CN216620413U - Cooling device for coating production line - Google Patents

Abstract

The utility model relates to the technical field of paint cooling, and provides a cooling device for a paint production line, which comprises a rack, wherein a discharging piece is arranged on the rack and used for injecting paint into a paint barrel, and the cooling device also comprises a cooling assembly arranged on the rack, the cooling assembly comprises a plurality of first telescopic pieces arranged on the rack, the first telescopic pieces are arranged on the first telescopic pieces, slide on the rack along with the first telescopic pieces and are used for being arranged on two sides of the paint barrel, the first cooling pieces positioned on the two sides of the paint barrel slide relatively to form a wrapping area, and the outer wall of the paint barrel is attached to the first cooling pieces. Through above-mentioned technical scheme, because the reduction of coating temperature makes coating mobility worsen among the correlation technique, reduced the problem of filling efficiency.

Description

Cooling device for coating production line

Technical Field

The utility model relates to the technical field of coating cooling, in particular to a cooling device for a coating production line.

Background

Among the prior art, to the encapsulation of coating after the coating production, be through drop feed mechanism with the coating filling of producing in scribbling the storage bucket, it is sealed to scribble the storage bucket again, the coating is because the temperature is higher after production is accomplished, need put into again after the cooling in scribbling the storage bucket, and common cooling mode is through directly cooling down after the coating reaction is accomplished, through this kind of mode, thereby the coating of direct cooling can make mobility worsen because the reduction of self temperature, the efficiency of filling has further been reduced, and the cooling is the indispensable process again, need a solution in order to improve filling efficiency.

SUMMERY OF THE UTILITY MODEL

The utility model provides a cooling device for a coating production line, which solves the problems that the fluidity of a coating is poor and the filling efficiency is reduced due to the reduction of the temperature of the coating in the related art.

The technical scheme of the utility model is as follows:

the cooling device for the coating production line comprises a rack, wherein a discharging part is arranged on the rack and used for injecting coating into a coating bucket, and the cooling device also comprises a cooling component arranged on the rack and comprising a cooling component

A first telescopic member arranged on the frame,

the first cooling part is provided with a plurality of, is arranged on the first telescopic part, slides along with the first telescopic part on the rack, is used for being arranged on two sides of the coating bucket and positioned on two sides of the coating bucket, a coating area is formed after the first cooling part slides relatively, and the outer wall of the coating bucket is attached to the first cooling part.

The cooling device for the coating production line is characterized in that a plurality of first cooling parts are provided with first cooling cavities for storing cooling media, and each first cooling cavity is provided with a first liquid inlet and a first liquid outlet.

As a further technical solution, the cooling device of the coating production line is characterized in that the cooling assembly further comprises

The first extensible member is arranged on the rack through the second extensible member, and the second extensible member drives the first extensible member to lift on the rack.

As a further technical solution the cooling device of a paint production line is characterized in that the discharge member comprises

The storage piece is arranged on the frame, is provided with a discharge port and a feed port and is used for injecting the coating into the coating barrel,

the second cooling piece is sleeved on the material storage piece and provided with a second cooling cavity used for storing cooling media, and the second cooling cavity is provided with a second liquid inlet and a second liquid outlet.

As a further technical proposal, the cooling device of the coating production line is characterized by also comprising

And the excess material tray is arranged on the rack in a sliding manner, and is positioned below the discharge port of the storage part after sliding.

As a further technical scheme, the cooling device of the coating production line is characterized by also comprising a conveying piece arranged on the machine frame, wherein the conveying piece comprises

A plurality of conveying rollers which are rotatably arranged on the frame and are used for conveying the coating bucket,

and the driving unit is arranged on the rack and drives the conveying roller to rotate.

As a further technical solution, the cooling device of the coating production line is characterized in that the first telescopic member comprises

A base arranged on the frame,

the screw rod is rotationally arranged on the rack, one end of the screw rod is provided with a left-handed thread, the other end of the screw rod is provided with a right-handed thread,

two telescopic ends are symmetrically arranged at two ends of the screw rod through threaded connection, the two telescopic ends respectively drive the two first cooling parts to slide after rotating,

the motor is arranged on the base and drives the lead screw to rotate forwards or reversely.

The cooling device for the coating production line is characterized in that the first cooling piece is provided with a groove, the outer wall of the coating bucket is provided with a protrusion, and the protrusion is clamped in the groove.

The working principle and the beneficial effects of the utility model are as follows:

among the prior art, the encapsulation packing to coating production is mainly through filling the coating that has configured in to scribbling the storage bucket, it accomplishes to scribble storage bucket encapsulation through the bung, because coating has higher temperature after the production is accomplished, just can put into scribbling the storage bucket after need cooling down, avoid leading to because the inside negative pressure that produces of scribbling storage bucket after the compact seal of expend with heat and contract with cold, and then lead to the coating shrink to cause not good influence, so need put into scribbling the storage bucket after cooling down to coating, and the means commonly used is through just cooling down coating after the production is accomplished, because the material nature of coating does not lead to coating circulation can reduce after the cooling down, make coating slow down in the transportation, still probably lead to the adhesion to solidify on pipeline simultaneously, and then lead to the pipeline jam, make the efficiency reduction of filling.

Based on above reason, in order to avoid expend with heat and contract with cold to lead to producing the negative pressure in the bucket and need cooling to coating, the cooling is avoided accomplishing back direct cooling in production, through in time cooling in scribbling the storage bucket, makes the coating at the mobility that keeps of transportation through this kind of mode, through realizing partial cooling in the transportation, at the filling in-process, continuously carries out the heat exchange to scribbling the storage bucket, realizes the cooling of coating. Compared with the prior art, the cooling effect can be realized, and meanwhile, the coating can keep the circulation.

In order to solve the problems that the fluidity of the coating is poor and the filling efficiency is reduced due to the reduction of the temperature of the coating in the related art, the cooling device for the coating production line is designed, specifically, the first telescopic piece capable of clamping the first cooling piece is arranged on the rack, so that the first cooling piece clamps the coating bucket positioned below the material placing piece, the first cooling piece is enabled to continuously cool the coating bucket in which the material is placed, after the filling of the coating bucket is completed, the first telescopic piece drives the first cooling piece to reset to complete the cooling, and then the cooled coating bucket is packaged.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic isometric view of the present invention;

FIG. 2 is a schematic front view of the present invention;

in the figure: 1. the device comprises a rack, 2, a conveying piece, 3, a discharging piece, 4, a coating bucket, 5, a cooling assembly, 6, a first telescopic piece, 7, a first cooling piece, 8, a first cooling cavity, 9, a first liquid inlet, 10, a first liquid outlet, 11, a wrapping area, 12, a second telescopic piece, 13, a material storage piece, 14, a discharge port, 15, a feed port, 16, a second cooling piece, 17, a second cooling cavity, 18, a second liquid inlet, 19, a second liquid outlet, 20, a residual material tray, 21, a conveying roller, 22, a driving unit, 23, a base, 24, a screw rod, 25, left-handed threads, 26, right-handed threads, 27, a telescopic end, 28, a motor, 29, a groove, 30 and a protrusion.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to 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 inventive step, are intended to be within the scope of the present invention.

As shown in fig. 1 to 2, the present embodiment proposes

A cooling device for a coating production line comprises a rack 1, wherein a discharging part 3 is arranged on the rack 1, the discharging part 3 is used for injecting coating into a coating bucket 4, the cooling device also comprises a cooling assembly 5 arranged on the rack 1, and the cooling assembly 5 comprises

A first telescopic part 6 arranged on the frame 1,

the first cooling parts 7 are provided with a plurality of parts, are arranged on the first telescopic parts 6, slide on the rack 1 along with the first telescopic parts 6 and are used for being arranged on two sides of the coating bucket 4, the first cooling parts 7 on the two sides of the coating bucket 4 relatively slide to form a wrapping area 11, and the outer wall of the coating bucket 4 is attached to the first cooling parts 7.

Among the prior art, the encapsulation packing to coating production is mainly through filling the prepared coating in to scribbling storage bucket 4, accomplish scribbling storage bucket 4 encapsulation through the bung, because coating has higher temperature after the production is accomplished, just can put into scribbling storage bucket 4 after need cooling down, avoid leading to the inside negative pressure that produces of scribbling storage bucket 4 after the fine and close seal owing to expend with heat and contract with cold, and then lead to the coating shrink to cause not good influence, so need put into scribbling storage bucket 4 after cooling down to coating, and the means commonly used is through just cooling down coating after the production is accomplished, because the material nature of coating does not lead to coating circulation can reduce after the cooling down, make coating slow down in the transportation, still probably lead to the adhesion to solidify on pipeline simultaneously, and then lead to the pipeline jam, make the efficiency of filling reduce.

Based on above reason, in order to avoid expend with heat and contract with cold to lead to producing the negative pressure in the bucket and need cooling to coating, the cooling is avoided accomplishing back direct cooling in production, through in time cooling in scribbling storage bucket 4, makes the coating at the mobility that keeps of transportation through this kind of mode, through realizing partial cooling in the transportation, at the filling in-process, continuously carries out the heat exchange to scribbling storage bucket 4, realizes the cooling of coating. Compared with the prior art, the cooling effect can be realized, and meanwhile, the coating can keep the circulation.

In this embodiment, for solving among the relevant art because the reduction of coating temperature makes coating mobility worsen, reduce the problem of filling efficiency, a cooling device for coating production line has been designed, it is concrete can press from both sides tight first extensible member 6 of first cooling member 7 through setting up in frame 1, make first cooling member 7 press from both sides the tight coating bucket 4 that is located the unloading 3 below, make first cooling member 7 carry out the cooling that lasts well to scribbling storage bucket 4 of filling, after the completion of the filling of coating storage bucket 4, first extensible member 6 drives first cooling member 7 and resets, accomplish the cooling, again encapsulate scribbling storage bucket 4 after the cooling, can effectual increase the production efficiency of equipment through this scheme, the risk that the transportation pipeline blockked up has been reduced simultaneously, and then the maintenance cost is reduced.

The cooling device of the coating production line is further characterized in that the plurality of first cooling parts 7 are respectively provided with a first cooling cavity 8 for storing a cooling medium, and the first cooling cavities 8 are provided with a first liquid inlet 9 and a first liquid outlet 10.

In the embodiment, a cooling form of the first cooling member 7 is specifically detailed, the first cooling cavity 8 for storing a cooling medium is arranged in the first cooling member 7, the first cooling cavity 8 is provided with the first liquid inlet 9 and the second liquid inlet 18 which can be communicated with the circulating device, so that the coating bucket 4 is continuously cooled, and the integrity of the equipment is further improved through the form of the coating bucket 4.

Further, the cooling device of the coating production line is characterized in that the cooling component 5 also comprises

And the second telescopic piece 12 is used for driving the first telescopic piece 6 to lift on the frame 1, and the first telescopic piece 6 is arranged on the frame 1 through the second telescopic piece 12.

In the embodiment, because the paint bucket 4 is continuously transported when the conveying member 2 transports the paint bucket 4 in the production line, when the paint bucket 4 is positioned below the discharging member 3, the paint bucket 4 needs to stop moving, but the paint bucket 4 is stopped moving after the paint bucket 4 is clamped by the first cooling member 7, but the lower end of the paint bucket 4 is contacted with the conveying member 2, so that the bottom of the paint bucket 4 and the conveying member 2 generate friction mutually, after long-time use, the conveying member 2 possibly fails, the scheme drives the first telescopic member 6 to perform lifting movement on the rack 1 through the second telescopic member 12 by arranging the second telescopic member 12, when the paint bucket 4 is transported to a designated position, the first telescopic member 6 drives the first cooling member 7 to clamp the paint bucket 4, the second telescopic member 12 drives the first telescopic member 6 to ascend, and the paint bucket 4 ascends along with the first telescopic member 6, and then avoid producing the friction with carrying 2, further promoted the stability of equipment through this scheme, reduced the maintenance cost of equipment simultaneously.

Further, the cooling device of the coating production line is characterized in that the discharging piece 3 comprises

A storage member 13, provided on the frame 1, having a discharge port 14 and a feed port 15, for injecting the paint into the paint bucket 4,

and the second cooling part 16 is sleeved on the material storage part 13, the second cooling part 16 is provided with a second cooling cavity 17 for storing a cooling medium, and the second cooling cavity 17 is provided with a second liquid inlet 18 and a second liquid outlet 19.

In this embodiment, in order to further promote the cooling effect of equipment, a blowing 3 structure has been designed, because coating transports when blowing 3, will reduce to the temperature requirement of coating, specifically for the cover establishes second cooling member 16 on a discharge member, will be located the inside coating of storage 13 through second cooling member 16 and cool down, and then promote the cooling effect, second cooling member 16 has the second cooling cavity 17 that can deposit coolant, second cooling cavity 17 can communicate with outside cooling circulation system, make second cooling member 16 can carry out the cooling that lasts to the storage vat, further promoted the cooling effect of equipment through this scheme, can make coating have lower temperature when getting into storage silo 4 simultaneously, alleviate the burden of first cooling member 7, further promoted the practicality and the stability of equipment.

The cooling device of the coating production line is characterized by also comprising

The excess material tray 20 is arranged on the rack 1 in a sliding mode, and the excess material tray 20 is located below the discharge hole 14 of the storage piece 13 after sliding.

In this embodiment, after storage bucket 4 is scribbled in the coating pouring into, scribble storage bucket 4 and transport away, because 14 still adhesions in discharge gate have remaining coating, avoid coating to drop and lead to leading to carrying 2 or workplace to cause the pollution, clout tray 20 has been set up, after the filling of storage bucket 4 is accomplished, clout tray 20 will be located the below of discharge gate 14, collect the coating that discharge gate 14 drips, when next storage bucket 4 transports to the unloading 3 below, clout tray 20 will get back to the normal position, make discharge gate 14 can carry out the filling to scribble storage bucket 4, can effectual promotion production place's sanitation through this scheme, can avoid simultaneously because coating leads to carrying 2 to break down, the stability of equipment has further been promoted.

The cooling device of the coating production line is characterized by further comprising a conveying member 2 arranged on the frame 1, wherein the conveying member 2 comprises

A plurality of conveying rollers 21 which are rotatably arranged on the frame 1 and are used for conveying the paint bucket 4,

and a driving unit 22 provided on the frame 1 and driving the conveying roller 21 to rotate.

In this embodiment, having refined a transport 2, set up a plurality of conveying roller 21 and the drive unit 22 of drive conveying roller 21 in frame 1 and realized scribbling the transportation of storage bucket 4, further promoted the production efficiency of equipment, used conveying roller 21 to bear bigger gravity simultaneously, had better structural strength, made equipment have better life-span.

Further cooling device for a coating line, characterized in that the first telescopic member 6 comprises

A base 23, which is arranged on the frame 1,

a screw rod 24 which is rotationally arranged on the frame 1, one end of the screw rod 24 is provided with a left-handed thread 25, the other end is provided with a right-handed thread 26,

two telescopic ends 27 are symmetrically arranged at two ends of the screw rod 24 through threaded connection, the two telescopic ends 27 respectively drive the two first cooling parts 7 to slide after rotating,

and the motor 28 is arranged on the base 23, and the motor 28 drives the lead screw 24 to rotate forwards or reversely.

In this embodiment, a first extensible member 6 has been refined, first extensible member 6 can be controlled through the cylinder for setting up two flexible ends 27 at both ends, but the synchronism at both ends is hardly kept to this kind of mode, simultaneously because the pressure of cylinder is great, cause the extrusion easily to first cooling piece 7, avoid the emergence of this kind of condition, this scheme is controlled through setting up lead screw 24 on base 23, make two flexible ends 27 can lean on left-handed thread 25 and the right-handed thread 26 realization synchronous operation at both ends about lead screw 24, simultaneously through the rotation of motor 28 control lead screw 24, can effectually carry out the regulation in the speed, avoid because pressure is too big, the speed bumps when leading to first cooling piece 7 relative motion at the excessive speed, the stability and the security of equipment have further been promoted.

The cooling device of the further coating production line is characterized in that the first cooling piece 7 is provided with a groove 29, the outer wall of the coating bucket 4 is provided with a bulge 30, and the bulge 30 is used for being clamped in the groove 29.

In this embodiment, for making first cooling member 7 and scribble the storage bucket 4 and have better cooperation, set up recess 29 on first cooling member 7, scribble and set up protruding 30 on the storage bucket 4, through the cooperation of recess 29 and protruding 30, can make the accurate card of scribbling storage bucket 4 establish on first cooling member 7, avoid at the lift in-process, scribble storage bucket 4 because unexpected the emergence falls, lead to carrying 2 to damage, further promoted the security and the stability of equipment.

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent substitutions, improvements, etc. within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. A cooling device for a paint production line comprises a rack (1), wherein a discharging part (3) is arranged on the rack (1), the discharging part (3) is used for injecting paint into a paint bucket (4), the cooling device is characterized by further comprising a cooling assembly (5) arranged on the rack (1), and the cooling assembly (5) comprises a cooling assembly body

A first telescopic member (6) arranged on the frame (1),

first cooling member (7), it is a plurality of to have, set up in on first extensible member (6), along with first extensible member (6) slide in frame (1), be used for setting up scribble storage bucket (4) both sides, be located scribble storage bucket (4) both sides first cooling member (7) relative slip back formation parcel region (11), scribble storage bucket (4) outer wall laminating is in on first cooling member (7).

2. A cooling device for a paint production line according to claim 1, characterised in that several of the first cooling members (7) each have a first cooling cavity (8) for storing a cooling medium, the first cooling cavity (8) having a first inlet (9) and a first outlet (10).

3. A cooling device for a paint line according to claim 1, characterised in that said cooling assembly (5) further comprises

The first telescopic piece (6) is arranged on the rack (1) through the second telescopic piece (12), and the second telescopic piece (12) drives the first telescopic piece (6) to lift on the rack (1).

4. A cooling device for a paint line according to claim 1, characterised in that said emptying member (3) comprises

A storage member (13) arranged on the frame (1) and provided with a discharge port (14) and a feed port (15) for injecting the coating into the coating bucket (4),

the second cooling piece (16) is sleeved on the material storage piece (13), the second cooling piece (16) is provided with a second cooling cavity (17) used for storing cooling media, and the second cooling cavity (17) is provided with a second liquid inlet (18) and a second liquid outlet (19).

5. The cooling apparatus for paint production line as claimed in claim 4, further comprising

The excess material tray (20) is arranged on the rack (1) in a sliding mode, and the excess material tray (20) is located below the discharge hole (14) of the storage piece (13) after sliding.

6. A cooling device for a paint line according to claim 1, further comprising a conveyor (2) arranged on the frame (1), the conveyor (2) comprising

A plurality of conveying rollers (21) which are rotatably arranged on the frame (1) and are used for conveying the paint bucket (4),

and the driving unit (22) is arranged on the frame (1) and drives the conveying roller (21) to rotate.

7. A cooling device for a paint line according to claim 1, characterised in that said first telescopic member (6) comprises

A base (23) arranged on the frame (1),

a screw rod (24) which is rotationally arranged on the frame (1), one end of the screw rod (24) is provided with a left-handed thread (25), the other end is provided with a right-handed thread (26),

two telescopic ends (27) are symmetrically arranged at two ends of the screw rod (24) through threaded connection, the two telescopic ends (27) respectively drive the two first cooling parts (7) to slide after rotating,

the motor (28) is arranged on the base (23), and the motor (28) drives the lead screw (24) to rotate forward or reversely.

8. A cooling device for a paint production line according to claim 1, characterised in that the first cooling member (7) has a groove (29) therein and the paint bucket (4) has a projection (30) on its outer wall, the projection (30) being adapted to be snapped into the groove (29).

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