CN112355379A - Cooling device suitable for cutting of mechanical parts and using method thereof - Google Patents

Abstract

The invention discloses a cooling device suitable for cutting mechanical accessories and a using method thereof, and the cooling device comprises a bracket, a rotating driving source, a moving plate limited on the transverse moving direction, a swinging shaft rotatably connected to the surface of the moving plate, a mounting arm fixedly connected to the surface of the swinging shaft, a spray head fixedly connected to one end of the mounting arm far away from the swinging shaft, a water supply mechanism driving the water supply mechanism to continuously supply water to the spray head through the transverse reciprocating movement of the moving plate, and a transmission mechanism driving a rotary table to rotate through the rotation of a driving part of the rotating driving source under the action of the transmission mechanism. On one hand, the invention can realize the effects of moving the spray head and supplying water to the spray head through a single driving source, thereby having better practicability and higher efficiency; on the other hand, when the spray head moves leftwards or rightwards, water can be sprayed, and the heat dissipation efficiency of the surface of the cutting knife is improved.

Description

Cooling device suitable for cutting of mechanical parts and using method thereof

Technical Field

The invention relates to the technical field of accessory cutting assistance, in particular to a cooling device suitable for cutting a mechanical accessory and a using method thereof.

Background

The automobile parts are all units forming the whole automobile and serve as a product of the automobile, and with the improvement of the living standard of people, people consume the automobile more and more, and the market of the automobile parts is also larger and larger. Since automobile parts are various in types and shapes, they are often required to be cut including knife cutting when manufacturing the automobile parts.

However, the existing cutter is inconvenient to cool the blade, so that the service life of the blade is shortened, and the cutting effect is influenced.

Disclosure of Invention

The invention aims to provide a cooling device suitable for cutting mechanical parts and a using method thereof, which have the effects that on one hand, the movement of a spray head and the water supply to the spray head can be realized through a single driving source, the practicability is better, and the efficiency is higher; on the other hand shower nozzle all can spray water when moving left or right side, has improved the radiating efficiency on cutter surface, has solved that current cutter cutting is inconvenient to cool off the blade, has shortened the life of blade, and then influences the problem of cutting effect.

In order to achieve the purpose, the invention provides the following technical scheme: the cooling device suitable for cutting of mechanical parts comprises a support and a rotating driving source, wherein the rotating driving source is arranged on the surface of the support, a cutter is fixedly connected to a driving part of the rotating driving source, a rotating shaft is rotatably connected to the surface of the support, a rotating disc is fixedly connected to the surface of the rotating shaft, a connecting arm is hinged to the surface of the rotating disc, a swinging shaft is fixedly connected to one end, far away from the rotating disc, of the connecting arm, a moving plate limited in the transverse moving direction is further included, the swinging shaft is rotatably connected to the surface of the moving plate, an installation arm is fixedly connected to the surface of the swinging shaft, and a spray head is fixedly connected to one end, far away from the swinging;

the water supply mechanism is driven to continuously supply water to the spray head through the transverse reciprocating movement of the moving plate;

the rotary table further comprises a transmission mechanism, and the transmission mechanism drives the rotary table to rotate through the rotation of the drive part of the rotary drive source.

Preferably, the water supply mechanism comprises a water storage tank which is fixedly connected to the surface of the bracket, the surface of the bracket is fixedly connected with a conveying block, a piston cavity is arranged inside the conveying block, the conveying block is connected with a first piston through the piston cavity in a sliding manner, the side surface of the first piston is fixedly connected with a first piston rod, a first through hole for the first piston rod to penetrate out and slide is formed in the side surface of the conveying block, a connecting plate is fixedly connected to one end of the first piston rod, which is far away from the first piston, the connecting plate is fixedly connected to the surface of the moving plate, a one-way valve I and a one-way valve II are fixedly communicated between the water storage tank and the piston I cavity together, the surface of the spray head is fixedly communicated with a hose, one end of the hose far away from the spray head is fixedly communicated with a circulating pipe, and a one-way valve III and a one-way valve IV are fixedly communicated between the circulation pipe and the piston cavity I.

Preferably, the transmission mechanism includes a belt, and the belt is drivingly connected between a surface of the turntable and a driving section of the rotary drive source.

Preferably, the driving part of the rotation driving source is provided with an adjusting mechanism for automatically adjusting the transmission ratio of the two ends of the belt, and when the cutter is heated up, the rotating speed of the turntable is increased under the action of the adjusting mechanism, and vice versa.

Preferably, the adjustment mechanism includes the heat conduction ring, heat conduction ring fixed connection be in the surface of rotation drive source drive division, the heat conduction ring with common fixedly connected with heat-conducting plate between the cutter, the fixed surface of heat conduction ring is connected with the barrel that is the annular array and distributes, the inner wall sliding connection of barrel has piston two, piston two deviates from one side fixedly connected with piston rod two of heat conduction ring, the surface of barrel is offered and is used for piston rod two wears out and gliding through-hole two, piston rod two keeps away from the one end fixedly connected with of piston two supports the compression leg, support the compression leg the surface with the internal surface butt of belt, be provided with the mercury medium in the barrel, the mercury medium with the surface of heat conduction ring contacts.

Preferably, the surface of the bracket is fixedly connected with a fixed plate, the side surface of the fixed plate is fixedly connected with a limiting rod, and the movable plate is sleeved on the surface of the limiting rod.

Preferably, the spray head is an atomizing spray head.

Preferably, the rotation driving source is a motor.

The invention provides the following methods of use: a use method of a cooling device suitable for cutting a mechanical part comprises the following steps,

s1: when the cutter is driven to rotate by the driving part of the rotary driving source, the spray head can be synchronously driven to swing while reciprocating and transversely moving, and the spray head sprays water to the direction of the cutter;

s2: after the cutter is used, the rotary driving source is closed.

Compared with the prior art, the invention has the following beneficial effects:

the rotary table is driven to rotate by taking the rotating shaft as a circle center through the rotation of the rotary driving source driving part and the transmission of the belt, the movable plate is driven to transversely reciprocate through the rotation of the rotary table and the transmission of the connecting arm, and the nozzle is driven to transversely reciprocate through the transverse reciprocating movement of the movable plate, so that the spraying area of the nozzle is increased, and the heat dissipation efficiency of the surface of the beveling knife is improved.

The swinging mechanism drives the swinging shaft to swing while moving back and forth along with the moving plate through the rotation of the rotary disc, the fixed relation between the connecting arm and the swinging shaft and the rotating relation between the swinging shaft and the moving plate, the swinging direction of the swinging shaft at each time is generally consistent with the moving direction of the moving plate, the swinging shaft swings to drive the mounting arm to swing, the mounting arm swings to drive the spray head to swing, and the swinging direction of the spray head at each time is generally consistent with the moving direction of the moving plate, so that the spraying area of the spray head is further increased, and the heat dissipation efficiency of the surface of the beveling knife is further improved.

Thirdly, the connecting plate is driven to transversely reciprocate by the transverse reciprocating movement of the moving plate, the piston rod is driven to transversely reciprocate by the transverse reciprocating movement of the connecting plate, the piston rod transversely reciprocates to drive the piston I to transversely reciprocate, the piston I transversely reciprocates and is combined with the figure, so that when the piston I moves leftwards or rightwards, water in the water storage tank can be pumped into the piston cavity through the check valve II or the check valve I, and when the piston I moves leftwards or rightwards, the water in the piston cavity can be pressed into the circulating pipe through the check valve III or the check valve IV, then flows into the sprayer through the circulating pipe and the hose and is sprayed out of the sprayer, so that the sprayer movement and the effect of supplying water to the sprayer can be realized through a single driving source, the practicability is better, and the efficiency is higher; on the other hand, when the spray head moves leftwards or rightwards, water can be sprayed, and the heat dissipation efficiency of the surface of the cutting knife is improved.

Fourthly, the invention, along with the rise of the surface temperature of the cutter, leads the mercury medium to be heated and expanded through the heat transfer of the heat conducting plate and the heat conducting ring, pushes each piston two to move towards the direction far away from the heat conducting ring through the heat expansion of the mercury medium, drives each piston rod two to move towards the direction far away from the heat conducting ring through each piston two moving towards the direction far away from the heat conducting ring, drives each pressure column to move towards the direction far away from the heat conducting ring through each piston rod two, increases the transmission ratio between one end of the belt close to the heat conducting ring and one end of the belt close to the turntable through the relationship that each pressure column moves towards the direction far away from the heat conducting ring and the surface of the pressure column is abutted against the inner surface of the belt, further increases the rotation speed of the turntable, increases the transverse reciprocating movement speed of the piston by increasing the transverse reciprocating movement speed of the piston one, the spray rate of the spray head is increased, so that the spray rate of the spray head is increased relatively along with the increase of the temperature of the surface of the cutter, and the heat dissipation efficiency of the surface of the cutter is further improved.

Drawings

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

FIG. 2 is a first elevational view of the structure of the present invention;

FIG. 3 is an enlarged view of the structure of FIG. 2;

FIG. 4 is a right side view of the structure of the present invention;

fig. 5 is a second elevational view of the structure of the present invention.

In the figure: 1-bracket, 2-rotation driving source, 3-cutter, 4-rotating shaft, 5-rotating disc, 6-connecting arm, 7-oscillating shaft, 8-moving plate, 9-mounting arm, 10-spray head, 11-water storage tank, 12-conveying block, 13-piston I, 14-piston rod I, 15-one-way valve I, 16-one-way valve II, 17-hose, 18-circulating pipe, 19-one-way valve III, 20-one-way valve IV, 21-belt, 22-heat conducting ring, 23-heat conducting plate, 24-barrel, 25-piston II, 26-piston rod II, 27-pressing column, 28-mercury medium, 29-fixing plate, 30-limiting rod and 31-connecting plate.

Detailed Description

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

Referring to fig. 1 to 5, the present invention provides a technical solution: the utility model provides a be applicable to cooling device for machine parts cutting, includes support 1 and rotation drive source 2, rotation drive source 2 sets up the surface of support 1, the drive division fixedly connected with cutter 3 of rotation drive source 2, the surface of support 1 rotates and is connected with pivot 4, the fixed surface of pivot 4 is connected with carousel 5, the surface of carousel 5 articulates there is linking arm 6, linking arm 6 keeps away from the one end fixedly connected with oscillating axle 7 of carousel 5, still includes and is restricted the movable plate 8 on the lateral shifting direction, oscillating axle 7 rotates and connects in the surface of movable plate 8, the fixed surface of oscillating axle 7 is connected with installation arm 9, installation arm 9 keeps away from the one end fixedly connected with shower nozzle 10 of oscillating axle 7, still includes water supply mechanism, through the lateral reciprocating of movable plate 8, the water supply mechanism is driven to continuously supply water to the spray head 10, the water supply mechanism further comprises a transmission mechanism, the rotary table 5 is driven to rotate under the action of the transmission mechanism through the rotation of the driving part of the rotary driving source 2, when the cutter 3 is driven to rotate and used through the driving part of the rotary driving source 2, the rotary table 5 is driven to rotate by taking the rotary shaft 4 as a circle center under the action of the transmission mechanism, the movable plate 8 is driven to transversely reciprocate through the rotation of the rotary table 5 and the transmission of the connecting arm 6, the spray head 10 is driven to transversely reciprocate through the transverse reciprocating movement of the movable plate 8, the spraying area of the spray head 10 is increased, and the heat dissipation efficiency of the surface of the cutter 3 is improved; the rotating disc 5 rotates, the swinging shaft 7 is driven to swing along with the transverse reciprocating movement of the moving plate 8 through the fixed relation between the connecting arm 6 and the swinging shaft 7 and the rotating relation between the swinging shaft 7 and the moving plate 8, the swinging direction of the swinging shaft 7 at each time is generally consistent with the moving direction of the moving plate 8, the swinging shaft 7 swings to drive the mounting arm 9 to swing, the mounting arm 9 swings to drive the spray head 10 to swing, the swinging direction of the spray head 10 at each time is generally consistent with the moving direction of the moving plate 8, the spraying area of the spray head 10 is further increased, and the heat dissipation efficiency of the surface of the cutting knife 3 is further increased; the movable plate 8 transversely reciprocates to drive the water supply mechanism to continuously supply water to the spray head 10, so that the effects of moving the spray head 10 and supplying water to the spray head 10 through a single driving source are achieved, the practicability is better, and the efficiency is higher; on the other hand, when the spray head 10 moves leftwards or rightwards, water can be sprayed, and the heat dissipation efficiency of the surface of the slicing knife 3 is improved.

The water supply mechanism comprises a water storage tank 11, the water storage tank 11 is fixedly connected to the surface of the support 1, the surface of the support 1 is fixedly connected with a conveying block 12, a piston cavity is formed in the conveying block 12, the conveying block 12 is slidably connected with a piston 13 through the piston cavity, a piston rod 14 is fixedly connected to the side surface of the piston 13, a through hole I for the piston rod 14 to penetrate out and slide is formed in the side surface of the conveying block 12, a connecting plate 31 is fixedly connected to one end, far away from the piston 13, of the piston rod 14, the connecting plate 31 is fixedly connected to the surface of the moving plate 8, a one-way valve I15 and a one-way valve II 16 are fixedly communicated between the water storage tank 11 and the piston cavity together, a hose 17 is fixedly communicated to the surface of the spray head 10, and a circulation pipe 18 is fixedly communicated to one end, far away from the, the three-way valve 19 and the four-way valve 20 are fixedly communicated between the circulation pipe 18 and the piston cavity, the moving plate 8 transversely reciprocates to drive the connecting plate 31 to transversely reciprocate, the connecting plate 31 transversely reciprocates to drive the piston rod 14 to transversely reciprocate, the piston rod 14 transversely reciprocates to drive the piston 13 transversely to reciprocate, the piston 13 transversely reciprocates to pump water in the water storage tank 11 into the piston cavity through the two-way valve 16 or the one-way valve 15 when the piston 13 moves leftwards or rightwards and is combined with the graph shown in fig. 5, and the water in the piston cavity can be pressed into the circulation pipe 18 through the three-way valve 19 or the four-way valve 20 when the piston 13 moves leftwards or rightwards and is then flowed into the spray head 10 through the circulation pipe 18 and the hose 17, so that the water can be continuously sprayed out of the spray head 10.

Drive mechanism includes belt 21, belt 21 transmission is connected the surface of carousel 5 with between the drive division of rotation driving source 2, through the rotation of rotation driving source 2 drive division and the transmission through belt 21, can drive carousel 5 and use pivot 4 to rotate as the centre of a circle.

The driving part of the rotating driving source 2 is provided with an adjusting mechanism for automatically adjusting the transmission ratio of two ends of the belt 21, when the temperature of the cutter 3 is increased, the rotating speed of the rotary table 5 is increased under the action of the adjusting mechanism, and vice versa, the rotating speed of the rotary table 5 is increased along with the increase of the surface temperature of the cutter 3, the rotating speed of the rotary table 5 is increased, the transverse reciprocating movement speed of the piston I13 is increased by increasing the rotating speed of the rotary table 5, the water spraying speed of the spray head 10 is increased along with the increase of the surface temperature of the cutter 3, the water spraying speed of the spray head 10 is also increased relatively, and the heat dissipation efficiency of the surface of the cutter 3 is further increased.

The adjusting mechanism comprises a heat conducting ring 22, the heat conducting ring 22 is fixedly connected to the surface of a driving part of the rotary driving source 2, a heat conducting plate 23 is fixedly connected between the heat conducting ring 22 and the cutter 3, a cylinder 24 distributed in an annular array is fixedly connected to the surface of the heat conducting ring 22, a piston two 25 is connected to the inner wall of the cylinder 24 in a sliding manner, a piston rod two 26 is fixedly connected to one side of the piston two 25, which is far away from the heat conducting ring 22, a through hole two is formed in the surface of the cylinder 24 and used for the piston rod two 26 to penetrate out and slide, a pressure column 27 is fixedly connected to one end, far away from the piston two 25, of the piston rod two 26, the surface of the pressure column 27 is abutted to the inner surface of the belt 21, a mercury medium 28 is arranged in the cylinder 24, the mercury medium 28 is in contact with the surface of the, through the heat transfer of heat-conducting plate 23 and heat-conducting ring 22, make mercury medium 28 thermal expansion, thermal expansion is received through mercury medium 28, promote each two 25 of pistons all to keeping away from heat-conducting ring 22 direction and remove, all move to keeping away from heat-conducting ring 22 direction through each two 25 of pistons, drive each two 26 of piston rods all to keeping away from heat-conducting ring 22 direction and remove, all move to keeping away from heat-conducting ring 22 direction through each two 26 of piston rods, it all moves to keeping away from heat-conducting ring 22 direction to drive each to support the pressure post 27, all move and through the relation of the surface of supporting pressure post 27 and the belt 21 internal surface butt, the drive ratio between the one end of belt 21 near heat-conducting ring 22 and belt 21 near carousel 5 one end has been increased, then can improve the rotational speed of carousel 5.

The surface of the support 1 is fixedly connected with a fixed plate 29, the side surface of the fixed plate 29 is fixedly connected with a limiting rod 30, the movable plate 8 is sleeved on the surface of the limiting rod 30, and the movable plate 8 can be limited in the transverse moving direction through the sleeved relation between the movable plate 8 and the limiting rod 30.

The spray head 10 is an atomizing spray head, and water sprayed by the spray head 10 is atomized through the arrangement of the atomizing spray head, so that the atomized water can be fully contacted with the surface of the cutter 3, and the heat dissipation efficiency of the cutter 3 is further improved.

The rotation drive source 2 is a motor.

Referring to fig. 1 to 5, the present invention provides a method of using: a use method of a cooling device suitable for cutting a mechanical part comprises the following steps,

s1: when the cutter 3 is driven to rotate by the driving part of the rotary driving source 2, the spray head 10 can be synchronously driven to swing while reciprocating and transversely moving, and the spray head 10 sprays water to the direction of the cutter 3;

s2: after the cutter 3 is used, the rotary driving source 2 is closed.

The working principle is as follows: when the cooling device for cutting mechanical parts drives the cutter 3 to rotate through the driving part of the rotary driving source 2 and is used, the rotary table 5 is driven to rotate by taking the rotary shaft 4 as the center of a circle through the rotation of the driving part of the rotary driving source 2 and the transmission of the belt 21, the movable plate 8 is driven to transversely reciprocate through the rotation of the rotary table 5 and the transmission of the connecting arm 6, the nozzle 10 is driven to transversely reciprocate through the transverse reciprocating movement of the movable plate 8, the spraying area of the nozzle 10 is increased, and the heat dissipation efficiency of the surface of the cutter 3 is improved;

the rotating disc 5 rotates, the swinging shaft 7 is driven to swing along with the transverse reciprocating movement of the moving plate 8 through the fixed relation between the connecting arm 6 and the swinging shaft 7 and the rotating relation between the swinging shaft 7 and the moving plate 8, the swinging direction of the swinging shaft 7 at each time is generally consistent with the moving direction of the moving plate 8, the swinging shaft 7 swings to drive the mounting arm 9 to swing, the mounting arm 9 swings to drive the spray head 10 to swing, the swinging direction of the spray head 10 at each time is generally consistent with the moving direction of the moving plate 8, the spraying area of the spray head 10 is further increased, and the heat dissipation efficiency of the surface of the cutting knife 3 is further increased;

the movable plate 8 transversely reciprocates to drive the connecting plate 31 to transversely reciprocate, the connecting plate 31 transversely reciprocates to drive the piston rod 14 to transversely reciprocate, the piston rod 14 transversely reciprocates to drive the piston I13 to transversely reciprocate, the piston I13 transversely reciprocates and is combined with the structure shown in figure 5, when the piston I13 moves leftwards or rightwards, water in the water storage tank 11 can be pumped into the piston cavity through the check valve II 16 or the check valve I15, and when the piston I13 moves leftwards or rightwards, the water in the piston cavity can be pressed into the circulating pipe 18 through the check valve III 19 or the check valve IV 20, then flows into the spray head 10 through the circulating pipe 18 and the hose 17, and is sprayed out by the spray head 10, so that the effects of realizing the movement of the spray head 10 and supplying water to the spray head 10 through a single driving source are achieved on one hand, the practicability is better, the efficiency is higher; on the other hand, when the spray head 10 moves leftwards or rightwards, water can be sprayed, and the heat dissipation efficiency of the surface of the slicing knife 3 is improved;

along with the rise of the surface temperature of the cutter 3, the mercury medium 28 is heated and expanded through the heat transfer of the heat conducting plate 23 and the heat conducting ring 22, each piston two 25 is pushed to move towards the direction far away from the heat conducting ring 22 through the heat expansion of the mercury medium 28, each piston two 25 is driven to move towards the direction far away from the heat conducting ring 22 through the movement of each piston two 25, each piston rod two 26 is driven to move towards the direction far away from the heat conducting ring 22, each pressure resisting column 27 is driven to move towards the direction far away from the heat conducting ring 22, the transmission ratio between one end, close to the heat conducting ring 22, of the belt 21 and one end, close to the turntable 5, of the belt 21 is increased through the abutting relationship between the surface of each pressure resisting column 27 and the inner surface of the belt 21, the rotating speed of the turntable 5 is increased, the transverse reciprocating movement rate of the piston one 13 is increased through the increase of the rotating speed of the turntable 5, by increasing the transverse reciprocating speed of the first piston 13 and the water spraying speed of the spray head 10, the water spraying speed of the spray head 10 is increased relatively along with the increase of the surface temperature of the cutter 3, and the heat dissipation efficiency of the surface of the cutter 3 is further improved.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments 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. The utility model provides a be applicable to cooling device for machine parts cutting, includes support (1) and rotation drive source (2), rotation drive source (2) set up the surface of support (1), the drive division fixedly connected with cutter (3) of rotation drive source (2), its characterized in that: the surface of the support (1) is rotatably connected with a rotating shaft (4), the surface of the rotating shaft (4) is fixedly connected with a rotating disc (5), the surface of the rotating disc (5) is hinged with a connecting arm (6), one end, far away from the rotating disc (5), of the connecting arm (6) is fixedly connected with a swinging shaft (7), the surface of the rotating disc further comprises a moving plate (8) limited in the transverse moving direction, the swinging shaft (7) is rotatably connected to the surface of the moving plate (8), the surface of the swinging shaft (7) is fixedly connected with a mounting arm (9), and one end, far away from the swinging shaft (7), of the mounting arm (9) is fixedly connected with a spray head (10);

the water supply mechanism is driven to continuously supply water to the spray head (10) through the transverse reciprocating movement of the moving plate (8);

the rotary table further comprises a transmission mechanism, and the rotary table (5) is driven to rotate by the rotation of the driving part of the rotary driving source (2) under the action of the transmission mechanism.

2. The cooling device for machine part cutting as set forth in claim 1, wherein: the water supply mechanism comprises a water storage tank (11), the water storage tank (11) is fixedly connected to the surface of the support (1), the surface of the support (1) is fixedly connected with a conveying block (12), a piston cavity is formed in the conveying block (12), the conveying block (12) is connected with a first piston (13) through the piston cavity in a sliding manner, a first piston rod (14) is fixedly connected to the side surface of the first piston (13), a first through hole used for the first piston rod (14) to penetrate out and slide is formed in the side surface of the conveying block (12), a connecting plate (31) is fixedly connected to one end, far away from the first piston (13), of the first piston rod (14), the connecting plate (31) is fixedly connected to the surface of the moving plate (8), and a first check valve (15) and a second check valve (16) are fixedly communicated between the water storage tank (11) and the first piston cavity together, the surface of the spray head (10) is fixedly communicated with a hose (17), one end, far away from the spray head (10), of the hose (17) is fixedly communicated with a circulating pipe (18), and a one-way valve III (19) and a one-way valve IV (20) are fixedly communicated between the circulating pipe (18) and the piston cavity.

3. The cooling device for machine part cutting according to any one of claims 1 or 2, wherein: the transmission mechanism comprises a belt (21), and the belt (21) is in transmission connection between the surface of the turntable (5) and the driving part of the rotary driving source (2).

4. The cooling device for machine part cutting as set forth in claim 3, wherein: the drive part of the rotary drive source (2) is provided with an adjusting mechanism for automatically adjusting the transmission ratio of the two ends of the belt (21), and when the cutter (3) is heated up, the rotating speed of the turntable (5) is increased under the action of the adjusting mechanism, and vice versa.

5. The cooling device for machine part cutting as set forth in claim 4, wherein: the adjusting mechanism comprises a heat conducting ring (22), the heat conducting ring (22) is fixedly connected to the surface of a driving part of the rotating driving source (2), a heat conducting plate (23) is fixedly connected between the heat conducting ring (22) and the cutter (3) together, the surface of the heat conducting ring (22) is fixedly connected with a cylinder body (24) distributed in an annular array manner, the inner wall of the cylinder body (24) is connected with a second piston (25) in a sliding manner, one side of the second piston (25) departing from the heat conducting ring (22) is fixedly connected with a second piston rod (26), a second through hole used for the second piston rod (26) to penetrate out and slide is formed in the surface of the cylinder body (24), one end of the second piston rod (26) far away from the second piston (25) is fixedly connected with a pressing column (27), and the surface of the pressing column (27) is abutted to the inner surface of, a mercury medium (28) is arranged in the cylinder body (24), and the mercury medium (28) is in contact with the surface of the heat conduction ring (22).

6. The cooling device for machine part cutting as claimed in any one of claims 1, 2, 4 or 5, wherein: the surface of the support (1) is fixedly connected with a fixing plate (29), the side surface of the fixing plate (29) is fixedly connected with a limiting rod (30), and the moving plate (8) is sleeved on the surface of the limiting rod (30).

7. The cooling device for machine part cutting as claimed in any one of claims 1, 2, 4 or 5, wherein: the spray head (10) is an atomizing spray head.

8. The cooling device for machine part cutting as set forth in claim 1, wherein: the rotary driving source (2) is a motor.

9. The use method of the cooling device for cutting the mechanical accessory according to claim 1, characterized by comprising the following steps,

s1: when the cutter (3) is driven to rotate by the driving part of the rotary driving source (2), the spray head (10) can be synchronously driven to reciprocate and swing while moving transversely, and the spray head (10) sprays water to the direction of the cutter (3);

s2: after the cutter (3) is used, the rotary driving source (2) is closed.

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