CN117601326A

CN117601326A - Cooling mechanism and electrician-grade polypropylene coating production line

Info

Publication number: CN117601326A
Application number: CN202311681556.7A
Authority: CN
Inventors: 宋文行; 宋文兰; 夏兆阳; 曹朝志; 李冰
Original assignee: Hebei Zhongxin Hydrogen Energy Materials Co ltd; Hebei Hainan Petrochemical New Material Co ltd
Current assignee: Hebei Zhongxin Hydrogen Energy Materials Co ltd; Hebei Hainan Petrochemical New Material Co ltd
Priority date: 2023-12-08
Filing date: 2023-12-08
Publication date: 2024-02-27

Abstract

The invention relates to the technical field of cooling, in particular to a cooling mechanism and an electrical grade polypropylene coating layer production line, which comprise a conveying control motor, a conveying roller, a cooling assembly and a cooling auxiliary assembly; the device mainly comprises a conveying roller arranged in a cavity of a device main body for conveying a coating film in a transmission way, and a cooling assembly arranged for cooling the upper side and the lower side of the coating film in an induced draft way in the conveying process for absorbing heat; furthermore, the cooling auxiliary assembly is arranged on the supporting tube body, so that impurities on the coating film are absorbed while the coating film is subjected to heat absorption and cooling, and the high-efficiency heat dissipation and the product quality are ensured; therefore, the invention solves the problem that the polypropylene coating film lacks an adaptive high-efficiency cooling mechanism in the prior art, and can improve the cooling work efficiency.

Description

Cooling mechanism and electrician-grade polypropylene coating production line

Technical Field

The invention relates to the technical field of cooling, in particular to a cooling mechanism and an electrical grade polypropylene coating production line.

Background

Polypropylene is a polymer of propylene by addition polymerization; the white wax-like material has transparent appearance and light and wide application, and polypropylene is thermoplastic synthetic resin with excellent performance, is colorless semitransparent thermoplastic light general plastic, and has chemical resistance, heat resistance, electrical insulation, high strength mechanical property, good high wear resistance processing property and the like; the product is widely applied to the production of fiber products such as clothing, blanket, medical appliances, automobiles, bicycles, parts, conveying pipelines, chemical containers and the like, and is also used for the packaging of foods and medicines; the polypropylene resin is one of four general thermoplastic resins (polyethylene, polyvinyl chloride, polypropylene and polystyrene), and is produced by polymerization reaction with propylene as raw material and ethylene as comonomer.

In the production and manufacturing process of the polypropylene coating film, the finished product after thermoplastic molding is required to be cooled, so that the subsequent processing treatment is convenient to accelerate; either naturally cooling the finished product or cooling by blowing air after thermoplastic molding and discharging, the cooling work efficiency is low, and impurities are not changed if the finished product is adhered to the finished product in the cooling process, so that the cooling efficiency and the product quality are affected; the lack of an adaptive efficient cooling mechanism for the polypropylene coating film in the prior art affects the subsequent processing progress and has negative influence on the overall processing benefit.

Therefore, a cooling mechanism and an electrical grade polypropylene coating production line are needed to solve the problem that the polypropylene coating lacks an adaptive efficient cooling mechanism in the prior art, so as to improve the cooling working efficiency.

Disclosure of Invention

The invention aims to provide a cooling mechanism and an electrical grade polypropylene coating production line, so as to solve the problem that a polypropylene coating film lacks an adaptive high-efficiency cooling mechanism in the prior art, and improve the cooling work efficiency.

In order to achieve the above purpose, the present invention provides the following technical solutions: a cooling mechanism comprises a conveying control motor, a conveying roller, a cooling assembly and a cooling auxiliary assembly; the utility model discloses a device, including equipment main part, conveying control motor, cooling module, connecting axle, connecting roller, conveying control motor symmetry is fixed to be set up in one side of equipment main part, be provided with the cavity in the equipment main part, the one end connection of conveying control motor is provided with the connecting axle, the one end of connecting axle extends to in the cavity, and the fixed conveying roller that is provided with of tip, two conveying roller sets up from top to bottom, and it carries the coating film, cooling module sets up in the cavity, and cooling module sets up the avris position at conveying roller, and cooling module sets up with the cooling auxiliary assembly and is connected.

Preferably, the cooling assembly comprises an air suction pipeline, a connecting box body, a supporting pipe body, an air vent, a connecting bearing, a mounting seat, a connecting inner pipe, a filter mesh, a storage pipe body, a regulating sleeve, a fixing plate and a telescopic control rod; the utility model discloses a cooling auxiliary assembly, including equipment main part, connecting box body, telescopic control rod, connecting box body, telescopic control rod, adjusting sleeve and adjusting sleeve, the one end of the pipeline that breathes in runs through setting up in one side of equipment main part, and the one end of pipeline that breathes in extends to the cavity, and the end connection of pipeline that breathes in is provided with the connection box body, one side equidistance of connecting box body is provided with the connector, the connector position connection is provided with the stay tube body, the equidistance of connecting box body is provided with the connector, the one end of extension control rod is fixedly provided with fixed plate, the one end of extension control rod extends to the stay tube body in the fixed plate, the end carries out fixed connection with fixed plate, the outer lateral wall connection of stay tube is provided with the cooling auxiliary assembly.

Preferably, the vent holes are equidistantly arranged on the support tube body in an annular shape, and are equidistantly arranged in a straight line by taking the annular shape as a unit.

Preferably, the filter meshes are equidistantly arranged in a ring shape on the connecting inner pipe and are equidistantly arranged in a straight line by taking the ring shape as a unit; the filter mesh corresponds to the vent hole.

Preferably, the connecting inner tube is arranged in the inner cavity of the supporting tube body, and the connecting inner tube and the supporting tube body are corresponding in arrangement position and same in arrangement group number; the support pipe bodies are movably arranged through the connecting bearings, and the two support pipe bodies are arranged into a group to be arranged up and down.

Preferably, the axes of the supporting pipe body and the connecting inner pipe are on the same straight line, the regulating sleeve is movably arranged in the supporting pipe body, a movable cavity is formed between the inner side of the supporting pipe body and the outer side of the connecting inner pipe, the regulating sleeve is movably arranged in the movable cavity, and the regulating sleeve is provided with one regulating sleeve.

Preferably, the cooling auxiliary assembly comprises a support column piece, a placing groove, a limiting chute, a movable body, an auxiliary spring, a limiting sliding block, a connecting ball body, a connecting clamping groove, a fixed magnetic sheet, a cleaning auxiliary cap, a connecting clamping body and a positioning magnetic sheet; the support column piece is equidistantly and fixedly arranged on the outer side wall of the support tube and arranged at the side position of the vent hole, the end part of one end of the support column piece is provided with a placing groove, the inner side wall of the placing groove is symmetrically provided with a limiting chute, the movable body is movably inserted in the placing groove, two sides of the bottom end of the movable body are symmetrically and fixedly provided with limiting sliding blocks, the limiting sliding blocks are corresponding to the setting positions of the limiting chute, the number of the setting groups is the same, the two limiting sliding blocks are in adaptive sliding connection, the bottom mounting of the movable body is provided with auxiliary spring, in the fixed standing groove that is provided with of one end of auxiliary spring, the other end of the movable body extends to the standing groove outside, and end fixing is provided with the connection spheroid, the spheroid head of connection is provided with the connection draw-in groove, fixedly provided with fixed magnetic sheet in the connection draw-in groove, the inboard middle part position of clean auxiliary cap is fixed and is provided with the connection card body, the end fixing of connection card body is provided with the location magnetic sheet.

Preferably, the cleaning auxiliary cap is hemispherical, the cleaning auxiliary cap is corresponding to the setting positions of the connecting ball body, the movable body and the support column, the number of the setting groups is the same, the inner radius of the cleaning auxiliary cap is equal to the radius of the connecting ball body, and the cleaning auxiliary cap is closely matched with the outer side wall of the connecting ball body.

Preferably, the connecting clamp body corresponds to the connecting clamp groove in setting position and has the same setting group number, the connecting clamp body is in adaptive clamping connection with the connecting clamp groove, the positioning magnetic sheet corresponds to the fixed magnetic sheet in setting position and has the same setting group number, and the positioning magnetic sheet and the fixed magnetic sheet are attracted to each other.

An electrical grade polypropylene coating production line comprises a cooling mechanism.

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

the invention relates to a cooling device for a polypropylene coating production line, which is mainly characterized in that a conveying roller is arranged in a cavity of an equipment main body to carry out transmission conveying on a coating film, and the upper side and the lower side of the coating film in the conveying process are subjected to induced draft cooling through a cooling assembly so as to absorb heat; furthermore, the cooling auxiliary assembly is arranged on the supporting tube body, so that impurities on the coating film are absorbed while the coating film is subjected to heat absorption and cooling, and the high-efficiency heat dissipation and the product quality are ensured; therefore, the invention solves the problem that the polypropylene coating film lacks an adaptive high-efficiency cooling mechanism in the prior art, and can improve the cooling work efficiency.

Drawings

FIG. 1 is a schematic diagram showing the structural connection of a cooling device for a polypropylene coating layer according to the present invention;

FIG. 2 is a schematic diagram showing the connection of the internal structure of the cooling device according to the present invention;

FIG. 3 is a schematic left side view of a cooling module and cooling module assembly connection according to the present invention;

FIG. 4 is an enlarged schematic view of the structural connection at A in FIG. 3 according to the present invention;

FIG. 5 is a right side schematic view of the structural connection of the cooling module and the cooling auxiliary module according to the present invention;

FIG. 6 is a right side schematic view of a storage tube and support tube structure connection in the cooling assembly of the present invention;

FIG. 7 is a left side schematic view of a structural connection of a storage tube and a support tube in the cooling assembly of the present invention;

FIG. 8 is an enlarged schematic view of the structural connection at B in FIG. 7 in accordance with the present invention;

FIG. 9 is a schematic diagram showing the connection of the cooling auxiliary assembly structure of the present invention;

FIG. 10 is a schematic view showing the connection of the cleaning auxiliary cap and the connection sphere structure in the cooling auxiliary assembly of the present invention.

In the figure: the device comprises a device body 1, a chamber 2, a coating film 3, a conveying control motor 4, a connecting shaft 5, a conveying roller 6, a cooling assembly 7, an air suction pipe 701, a connecting box body 702, a supporting pipe body 703, an air vent 704, a connecting bearing 705, a mounting seat 706, a connecting inner pipe 707, a filter mesh 708, a storage pipe body 709, a regulating sleeve 710, a fixing plate 711, a telescopic control rod 712, a cooling auxiliary assembly 8, a supporting column 801, a placing groove 802, a limiting chute 803, a movable body 804, an auxiliary spring 805, a limiting slider 806, a connecting ball 807, a connecting clamping groove 808, a fixing magnetic sheet 809, a cleaning auxiliary cap 810, a connecting clamping body 811 and a positioning magnetic sheet 812.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below. Embodiments of the present invention are intended to be within the scope of the present invention as defined by the appended claims.

Embodiment one: referring to fig. 1-3, a cooling mechanism includes a conveying control motor 4, a conveying roller 6, a cooling assembly 7 and a cooling auxiliary assembly 8; the conveying control motor 4 is symmetrically and fixedly arranged on one side of the equipment main body 1, the equipment main body 1 is provided with a cavity 2, one end of the conveying control motor 4 is connected with a connecting shaft 5, one end of the connecting shaft 5 extends into the cavity 2, the end part of the connecting shaft is fixedly provided with conveying rollers 6, the two conveying rollers 6 are arranged up and down and are used for conveying the coating film 3, the cooling component 7 is arranged in the cavity 2, the cooling component 7 is arranged at the side position of the conveying rollers 6, and the cooling component 7 is connected with the cooling auxiliary component 8; the invention mainly carries out transmission conveying on the coating film 3 by arranging a conveying roller 6 in a cavity 2 of the equipment main body 1, and carries out induced draft cooling on the upper side and the lower side of the coating film 3 in the conveying process by arranging a cooling component 7 so as to absorb heat; furthermore, the cooling auxiliary assembly 8 is arranged on the supporting tube 703, so that the impurities on the coating film 3 are absorbed while the coating film 3 is subjected to heat absorption and cooling, and the high-efficiency heat dissipation and the product quality are ensured.

The problem that a polypropylene coating film lacks an adaptive high-efficiency cooling mechanism in the prior art is further solved, and the cooling work efficiency of the polypropylene coating film can be improved.

Embodiment two: on the basis of the first embodiment, referring to fig. 2-8, the cooling assembly 7 includes an air intake pipe 701, a connection box 702, a support tube 703, an air vent 704, a connection bearing 705, a mounting base 706, a connection inner pipe 707, a filter mesh 708, a storage tube 709, a control sleeve 710, a fixing plate 711, and a telescopic control rod 712; the air suction pipeline 701 penetrates through one side of the equipment main body 1, one end of the air suction pipeline 701 extends into the cavity 2, a connecting box body 702 is arranged at the end part of the air suction pipeline 701 in a connecting way, a connecting port is formed in one side of the connecting box body 702 at equal intervals, a supporting pipe body 703 is arranged at the connecting port in a connecting way, vent holes 704 are formed in the supporting pipe body 703 at equal intervals, the vent holes 704 are formed in the supporting pipe body 703 at equal intervals in a ring shape, and the vent holes are formed in a straight line at equal intervals again in the unit of the ring shape; one end of the supporting tube 703 is fixedly arranged on the connecting bearing 705, one end of the connecting bearing 705 is fixedly arranged on the mounting seat 706, the mounting seat 706 is fixedly arranged at a connecting port position at one side of the connecting box 702 through a screw, one end of the connecting inner tube 707 is fixedly arranged on the mounting seat 706, filter meshes 708 are equidistantly arranged on the connecting inner tube 707, the filter meshes 708 are equidistantly arranged on the connecting inner tube 707 in a ring shape, and the filter meshes are equidistantly arranged in a straight line again in a ring shape; the connecting inner pipe 707 is arranged in the inner cavity of the supporting pipe body 703, and the positions of the connecting inner pipe 707 and the supporting pipe body 703 are corresponding, and the number of the arranging groups is the same; the support tubes 703 are movably arranged through the connecting bearings 705, and the two support tubes 703 are arranged in a group to be arranged up and down; the filter mesh 708 corresponds to the vent 704; the storage tube body 709 is fixedly arranged at one end of the support tube body 703, the regulating sleeve 710 is arranged in the storage tube body 709, one end of the regulating sleeve 710 is fixedly provided with a fixing plate 711, the axes of the support tube body 703 and the connecting inner tube 707 are on the same straight line, the regulating sleeve 710 is movably arranged in the support tube body 703, a movable cavity is formed between the inner side of the support tube body 703 and the outer side of the connecting inner tube 707, the regulating sleeve 710 is movably arranged in the movable cavity, and the regulating sleeve 710 is provided with one regulating sleeve; the telescopic control rod 712 is fixedly arranged at one end of the storage tube 709, one end of the telescopic control rod 712 extends into the storage tube 709, the end of the telescopic control rod is fixedly connected with the fixing plate 711, and the outer side wall of the support tube 703 is connected with the cooling auxiliary assembly 8; the air suction pipeline 701 is connected with the air suction fan, the air suction pipeline 701 is provided with a vent hole 704 through a connecting box body 702 and a supporting pipe body 703, a filtering mesh 708 is arranged on a connecting inner pipe 707 to absorb and cool the heat of the upper side and the lower side of the coating film 3 in the conveying process, and impurity particles adhered on the coating film 3 can be absorbed and removed in the conveying process; if the coating film 3 needs to be subjected to local heat dissipation and cooling or corresponding cooling regulation and control work in the process, the movement of the regulation and control sleeve 710 is controlled by the telescopic control rod 712, and when the regulation and control sleeve 710 moves to a certain position, the vent holes 704 on the support tube 703 and the filter mesh 708 on the connecting inner tube 707 at the corresponding position are plugged, so that the effect of local regulation and control of induced draft and cooling is realized, and moreover, the induced draft and cooling strength of the process can be improved; further improving the cooling work efficiency and the cooling work flexibility.

Embodiment III: on the basis of the second embodiment, referring to fig. 9-10, the cooling auxiliary assembly 8 includes a support column 801, a placement groove 802, a limit chute 803, a movable body 804, an auxiliary spring 805, a limit slider 806, a connection ball 807, a connection slot 808, a fixing magnetic sheet 809, a cleaning auxiliary cap 810, a connection card 811, and a positioning magnetic sheet 812; the support column members 801 are fixedly arranged on the outer side wall of the support tube 703 at equal intervals and are arranged at the side positions of the vent holes 704, the end part of one end of each support column member 801 is provided with a placing groove 802, the inner side wall of each placing groove 802 is symmetrically provided with a limiting sliding groove 803, each movable body 804 is movably inserted into each placing groove 802, two sides of the bottom end of each movable body 804 are symmetrically and fixedly provided with limiting sliding blocks 806, the corresponding setting positions and the same setting group numbers of the limiting sliding blocks 806 and the corresponding setting positions are in sliding connection with the limiting sliding grooves 803, the bottom end of each movable body 804 is fixedly provided with an auxiliary spring 805, one end of each auxiliary spring 805 is fixedly arranged in each placing groove 802, the other end of each movable body 804 extends to the outer side of each placing groove 802, the end part of each auxiliary spring is fixedly provided with a connecting ball 807, each connecting clamping groove 808 is fixedly arranged in each connecting clamping groove 808, the middle part of the inner side of each cleaning auxiliary cap 810 is fixedly provided with a connecting clamping body 811, and the end of each connecting clamping body 811 is fixedly provided with a positioning magnetic sheet 812; the cleaning auxiliary cap 810 is arranged in a hemispherical shape, the positions of the cleaning auxiliary cap 810 and the connecting ball 807, the movable body 804 and the supporting column 801 are corresponding, the number of the groups is the same, the radius of the inner side of the cleaning auxiliary cap 810 is equal to the radius of the connecting ball 807, and the cleaning auxiliary cap 810 is closely fit with the outer side wall of the connecting ball 807; the connection card body 811 is matched and clamped with the connection card slot 808, the positioning magnetic sheet 812 is matched and clamped with the fixing magnetic sheet 809, and the number of the set groups is the same; the purpose of the cooling auxiliary assembly 8 is to improve the conveying and cooling efficiency of the coating film 3 and the impurity removing efficiency of the coating film and ensure the quality of finished products; in the conveying process of the coating film 3, the coating film 3 drives the supporting tube 703 to rotate, and the cleaning auxiliary cap 810 arranged at the head part of the connecting ball 807 cleans impurities which are difficult to suck and dip clean on the coating film 3 or loosens scraping, so that the subsequent suction cleaning is facilitated; the movable body 804, the auxiliary spring 805 and the connecting ball 807 are arranged to have a buffer protection function for the coating film 3 during the cooling cleaning work, so as to ensure the quality of the body.

Embodiment four: on the basis of the third embodiment, referring to fig. 1 to 10, the invention further provides a method for using the cooling mechanism of the polypropylene coating production line, which comprises the following steps:

step one: the coating film 3 is conveyed by a conveying roller 6, and is cooled by a cooling component 7 arranged at the side of the conveying roller 6 in the conveying process;

step two: the air suction pipeline 701 is connected with the air suction fan, the air suction pipeline 701 is provided with an air vent 704 through a connecting box body 702 and a supporting pipe body 703, a connecting inner pipe 707 is provided with a filter mesh 708 to absorb and cool the heat of the upper side and the lower side of the coating film 3 in the conveying process, and impurity particles adhered on the coating film 3 can be absorbed and removed in the conveying process; if the coating film 3 needs to be subjected to local heat dissipation and cooling or corresponding cooling regulation and control work in the process, the movement of the regulation and control sleeve 710 is controlled by the arranged telescopic control rod 712, and when the regulation and control sleeve 710 moves to a certain position, the vent holes 704 on the support tube 703 and the filter mesh 708 on the connecting inner tube 707 at the corresponding position are blocked, so that the effect of local regulation and control of induced draft and cooling is realized;

step three: the cooling auxiliary assembly 8 is arranged to improve the conveying and cooling efficiency of the coating film 3 and the impurity removing efficiency; the cleaning auxiliary cap 810 arranged at the head of the connecting ball 807 can remove impurities on the coating film 3 which are difficult to suck and dip or loose scraping, so that the subsequent sucking and removing are convenient;

step four: after the cooling operation is completed, the same operation is performed according to the first, second and third steps when the next coating film 3 is subjected to the cooling operation.

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

1. A cooling mechanism, characterized in that: comprises a conveying control motor (4), a conveying roller (6), a cooling assembly (7) and a cooling auxiliary assembly (8); the utility model provides a conveying control motor (4) symmetry is fixed to be set up in one side of equipment main part (1), be provided with cavity (2) in equipment main part (1), the one end connection of conveying control motor (4) is provided with connecting axle (5), the one end of connecting axle (5) extends to in cavity (2), and the fixed conveying roller (6) that is provided with of tip, two conveying roller (6) set up from top to bottom, and it carries coating film (3), cooling module (7) set up in cavity (2), and cooling module (7) set up in the avris position of conveying roller (6), cooling module (7) are connected with cooling auxiliary assembly (8) setting.

2. A cooling mechanism according to claim 1, wherein: the cooling assembly 7 comprises an air suction pipeline (701), a connecting box body (702), a supporting pipe body (703), an air vent (704), a connecting bearing (705), a mounting seat (706), a connecting inner pipe (707), a filtering mesh (708), a storage pipe body (709), a regulating sleeve (710), a fixing plate (711) and a telescopic control rod (712); the air suction pipeline (701) is arranged on one side of the equipment main body (1) in a penetrating way, one end of the air suction pipeline (701) is extended into the cavity (2), the end part is connected with the connecting box body (702), one side of the connecting box body (702) is equidistantly provided with a connecting port, the connecting port is connected with the supporting pipe body (703), the supporting pipe body (703) is equidistantly provided with a vent hole (704), one end of the supporting pipe body (703) is fixedly arranged on the connecting bearing (705), one end of the connecting bearing (705) is fixedly arranged on the mounting seat (706), the mounting seat (706) is fixedly arranged on the connecting port position on one side of the connecting box body (702) through a screw, one end of the connecting inner pipe (707) is fixedly arranged on the mounting seat (706), the connecting inner pipe (707) is equidistantly provided with a filter mesh (708), one end of the supporting pipe body (703) is fixedly arranged on the supporting pipe body (709), one end of the supporting pipe (710) is fixedly arranged in the storing pipe body (709), one end of the supporting pipe (709) is fixedly arranged on the connecting plate (709), one end of the supporting pipe (709) is fixedly arranged on the extending and fixedly connected with one end (711) of the extending and fixedly arranged in the connecting pipe (711), and the outer side wall of the support tube body (703) is connected with a cooling auxiliary assembly (8).

3. A cooling mechanism according to claim 2, wherein: the vent holes (704) are equidistantly arranged on the support tube body (703) in an annular shape, and are equidistantly arranged in a straight line by taking the annular shape as a unit.

4. A cooling mechanism according to claim 2, wherein: the filter meshes (708) are equidistantly arranged in a ring shape on the connecting inner pipe (707), and are equidistantly arranged in a straight line by taking the ring shape as a unit; the filter mesh (708) corresponds to the position where the vent holes (704) are provided.

5. A cooling mechanism according to claim 2, wherein: the connecting inner pipe (707) is arranged in the inner cavity of the supporting pipe body (703), and the connecting inner pipe (707) and the supporting pipe body (703) are corresponding in arrangement position and same in arrangement group number; the support tube bodies (703) are movably arranged through the connecting bearings (705), and the two support tube bodies (703) are arranged in a group to be arranged up and down.

6. A cooling mechanism according to claim 2, wherein: the support tube body (703) and the connecting inner tube (707) are in the same straight line, the regulating sleeve (710) is movably arranged in the support tube body (703), a movable cavity is formed between the inner side of the support tube body (703) and the outer side of the connecting inner tube (707), the regulating sleeve (710) is movably arranged in the movable cavity, and the regulating sleeve (710) is provided with one.

7. A cooling mechanism according to claim 1, wherein: the cooling auxiliary assembly (8) comprises a supporting column part (801), a placing groove (802), a limiting sliding groove (803), a movable body (804), an auxiliary spring (805), a limiting sliding block (806), a connecting ball body (807), a connecting clamping groove (808), a fixed magnetic sheet (809), a cleaning auxiliary cap (810), a connecting clamping body (811) and a positioning magnetic sheet (812); the utility model discloses a cleaning device, including support column piece (801), connecting ball (807), magnetic sheet (811) and magnetic sheet (811), support column piece (801) equidistance fixed setting is in support tube body (703) lateral wall, and sets up the avris position at air vent (704), the tip of support column piece (801) one end is provided with standing groove (802), and the inside wall symmetry of standing groove (802) is provided with spacing spout (803), movable body (804) movable grafting setting is in standing groove (802), and the bilateral symmetry fixed of movable body (804) bottom is provided with spacing slider (806), spacing slider (806) and spacing spout (803) set up the position corresponding, set up the same, and both looks adaptation sliding connection, the bottom mounting of movable body (804) is provided with auxiliary spring (805), the fixed standing groove (802) that is provided with in the one end of auxiliary spring (805), the other end of movable body (804) extends to the standing groove (802) outside, and the fixed connection ball (807) that is provided with of tip, the ball head of connection ball (807) is provided with connection draw-in groove (808), be provided with fixed magnetic sheet (809) in connection card (808), auxiliary card cap (810) set up fixed connection position (811).

8. A cooling mechanism according to claim 7, wherein: the cleaning auxiliary cap (810) is arranged in a hemispherical shape, the cleaning auxiliary cap (810) corresponds to the arrangement positions of the connecting ball body (807), the movable body (804) and the support column (801) and has the same number of groups, the inner radius of the cleaning auxiliary cap (810) is equal to the radius of the connecting ball body (807), and the cleaning auxiliary cap (810) is closely matched with the outer side wall of the connecting ball body (807).

9. A cooling mechanism according to claim 7, wherein: the connecting card body (811) corresponds to the connecting card slot (808) in setting position and has the same setting group number, the connecting card body (811) is in fit and clamping connection with the connecting card slot (808), and the positioning magnetic sheet (812) corresponds to the fixing magnetic sheet (809) in setting position and has the same setting group number, and the positioning magnetic sheet and the fixing magnetic sheet are attracted to each other.

10. An electrician-grade polypropylene coating production line which is characterized in that: a cooling mechanism comprising any one of the preceding claims 1-9.