover body.

By means of the technical scheme, the invention provides the part cooling device for sand mold casting, which has at least the following beneficial effects compared with the prior art:

1. according to the invention, the cooling mechanism is arranged to rapidly and thoroughly cool the part sand mould, the lifting assembly and the air cooling assembly are mutually matched, the lifting assembly drives the cooling box body provided with the part sand mould to move up and down, the cooling box body is immersed into cooling liquid at the bottom of the cooling barrel body to cool the part sand mould at the top of the cooling barrel body, and the air cooling assembly is used to cool the part sand mould at the top of the cooling barrel body, so that the cooling speed of the part sand mould is accelerated after the cooling mechanism is repeatedly used for several times, the rapid and thorough cooling of the part sand mould is realized, the working efficiency of the cooling device is improved, the cooling effect of casting the part by the sand mould is greatly improved, and the situation that the part sand mould is cooled thoroughly only by soaking for a long time in a slow cooling rate in the prior art is avoided.

2. According to the invention, the lifting assembly is arranged to drive the cooling box body provided with the part sand mould to move up and down, one of the rotating shafts of the lifting assembly is driven to rotate by the driving assembly, one of the rotating shafts drives the transmission gear on the rotating shaft to rotate, the transmission gear drives the end face gear at the bottom of the transmission gear and other transmission gears to rotate, the other transmission gears drive the transmission shaft at the axis of the transmission gear to rotate, the transmission shaft drives the first connecting rod to move through the second connecting rod at one end of the transmission shaft, and the first connecting rod drives the cooling box body to move up and down through the connecting seat, so that the cooling box body is driven to the top of the cooling barrel body to cool by air, and the cooling effect of the part sand mould is improved.

3. According to the cooling tank, the circulating assembly is arranged to drive the cooling liquid at the bottom of the cooling tank to flow, and the rotating propeller blades are used to drive the cooling liquid to flow, so that the cooling liquid forms a circulating flow state at the bottom of the cooling tank, and when the cooling tank body filled with the part sand mould is immersed in the cooling liquid at the bottom of the cooling tank body, the part sand mould in the cooling tank body is cooled more thoroughly, and the cooling tank is beneficial to use.

4. According to the invention, the driving assembly is arranged to provide a power source for the lifting assembly, the air cooling assembly and the circulating assembly, the gear motor is started, the output end of the gear motor drives the connecting shaft and the rotating disc to rotate, and the rotating disc drives the grooved pulley to intermittently rotate through the deflector rod, so that the lifting assembly can intermittently move for a period of time and then continuously move when the cooling box body is driven to move to a certain position, the cooling effect of the part sand mould in the cooling box body is further improved, and the gear motor is used to provide power, so that the manufacturing cost is saved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiments of the application and together with the description serve to explain the application and do not constitute an undue limitation to the application. In the drawings:

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a front perspective cross-sectional view of the present invention;

FIG. 3 is a block diagram of a cooling mechanism of the present invention;

FIG. 4 is an exploded view of the cooling box of the present invention;

FIG. 5 is an exploded view of the lift assembly of the present invention;

FIG. 6 is an exploded view of the air cooling module and the circulation module of the present invention;

FIG. 7 is an exploded view of the drive assembly of the present invention;

fig. 8 is an enlarged schematic view of the portion a in fig. 2.

In the figure: 1. an outer tub; 2. cooling barrel; 3. a cooling mechanism; 31. cooling the box body; 32. a support frame; 33. a lifting assembly; 331. face gears; 332. a first connecting rod; 333. rotating the ring body; 334. a limit ring body; 335. a connecting seat; 336. a second connecting rod; 337. a rotating shaft; 338. a transmission gear; 339. a support base; 34. an air cooling assembly; 341. a fan blade; 342. a vent hole; 343. a first rotating shaft; 344. a first transmission belt; 35. a circulation assembly; 351. a communicating pipe; 352. propeller blades; 353. a second rotating shaft; 354. a second transmission belt; 36. a drive assembly; 361. a speed reducing motor; 362. a connecting shaft; 363. rotating the disc; 364. a sheave; 365. a deflector rod; 4. sealing cover; 5. a limiting shaft; 6. a bar-shaped magnetic 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.

Example 1

Fig. 1-8 illustrate one embodiment of the present invention: a part cooling device for sand mould casting comprises an outer barrel body 1 and a cooling barrel body 2 which is fixed in the outer barrel body 1 and used for containing cooling liquid, wherein a cooling mechanism 3 used for cooling a part sand mould is arranged in the cooling barrel body 2.

The cooling mechanism 3 is including setting up the cooling box 31 that is used for placing spare part sand mould in cooling barrel 2, the liquid level of cooling barrel 2 inboard coolant liquid is located cooling barrel 2's middle part, cooling box 31 mouth is higher than the liquid level of coolant liquid, and set up in cooling box 31 bottom be provided with cooling barrel 2 fixed support frame 32, be provided with sealed lid 4 at cooling box 31 top, be fixed with spacing axle 5 in sealed lid 4 one end bottom, rotate at spacing axle 5 outside and be provided with the fixed spacing seat of cooling box 31, be provided with the bar magnet plate 6 fixed with cooling box 31 in sealed lid 4 one side magnetic attraction, place spare part sand mould in cooling box 31, then rotate sealed lid 4 around spacing axle 5, sealed lid 4 covers completely on cooling box 31, sealed lid 4 one side and bar magnet plate 6 are fixed through magnetic connection simultaneously, seal well cooling box 31, be provided with the elevating system 33 that is used for driving cooling box 31 up-and-down motion on cooling box 2, be provided with at cooling box 2 top one side and be used for carrying out cooling box 31 and carry out cooling system 34 and be used for cooling down in cooling box 2 one side circulation assembly 35 and be used for setting up cooling box 31, it is used for cooling assembly 35 to be used for cooling mechanism to circulate outside cooling box 1 one side to be provided with cooling mechanism 1.

The cooling mechanism 3 is used for rapidly and thoroughly cooling the part sand mould, the lifting assembly 33 and the air cooling assembly 34 are matched with each other, the lifting assembly 33 drives the cooling box body 31 provided with the part sand mould to move up and down, the cooling box body 31 is immersed into cooling liquid at the bottom of the cooling barrel body 2 to cool, then the cooling box body 31 moves from the cooling liquid to the position of the air cooling assembly 34 at the top of the cooling barrel body 2 to cool, the part sand mould is further cooled through the air cooling assembly 34, and after the operation is repeated for several times, the cooling speed of the part sand mould is increased, so that the rapid and thorough cooling of the part sand mould is realized.

Specifically, the lifting assembly 33 includes a face gear 331 rotatably disposed in the middle of the cooling barrel 2, and a first connecting rod 332 disposed around the cooling barrel 31, a rotating ring 333 is fixed at the bottom of the face gear 331, a limiting ring 334 fixed to the cooling barrel 2 is rotatably disposed outside the rotating ring 333, a connecting seat 335 fixed to the cooling barrel 31 is hinged to the bottom of the first connecting rod 332, a second connecting rod 336 is hinged to the top of the first connecting rod 332, a rotating shaft 337 penetrating through the cooling barrel 2 and rotatably connected to the second connecting rod 336 through a bearing is fixed to the top of the second connecting rod 336, a transmission gear 338 meshed with the face gear 331 is fixed to one end of the rotating shaft 337 far from the second connecting rod 336, a supporting seat 339 fixed to the limiting ring 334 is disposed on one side of the transmission gear 338, and one end of the rotating shaft 337 far from the second connecting rod 336 is rotatably connected to the top of the supporting seat 339 through a bearing.

By starting the driving assembly 36, the driving assembly 36 drives one of the rotating shafts 337 to intermittently rotate, one of the rotating shafts 337 drives the transmission gear 338 on the rotating shaft to rotate, the transmission gear 338 drives the end face gear 331 at the bottom of the rotating shaft and other transmission gears 338 to rotate, the other transmission gears 338 drive the transmission shafts at the axle center to rotate, the transmission shafts drive the first connecting rod 332 to vertically move through the second connecting rod 336 at one end of the transmission shafts, and the first connecting rod 332 drives the cooling box 31 to vertically move through the connecting seat 335, so that the cooling box 31 moves from the cooling liquid to the position of the air cooling assembly 34 at the top of the cooling barrel 2 to perform air cooling.

Further, the driving assembly 36 includes a gear motor 361 fixed at one side of the inside of the outer tub 1, and a connection shaft 362 fixed at an output end of the gear motor 361 and rotatably disposed with a bottom of one of the supporting seats 339 through a bearing, a rotating disc 363 is fixedly disposed on the connection shaft 362, a sheave 364 is rotatably disposed at a top of the rotating disc 363, one side of the sheave 364 is fixedly connected with one of the rotating shafts 337, a driving rod 365 matched with the sheave 364 is fixed on the rotating disc 363, the driving assembly 36 is used for providing power sources for the lifting assembly 33, the air cooling assembly 34 and the circulating assembly 35, the gear motor 361 is started, the output end of the gear motor 361 drives the connection shaft 362 and the rotating disc 363 to rotate, the rotating disc 363 drives the sheave 364 to intermittently rotate through the driving rod 365, so that the cooling box 31 is stopped for a period of time when the cooling box 31 moves at the bottom of the cooling tub 2, and the parts and sand mold in the cooling box 31 are fully cooled.

The implementation process of the implementation is as follows: firstly, placing a part sand mould in a cooling box body 31, then rotating a sealing cover body 4 around a limiting shaft 5, completely covering the sealing cover body 4 on the cooling box body 31, fixing one side of the sealing cover body 4 and a strip-shaped magnetic plate 6 through magnetic connection, sealing the cooling box body 31, then starting a gear motor 361, driving a connecting shaft 362 to rotate by the output end of the gear motor 361, driving a rotating disc 363 at one end of the connecting shaft 362 to rotate by the connecting shaft 362, driving a deflector rod 365 on the rotating disc 363 to rotate by the rotating disc 363, and driving a grooved pulley 364 to intermittently rotate when the deflector rod 365 rotates;

the grooved pulley 364 drives one of the rotating shafts 337 to rotate, one of the rotating shafts 337 drives the transmission gear 338 on the rotating shaft to rotate, the transmission gear 338 drives the face gear 331 at the bottom of the rotating shaft to rotate, the face gear 331 simultaneously drives other transmission gears 338 to rotate, the other transmission gears 338 drive the transmission shaft at the axle center of the rotating shaft to rotate, the transmission shaft drives the connecting rod II 336 at one end of the rotating shaft to rotate, the connecting rod II 336 surrounds the transmission shaft to rotate, the connecting rod II 336 drives the connecting rod I332 at the bottom of the rotating shaft to move downwards, the connecting rod I332 drives the cooling box 31 to move downwards at the inner side of the cooling barrel 2 through the connecting seat 335, the cooling box 31 moves from the top of the cooling barrel 2 to cooling liquid at the bottom of the cooling barrel 2, and meanwhile, the grooved pulley 364 drives one of the rotating shafts 337 to intermittently rotate, so that the cooling box 31 stops for a period of time when the cooling box 31 moves at the bottom of the cooling barrel 2, and the sand mould of parts in the cooling box 31 is fully and rapidly cooled.

Example two

Referring to fig. 6, substantially the same as the first embodiment, the more optimal is: the air cooling assembly 34 comprises fan blades 341 arranged on one side of the top of the cooling barrel body 2, vent holes 342 matched with the fan blades 341 are formed in two sides of the top of the cooling barrel body 2, a first rotating shaft 343 with one end rotatably connected with the cooling barrel body 2 through a bearing is fixed at the axis center of the fan blades 341, the other end of the first rotating shaft 343 is rotatably connected with the outer barrel body 1 through a bearing, a first driving belt 344 is connected on the first rotating shaft 343 through belt pulley transmission, and the bottom of the first driving belt 344 is connected with a connecting shaft 362 through belt pulley transmission.

The implementation process of the implementation is as follows: when the cooling box 31 moves from the cooling liquid to the top of the cooling barrel 2, the output end of the speed reducing motor 361 drives the connecting shaft 362 to rotate, the connecting shaft 362 drives the first driving belt 344 to rotate through the belt pulley at the top of the connecting shaft, the first driving belt 344 drives the first rotating shaft 343 to rotate through the belt pulley at the top of the first driving belt 344, the first rotating shaft 343 drives the fan blades 341 at one end of the first rotating shaft 343 to rotate, wind generated by rotation of the fan blades 341 enters the cooling barrel 2 through the ventilation holes 342, and the cooling box 31 at the top of the cooling barrel 2 is cooled.

Example III

Referring to fig. 6, substantially the same as the first embodiment, the more optimal is: the circulating assembly 35 comprises a communicating pipe 351 fixedly communicated with one side of the bottom of the cooling barrel body 2, a propeller blade 352 is arranged on the inner side of the top of the communicating pipe 351, a second rotating shaft 353 is fixed on one side of the propeller blade 352, one end of the second rotating shaft 353 penetrates through the communicating pipe 351 and is rotationally connected with the communicating pipe through a bearing, a second driving belt 354 is connected with one end of the second rotating shaft 353 through belt pulley transmission, and the top of the second driving belt 354 is in transmission connection with a connecting shaft 362 through a belt pulley.

The implementation process of the implementation is as follows: when the connecting shaft 362 rotates, the connecting shaft 362 drives the second transmission belt 354 to rotate through the belt pulley, the second transmission belt 354 drives the second rotation shaft 353 at the bottom of the second transmission belt to rotate through the belt pulley, the second rotation shaft 353 drives the screw blade 352 at one end of the second transmission belt 353 to rotate at the inner side of the top of the communicating pipe 351, and the screw blade 352 drives the cooling liquid in the communicating pipe 351 to flow, so that the cooling liquid at the bottom of the cooling barrel body 2 circulates, and the cooling effect is better when the cooling box body 31 is immersed in the cooling liquid at the bottom of the cooling barrel body 2.

In the use process of the cooling device, a worker firstly places a part sand mould in a cooling box body 31, then rotates a sealing cover body 4 around a limiting shaft 5, the limiting shaft 5 rotates in a limiting seat, the sealing cover body 4 completely covers the cooling box body 31, one side of the sealing cover body 4 is fixedly connected with a strip-shaped magnetic plate 6 through magnetism, the cooling box body 31 is sealed, the cooling box body 31 is positioned at the top of the cooling box body 31, then a gear motor 361 is started, the gear motor 361 operates, the output end of the gear motor 361 drives a connecting shaft 362 to rotate, the connecting shaft 362 drives a first belt 344 to operate through a belt pulley at the top of the connecting shaft, the first belt 344 drives a first rotating shaft 343 to rotate through a belt pulley at the top of the connecting shaft 343, fan blades 341 at one end of the first rotating shaft 343 are rotated, wind generated by the rotation of the fan blades 341 enters the cooling barrel body 2 through a ventilation hole 342, and the cooling box body 31 at the top of the cooling barrel body 2 is cooled;

meanwhile, the connecting shaft 362 drives the rotating disc 363 at one end of the connecting shaft 362 to rotate, the rotating disc 363 drives the deflector rod 365 on the rotating disc 363 to rotate, the deflector rod 365 drives the grooved pulley 364 to intermittently rotate when rotating, the grooved pulley 364 drives one of the rotating shafts 337 to rotate, one of the rotating shafts 337 drives the transmission gear 338 on the rotating disc to rotate, the transmission gear 338 drives the rotating ring body 333 to rotate at the inner side of the limiting ring body 334, the end gear 331 simultaneously drives the other transmission gears 338 to rotate, the other transmission gears 338 drive the transmission shafts at the axial center of the other transmission gears 338 to rotate, the transmission shafts drive the connecting rod II 336 at one end of the transmission shafts to rotate, the connecting rod II 336 rotates around the transmission shafts, the connecting rod II 336 drives the connecting rod II 332 at the bottom of the transmission shafts to downwards move, and the connecting rod I332 drives the cooling box 31 to downwards at the inner side of the cooling barrel 2 through the connecting seat 335, and the cooling box 31 slowly moves from the top of the cooling barrel 2 to the cooling liquid at the bottom of the cooling barrel 2;

meanwhile, the output end of the gear motor 361 drives the connecting shaft 362 to rotate, the connecting shaft 362 drives the second transmission belt 354 to rotate through the belt pulley, the second transmission belt 354 drives the second rotation shaft 353 at the bottom of the second transmission belt to rotate through the belt pulley, the second rotation shaft 353 drives the screw blade 352 at one end of the second transmission belt 353 to rotate at the inner side of the top of the communicating pipe 351, the screw blade 352 drives cooling liquid in the communicating pipe 351 to flow, and therefore cooling liquid at the bottom of the cooling barrel 2 circulates and flows, and the flowing cooling liquid cools a part sand mould in the cooling box 31.

It should be noted that, in this document, 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 understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. A spare part heat sink for sand mould casting, includes outer staving (1) to and be fixed in cooling staving (2) that are used for splendid attire coolant liquid in outer staving (1), its characterized in that: a cooling mechanism (3) for cooling the part sand mould is arranged in the cooling barrel body (2);

the cooling mechanism (3) comprises a cooling box body (31) arranged in a cooling barrel body (2) and used for placing a part sand mould, a supporting frame (32) fixed with the cooling barrel body (2) is arranged at the bottom of the cooling box body (31), a lifting component (33) used for driving the cooling box body (31) to move up and down is arranged on the cooling barrel body (2), an air cooling component (34) used for blowing the cooling box body (31) after lifting is arranged on one side of the top of the cooling barrel body (2), a circulating component (35) used for enabling cooling liquid to circulate is arranged on one side of the bottom of the cooling barrel body (2), and the cooling mechanism (3) further comprises a driving component (36) arranged on one side of the inner part of the outer barrel body (1) and used for providing a power source.

2. A component cooling apparatus for sand mold casting according to claim 1, wherein: lifting unit (33) are including rotating face gear (331) that sets up in cooling staving (2) middle part to and set up in first connecting rod (332) around cooling staving (31) face gear (331) bottom is fixed with and rotates ring body (333), rotates in the outside of rotating ring body (333) and be provided with spacing ring body (334) fixed with cooling staving (2) the bottom of first connecting rod (332) articulates and is provided with connecting seat (335) fixed with cooling staving (31), articulates at the top of first connecting rod (332) and is provided with connecting rod two (336), is fixed with at the top of second connecting rod (336) and runs through cooling staving (2) and pass through axis of rotation (337) that the bearing rotates with it and be connected.

3. A component cooling apparatus for sand mold casting according to claim 2, wherein: one end of the rotating shaft (337) far away from the connecting rod II (336) is fixed with a transmission gear (338) meshed with the face gear (331), one side of the transmission gear (338) is provided with a supporting seat (339) fixed with the limiting ring body (334), and one end of the rotating shaft (337) far away from the connecting rod II (336) is rotatably connected with the top of the supporting seat (339) through a bearing.

4. A component cooling apparatus for sand mold casting according to claim 2, wherein: the driving assembly (36) comprises a gear motor (361) fixed on one side of the inside of the outer barrel body (1), and a connecting shaft (362) fixed at the output end of the gear motor (361) and rotatably arranged with the bottom of one supporting seat (339) through a bearing, wherein a rotating disc (363) is fixedly arranged on the connecting shaft (362), a grooved wheel (364) is rotatably arranged at the top of the rotating disc (363), one side of the grooved wheel (364) is fixedly connected with one rotating shaft (337), and a deflector rod (365) matched with the grooved wheel (364) is fixedly arranged on the rotating disc (363).

5. The component cooling device for sand mold casting of claim 4, wherein: the air cooling assembly (34) comprises fan blades (341) arranged on one side of the top of the cooling barrel body (2), vent holes (342) matched with the fan blades (341) are formed in two sides of the top of the cooling barrel body (2), a first rotating shaft (343) with one end connected with the cooling barrel body (2) through a bearing in a rotating mode is fixed at the axis center of the fan blades (341), and the other end of the first rotating shaft (343) is connected with the outer barrel body (1) through a bearing in a rotating mode.

6. A component cooling apparatus for sand mold casting as defined in claim 5, wherein: the first rotating shaft (343) is connected with a first driving belt (344) through a belt pulley in a driving way, and the bottom of the first driving belt (344) is connected with the connecting shaft (362) through the belt pulley in a driving way.

7. The component cooling device for sand mold casting of claim 4, wherein: the circulating assembly (35) comprises a communicating pipe (351) fixedly communicated with one side of the bottom of the cooling barrel body (2), and a propeller blade (352) is arranged on the inner side of the top of the communicating pipe (351).

8. A component cooling apparatus for sand mold casting as defined in claim 7, wherein: a second rotating shaft (353) is fixed on one side of the propeller blade (352), one end of the second rotating shaft (353) penetrates through the communicating pipe (351) and is rotationally connected with the communicating pipe through a bearing, a second driving belt (354) is connected to one end of the second rotating shaft (353) through belt pulley transmission, and the top of the second driving belt (354) is in transmission connection with the connecting shaft (362) through a belt pulley.

9. A component cooling apparatus for sand mold casting according to claim 1, wherein: the cooling box body (31) top is provided with sealed lid (4), is fixed with spacing axle (5) in sealed lid (4) one end bottom, rotates in spacing axle (5) outside and is provided with the spacing seat fixed with cooling box body (31) sealed lid (4) one side magnetism inhale and be provided with bar magnetic sheet (6) fixed with cooling box body (31).