CN113829593A - Cooling device and cooling method for ultra-thin and long insert - Google Patents

Abstract

The invention provides a cooling device and a cooling method for an ultra-fine insert. According to the invention, the first motor works to drive the eccentric wheel to rotate for the first half circle to extrude the ball, the ball drives the moving plate to move through the L-shaped rod, water enters the cavity through the rectangular groove below the ball, the water is discharged into the L-shaped pipe through the rectangular groove above the ball, the first motor continuously works to enable the water to enter the first insert to achieve a circulation, the cooling effect is improved, the second motor drives the screw to rotate, the screw rotates to drive the moving rod to move leftwards, the moving rod drives the second rectangular block to move through the first rectangular block, and the second rectangular block drives the circular block to move, so that the conical groove and the conical block are matched, the compression effect is achieved, and the product mold can be conveniently extruded and attached.

Description

Cooling device and cooling method for ultra-thin and long insert

Technical Field

The invention relates to the technical field of cooling equipment for ultra-fine inserts, in particular to a cooling device and a cooling method for the ultra-fine insert.

Background

The mold, the industrial production is used for injecting plastics, blow molding, extruding, die-casting or forging and pressing to shape, smelting, various moulds and tools of the punching press, etc. to obtain the required products, in short, the mold is the tool used for making the shaping article, this kind of tool is formed by various parts, different moulds are formed by different parts, need the mold insert to cooperate in the course of some mould products production, the mold insert is a general word, specially mean the irregular mould fittings used for inlaying in the mould, play a role in fixing the space between template and filling template, need to inject into the mold cavity through the injection mold in the course of production, the principle is to utilize the hot molten plastics to inject into the mold cavity by the injection molding machine high pressure, through cooling, get the finished product, after the mould shaping of the product, need to cool the mould of the product;

firstly, most of the existing product molds are inconvenient to cool in the process of matching the inserts, so that the production efficiency is reduced;

secondly, most of the existing product molds are inconvenient to squeeze and attach the product molds in the process of matching the inserts, so that the cooling effect is poor, great inconvenience is brought to users, and therefore a cooling device and a cooling method for the extremely-thin and long inserts are provided for solving the problems.

Disclosure of Invention

In view of the above, it is desirable to provide a cooling apparatus and a cooling method for an ultra-fine insert, so as to solve or alleviate the technical problems in the prior art, and to provide at least one useful choice.

The technical scheme of the embodiment of the invention is realized as follows: a cooling device for an ultra-fine insert comprises a cooling mechanism and a moving mechanism, wherein the cooling mechanism comprises a bottom plate, a vertical plate, a cavity, a rectangular groove, an L-shaped pipe, a transverse pipe and a water tank;

the electronic component comprises a bottom plate, a first insert, a copper plug, a second insert, a conical block, a transverse pipe and a water tank, wherein the top of the bottom plate is fixedly connected with a vertical plate, the right side of the vertical plate is fixedly connected with the first insert, the outer side of the first insert is movably sleeved with the electronic component, a cavity is formed in the first insert, the left side of the first insert is provided with two rectangular grooves, a through hole is formed between the inner wall of the right side of each rectangular groove and the inner wall of the left side of the cavity, the cavity is internally and fixedly sleeved with the copper plug, the right side of the copper plug is fixedly connected with the second insert, the right side of the electronic component is fixedly connected with the conical block, the inner wall of the right side of the cavity is provided with the conical hole, the right end of the second insert extends into the conical hole, the left side of the first insert is fixedly connected with the L-shaped pipe, the L-shaped pipe is communicated with one rectangular groove above the two rectangular grooves, the left side of the first insert is fixedly connected with the transverse pipe, and the top of the bottom plate is fixedly connected with the water tank, the L-shaped pipe is arranged to achieve the communication effect.

In some embodiments, the bottom end of the L-shaped pipe extends into the water tank to be communicated with and is fixed with a first one-way valve, the bottom of the first one-way valve is provided with an opening, the left end of the transverse pipe extends into the water tank to be communicated with and is fixed with a second one-way valve, the right side of the second one-way valve is provided with an opening, and the arrangement of the transverse pipe achieves the effect of communication.

In some embodiments, the front side of the water tank is communicated with and fixed with an L-shaped water inlet pipe, a movable plate is sleeved in the water tank in a sliding mode, a third one-way valve is arranged in the water tank, the movable plate is fixedly sleeved outside the third one-way valve, the right side of the third one-way valve is provided with an opening, and the L-shaped water inlet pipe is arranged to achieve the effect of conveying water.

In some embodiments, the left side fixedly connected with L shape pole of movable plate, the left side of L shape pole extends outside the water tank, the left side fixedly connected with T shape pole of water tank, L shape pole slip cap is established in the outside of T shape pole, the same spring of fixedly connected with between the left side inner wall of L shape pole and the left side of water tank, spring movable sleeve establishes in the outside of T shape pole, and the setting of T shape pole has played the effect of location.

In some embodiments, a ball is embedded in the left side of the L-shaped rod, a first motor is fixedly connected to the top of the bottom plate, an eccentric wheel is fixedly connected to the top end of an output shaft of the first motor, the ball is in rolling contact with the left side of the eccentric wheel, and the ball is arranged to achieve the effect of reducing friction.

In some embodiments, a moving mechanism is arranged above the cooling mechanism, and the moving mechanism comprises a supporting plate, a screw rod, a moving rod, a round rod, a positioning rod and a second motor;

the top fixedly connected with backup pad of bottom plate, the left side of backup pad is rotated and is connected with the screw rod, the outside threaded connection of screw rod has the carriage release lever, the left end fixedly connected with first rectangular block of carriage release lever, the setting of screw rod has played the dead effect of lock.

In some embodiments, two round rods are fixedly connected to the right side of the first rectangular block, two positioning rods are fixedly connected to the left side of the supporting plate, the round rods are slidably sleeved on the outer sides of the corresponding positioning rods, and the positioning rods are arranged to achieve a positioning effect.

In some embodiments, a second motor is fixedly connected to the right side of the supporting plate, an end of an output shaft of the second motor is fixedly connected to the right end of the screw rod, a second rectangular block is fixedly connected to the left side of the first rectangular block, a circular block is fixedly connected to the left side of the second rectangular block, a tapered groove is formed in the left side of the circular block, and the second rectangular block is arranged to achieve a connecting effect.

The invention also provides a cooling method of the cooling device for the ultra-fine insert, which comprises the following steps:

s1, separating the first insert from the electronic part, moving the electronic part leftwards, movably sleeving the electronic part on the outer side of the first insert, adding cooling water into the water tank through the L-shaped water inlet pipe, and driving the first motor through the switch group;

s2, in S1, the first motor works to drive the eccentric wheel to rotate, the eccentric wheel rotates for the first half circle to extrude the balls, and the balls drive the L-shaped rod to move rightwards under the action of the extrusion force;

s3, in the S2 process, the L-shaped rod drives the moving plate to move in the process of moving to the right, the L-shaped rod slides on the outer side of the T-shaped rod, and the L-shaped rod compresses the spring in the process of moving;

s4, the moving plate moves to extrude water on the right side of the moving plate in S3, the water on the right side of the moving plate enters a second one-way valve under the action of the extrusion force, the second one-way valve discharges the water into a transverse pipe, the transverse pipe discharges the water into a rectangular groove on the lower side, the rectangular groove on the lower side discharges the water into a corresponding through hole, and the through hole discharges the water into a cavity;

s5, discharging water into an upper rectangular groove through an upper through hole, discharging the water in the upper rectangular groove into an L-shaped pipe, discharging the water into a first one-way valve by the L-shaped pipe, and discharging the water into a water tank by the first one-way valve;

s6, when the eccentric wheel rotates to the rear half circle, the extrusion force on the ball is released, the spring in the compressed state is reset, the elastic force of the spring drives the L-shaped rod to move leftwards, and the L-shaped rod drives the moving plate to move leftwards;

and S7, extruding the water on the left side of the moving plate in the process that the moving plate moves leftwards in the S6, allowing the water on the left side of the moving plate to enter the right side of the moving plate through the third one-way valve under the action of the extrusion force, and allowing the water to enter the first insert to achieve a circulation effect by the continuous work of the first motor, so that the cooling effect is improved.

S8, when the electronic part needs to be tightly pressed, a second motor is started through a switch group, the second motor works to drive the screw rod to rotate, and the screw rod rotates to drive the movable rod to move leftwards;

s9, the moving rod in the S8 drives the first rectangular block to move, the first rectangular block drives the second rectangular block to move, and the second rectangular block drives the circular block to move, so that the conical groove is matched with the conical block, and the effect of pressing is achieved.

In some embodiments, according to the cooling device and the cooling method for the very fine insert as claimed in the claims, the first rectangular block moves along the two round rods during moving to the left, and the round rods slide on the outer sides of the corresponding positioning rods, so as to achieve the effect of driving the round blocks to move for compressing.

Due to the adoption of the technical scheme, the embodiment of the invention has the following advantages:

firstly, the first motor works to drive the eccentric wheel to rotate for the first half circle to extrude the balls, the balls drive the moving plate to move through the L-shaped rod, water enters the cavity through the lower rectangular groove, the water is discharged into the L-shaped pipe through the upper rectangular groove, the first motor works continuously, the water can enter the first insert to achieve circulation, the cooling effect is improved, a product mold is cooled conveniently, and therefore the production efficiency is improved.

The second motor is started through the switch group to drive the screw to rotate, the screw rotates to drive the moving rod to move leftwards, the moving rod drives the second rectangular block to move through the first rectangular block, and the second rectangular block drives the circular block to move, so that the conical groove and the conical block are matched, the pressing effect is achieved, the product mold can be squeezed and attached conveniently, the cooling effect is good, and great convenience is brought to a user.

The foregoing summary is provided for the purpose of description only and is not intended to be limiting in any way. In addition to the illustrative aspects, embodiments, and features described above, further aspects, embodiments, and features of the present invention will be readily apparent by reference to the drawings and following detailed description.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the embodiments or technical descriptions will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

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

FIG. 2 is a perspective view of a first insert and electronics component connection assembly of the present invention;

FIG. 3 is a schematic view of the internal cross-sectional perspective of FIG. 2;

FIG. 4 is an enlarged view of the structure of region A in FIG. 3;

FIG. 5 is a schematic view showing an internal sectional perspective structure of the water tank of the present invention;

FIG. 6 is a perspective view of the moving mechanism of the present invention;

fig. 7 is a perspective view of a connecting member of the first rectangular block, the second rectangular block and the circular block of the present invention.

Reference numerals: 1. a cooling mechanism; 2. a base plate; 3. a vertical plate; 4. a first insert; 5. an electronic part; 6. a cavity; 7. a rectangular groove; 8. a through hole; 9. copper blocking; 10. a second insert; 11. a conical block; 12. a tapered hole; 13. an L-shaped tube; 14. a transverse tube; 15. a water tank; 16. a first check valve; 17. a second one-way valve; 18. an L-shaped water inlet pipe; 19. moving the plate; 20. a third check valve; 21. an L-shaped rod; 22. a T-shaped rod; 23. a spring; 24. a ball bearing; 25. a first motor; 26. an eccentric wheel; 27. a moving mechanism; 28. a support plate; 29. a screw; 30. a travel bar; 31. a first rectangular block; 32. a round bar; 33. positioning a rod; 34. a second motor; 35. a second rectangular block; 36. a circular block; 37. and (4) a tapered groove.

Detailed Description

In the following, only certain exemplary embodiments are briefly described. As those skilled in the art will recognize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention. Accordingly, the drawings and description are to be regarded as illustrative in nature, and not as restrictive.

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

As shown in fig. 1-7, an embodiment of the present invention provides a cooling apparatus for an extra-fine insert, including a cooling mechanism 1 and a moving mechanism 27, where the cooling mechanism 1 includes a bottom plate 2, a vertical plate 3, a cavity 6, a rectangular groove 7, an L-shaped pipe 13, a horizontal pipe 14, and a water tank 15;

the top of the bottom plate 2 is fixedly connected with a vertical plate 3, the right side of the vertical plate 3 is fixedly connected with a first insert 4, the outer side of the first insert 4 is movably sleeved with an electronic part 5, a cavity 6 is formed in the first insert 4, the left side of the first insert 4 is provided with two rectangular grooves 7, a same through hole 8 is formed between the right side inner wall of the rectangular groove 7 and the left side inner wall of the cavity 6, a copper plug 9 is fixedly sleeved in the cavity 6, the right side of the copper plug 9 is fixedly connected with a second insert 10, the right side of the electronic part 5 is fixedly connected with a conical block 11, the right side inner wall of the cavity 6 is provided with a conical hole 12, the right end of the second insert 10 extends into the conical hole 12, the left side of the first insert 4 is fixedly connected with an L-shaped pipe 13, the L-shaped pipe 13 is communicated with one rectangular groove 7 which is positioned above the two rectangular grooves 7, the left side of the first insert 4 is fixedly connected with a transverse pipe 14, and the top of the bottom plate 2 is fixedly connected with a water tank 15, the arrangement of the L-shaped pipe 13 provides a communicating effect.

In one embodiment, the bottom end of the L-shaped pipe 13 extends into the water tank 15 to be communicated with and fixed with a first one-way valve 16, the bottom of the first one-way valve 16 is arranged to be open, the left end of the transverse pipe 14 extends into the water tank 15 to be communicated with and fixed with a second one-way valve 17, the right side of the second one-way valve 17 is arranged to be open, and the arrangement of the transverse pipe 14 plays a role in communication.

In one embodiment, the front side of the water tank 15 is communicated with and fixed with an L-shaped water inlet pipe 18, a moving plate 19 is sleeved in the water tank 15 in a sliding mode, a third one-way valve 20 is arranged in the water tank 15, the moving plate 19 is fixedly sleeved on the outer side of the third one-way valve 20, the right side of the third one-way valve 20 is provided with an opening, and the L-shaped water inlet pipe 18 is arranged to achieve the effect of water conveying.

In one embodiment, an L-shaped rod 21 is fixedly connected to the left side of the moving plate 19, the left side of the L-shaped rod 21 extends out of the water tank 15, a T-shaped rod 22 is fixedly connected to the left side of the water tank 15, the L-shaped rod 21 is slidably sleeved on the outer side of the T-shaped rod 22, a same spring 23 is fixedly connected between the inner wall of the left side of the L-shaped rod 21 and the left side of the water tank 15, the spring 23 is movably sleeved on the outer side of the T-shaped rod 22, and the T-shaped rod 22 is arranged to achieve the positioning effect.

In one embodiment, the left side of the L-shaped rod 21 is embedded with a ball 24, the top of the bottom plate 2 is fixedly connected with a first motor 25, the top end of the output shaft of the first motor 25 is fixedly connected with an eccentric wheel 26, the ball 24 is in rolling contact with the left side of the eccentric wheel 26, and the ball 24 is arranged to reduce friction.

In one embodiment, a moving mechanism 27 is arranged above the cooling mechanism 1, and the moving mechanism 27 comprises a support plate 28, a screw 29, a moving rod 30, a round rod 32, a positioning rod 33 and a second motor 34;

the top fixedly connected with backup pad 28 of bottom plate 2, the left side of backup pad 28 is rotated and is connected with screw rod 29, and the outside threaded connection of screw rod 29 has carriage release lever 30, and the left end fixedly connected with first rectangular block 31 of carriage release lever 30, the setting of screw rod 29 has played the dead effect of lock.

In one embodiment, two round rods 32 are fixedly connected to the right side of the first rectangular block 31, two positioning rods 33 are fixedly connected to the left side of the supporting plate 28, the round rods 32 are slidably sleeved on the outer sides of the corresponding positioning rods 33, and the positioning rods 33 are arranged to achieve the positioning effect.

In one embodiment, the second motor 34 is fixedly connected to the right side of the supporting plate 28, the end of the output shaft of the second motor 34 is fixedly connected to the right end of the screw 29, the second rectangular block 35 is fixedly connected to the left side of the first rectangular block 31, the circular block 36 is fixedly connected to the left side of the second rectangular block 35, the tapered groove 37 is formed in the left side of the circular block 36, and the second rectangular block 35 is arranged to achieve the connecting effect.

The model of the first motor 25 and the second motor 34 is 5IK4ORGN-C, a switch group for opening and closing the first motor 25 and the second motor 34 is fixedly connected to the front side of the water tank 15, and the switch group is connected with an external commercial power.

The invention also provides a cooling method of the cooling device for the ultra-fine insert, which comprises the following steps:

s1, separating the first insert 4 from the electronic part 5, moving the electronic part 5 to the left, movably sleeving the electronic part 5 on the outer side of the first insert 4, adding cooling water into the water tank 15 through the L-shaped water inlet pipe 18, and driving the first motor 25 through the switch group;

s2, in the S1, the first motor 25 works to drive the eccentric wheel 26 to rotate, the eccentric wheel 26 rotates for the first half circle to extrude the ball 24, and under the action of the extrusion force, the ball 24 drives the L-shaped rod 21 to move rightwards;

s3, in the S2 process, the L-shaped rod 21 drives the moving plate 19 to move in the process of moving rightwards, the L-shaped rod 21 slides on the outer side of the T-shaped rod 22, and the L-shaped rod 21 compresses the spring 23 in the process of moving;

s4, the moving plate 19 in the S3 moves to extrude water on the right side of the moving plate 19, under the action of the extrusion force, the water on the right side of the moving plate 19 enters the second one-way valve 17, the second one-way valve 17 discharges the water into the transverse pipe 14, the transverse pipe 14 discharges the water into one rectangular groove 7 on the lower side, one rectangular groove 7 on the lower side discharges the water into the corresponding through hole 8, and the through hole 8 discharges the water into the cavity 6;

s5, discharging water into an upper rectangular groove 7 through an upper through hole 8, discharging the water in the upper rectangular groove 7 into an L-shaped pipe 13, discharging the water into a first one-way valve 16 by the L-shaped pipe 13, and discharging the water into a water tank 15 by the first one-way valve 16;

s6, when the eccentric wheel 26 rotates to the rear half circle, the extrusion force on the ball 24 is released, the spring 23 in the compressed state is reset, the elastic force of the spring 23 drives the L-shaped rod 21 to move leftwards, and the L-shaped rod 21 drives the moving plate 19 to move leftwards;

s7, in the process that the moving plate 19 moves leftwards in the S6, water on the left side of the moving plate 19 is squeezed, under the action of the squeezing force, the water on the left side of the moving plate 19 enters the right side of the moving plate 19 through the third one-way valve 20, the first motor 25 continuously works, the water can enter the first insert 4 to achieve circulation, and the cooling effect is improved.

S8, when the electronic part 5 needs to be tightly pressed, the second motor 34 is started through the switch group, the second motor 34 works to drive the screw 29 to rotate, and the screw 29 rotates to drive the moving rod 30 to move leftwards;

s9, in the S8, the moving rod 30 drives the first rectangular block 31 to move, the first rectangular block 31 drives the second rectangular block 35 to move, and the second rectangular block 35 drives the circular block 36 to move, so that the tapered groove 37 is matched with the conical block 11, and the compression effect is achieved.

In one embodiment, according to the cooling apparatus and the cooling method for an extra-fine insert in claim 9, the first rectangular block 31 moves along the two round rods 32 during moving to the left, and the round rods 32 slide on the outer sides of the corresponding positioning rods 33, so as to achieve the effect of moving the round blocks 36 for compressing.

The invention is in operation: the first motor 25 works to drive the eccentric wheel 26 to rotate for the first half circle to extrude the ball 24, the ball 24 drives the moving plate 19 to move through the L-shaped rod 21, water enters the cavity 6 through the rectangular groove 7 at the lower part, the water is discharged into the L-shaped pipe 13 through the rectangular groove 7 at the upper part, the first motor 25 works continuously, the water can enter the first insert 4 to achieve circulation, and the cooling effect is improved;

the second motor 34 is started through the switch set to drive the screw 29 to rotate, the screw 29 rotates to drive the moving rod 30 to move leftwards, the moving rod 30 drives the second rectangular block 35 to move through the first rectangular block 31, and the second rectangular block 35 drives the circular block 36 to move, so that the conical groove 37 is matched with the conical block 11, and the compressing effect is achieved.

The above description is only for the specific embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive various changes or substitutions within the technical scope of the present invention, and these should be covered by the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.

Claims (10)

1. A cooling device for an extremely-long insert comprises a cooling mechanism (1) and a moving mechanism (27), and is characterized in that: the cooling mechanism (1) comprises a bottom plate (2), a vertical plate (3), a cavity (6), a rectangular groove (7), an L-shaped pipe (13), a transverse pipe (14) and a water tank (15);

the top of the bottom plate (2) is fixedly connected with a vertical plate (3), the right side of the vertical plate (3) is fixedly connected with a first insert (4), the outer side of the first insert (4) is movably sleeved with an electronic part (5), a cavity (6) is formed in the first insert (4), the left side of the first insert (4) is provided with two rectangular grooves (7), a same through hole (8) is formed between the inner wall of the right side of each rectangular groove (7) and the inner wall of the left side of the cavity (6), a copper plug (9) is fixedly sleeved in the cavity (6), the right side of the copper plug (9) is fixedly connected with a second insert (10), the right side of the electronic part (5) is fixedly connected with a conical block (11), the inner wall of the right side of the cavity (6) is provided with a conical hole (12), and the right end of the second insert (10) extends into the conical hole (12), the left side fixedly connected with L venturi tube (13) of first mold insert (4), L venturi tube (13) are linked together with one rectangular channel (7) that lie in the top in two rectangular channels (7), the left side fixedly connected with of first mold insert (4) violently manages (14), the top fixedly connected with water tank (15) of bottom plate (2).

2. The cooling device for the extremely fine insert according to claim 1, wherein: the bottom of L venturi tube (13) extends to and communicates in water tank (15) and is fixed with first check valve (16), the bottom of first check valve (16) sets up to the opening, the left end of violently managing (14) extends to and communicates in water tank (15) and is fixed with second check valve (17), the right side of second check valve (17) sets up to the opening.

3. The cooling device for the extremely fine insert according to claim 1, wherein: the front side intercommunication of water tank (15) is fixed with L shape inlet tube (18), it is equipped with movable plate (19) to slide the cover in water tank (15), be equipped with third check valve (20) in water tank (15), the fixed outside of establishing at third check valve (20) of movable plate (19) cover, the right side of third check valve (20) sets up to the opening.

4. The cooling device for the very fine insert according to claim 3, wherein: the left side fixedly connected with L shape pole (21) of movable plate (19), the left side of L shape pole (21) extends to outside water tank (15), the left side fixedly connected with T shape pole (22) of water tank (15), L shape pole (21) slip cap is established in the outside of T shape pole (22), the same spring (23) of fixedly connected with between the left side inner wall of L shape pole (21) and the left side of water tank (15), the outside at T shape pole (22) is established in spring (23) activity cover.

5. The cooling device for the very fine insert according to claim 4, wherein: the left side of the L-shaped rod (21) is embedded with a ball (24), the top of the bottom plate (2) is fixedly connected with a first motor (25), the top end of an output shaft of the first motor (25) is fixedly connected with an eccentric wheel (26), and the ball (24) is in rolling contact with the left side of the eccentric wheel (26).

6. The cooling device for the extremely fine insert according to claim 1, wherein: a moving mechanism (27) is arranged above the cooling mechanism (1), and the moving mechanism (27) comprises a supporting plate (28), a screw rod (29), a moving rod (30), a round rod (32), a positioning rod (33) and a second motor (34);

the top fixedly connected with backup pad (28) of bottom plate (2), the left side of backup pad (28) is rotated and is connected with screw rod (29), the outside threaded connection of screw rod (29) has carriage release lever (30), the left end fixedly connected with first rectangular block (31) of carriage release lever (30).

7. The cooling device for the very fine insert according to claim 6, wherein: two round bars (32) of right side fixedly connected with of first rectangle piece (31), two locating levers (33) of left side fixedly connected with of backup pad (28), round bar (32) slip cap is established in the outside of corresponding locating lever (33).

8. The cooling device for the very fine insert according to claim 6, wherein: the right side fixedly connected with second motor (34) of backup pad (28), the output shaft tip of second motor (34) and the right-hand member fixed connection of screw rod (29), the left side fixedly connected with second rectangular block (35) of first rectangular block (31), the left side fixedly connected with circular block (36) of second rectangular block (35), tapered groove (37) have been seted up in the left side of circular block (36).

9. A cooling method of a cooling device for an extremely-fine insert is characterized in that: the method comprises the following steps:

s1, separating the first insert (4) from the electronic part (5), moving the electronic part (5) leftwards, movably sleeving the electronic part (5) on the outer side of the first insert (4), adding cooling water into the water tank (15) through the L-shaped water inlet pipe (18), and then driving the first motor (25) through the switch group;

s2, in the S1, a first motor (25) works to drive an eccentric wheel (26) to rotate, the eccentric wheel (26) rotates for the first half circle to extrude the ball (24), and under the action of extrusion force, the ball (24) drives the L-shaped rod (21) to move rightwards;

s3, in the S2 process, the L-shaped rod (21) drives the moving plate (19) to move in the process of moving rightwards, the L-shaped rod (21) slides on the outer side of the T-shaped rod (22), and the L-shaped rod (21) compresses the spring (23) in the process of moving;

s4, the moving plate (19) in the S3 moves to extrude water on the right side of the moving plate (19), under the action of the extrusion force, the water on the right side of the moving plate (19) enters the second one-way valve (17), the second one-way valve (17) discharges the water into the transverse pipe (14), the transverse pipe (14) discharges the water into one rectangular groove (7) on the lower side, one rectangular groove (7) on the lower side discharges the water into the corresponding through hole (8), and the through hole (8) discharges the water into the cavity (6);

s5, discharging water into an upper rectangular groove (7) through an upper through hole (8), discharging the water in the upper rectangular groove (7) into an L-shaped pipe (13), discharging the water into a first one-way valve (16) by the L-shaped pipe (13), and discharging the water into a water tank (15) by the first one-way valve (16);

s6, when the eccentric wheel (26) rotates to the rear half circle, the extrusion force on the ball (24) is released, the spring (23) in the compressed state is reset, the elastic force of the spring (23) drives the L-shaped rod (21) to move leftwards, and the L-shaped rod (21) drives the moving plate (19) to move leftwards;

s7, in the process that the moving plate (19) moves leftwards in S6, water on the left side of the moving plate (19) is squeezed, under the action of the squeezing force, the water on the left side of the moving plate (19) enters the right side of the moving plate (19) through the third one-way valve (20), the first motor (25) works continuously, the water can enter the first insert (4) to achieve circulation, and the cooling effect is improved;

s8, when the electronic part (5) needs to be tightly pressed, the second motor (34) is started through the switch group, the second motor (34) works to drive the screw rod (29) to rotate, and the screw rod (29) rotates to drive the moving rod (30) to move leftwards;

s9, in the S8, the moving rod (30) drives the first rectangular block (31) to move, the first rectangular block (31) drives the second rectangular block (35) to move, and the second rectangular block (35) drives the circular block (36) to move, so that the conical groove (37) and the conical block (11) are matched and pressed tightly.

10. The method for cooling a cooling apparatus for an extremely fine insert according to claim 9, characterized in that: the first rectangular block (31) drives the two round rods (32) to move in the process of moving leftwards, and the round rods (32) slide on the outer sides of the corresponding positioning rods (33).

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