CN219191236U - Adhesive tape machine cooling structure - Google Patents

Abstract

The utility model discloses a rubberizing fabric machine cooling structure, which comprises an rubberizing fabric output platform, wherein an oil suction roller is rotationally arranged above the rubberizing fabric output platform through limiting plates on the left side and the right side of the rubberizing fabric output platform, two cooling rollers are arranged behind the rubberizing fabric output platform, and a cooling assembly is arranged below the two cooling rollers, so that oil stains on the surface of an extruded rubberizing fabric are absorbed through the oil suction roller, and the probability of skidding during rubberizing fabric output is reduced; the utility model discloses a cold roll, including the air-cooler, the air-cooler is equipped with two sets of, is equipped with a plurality of and is linked together with the inner space and is the cold wind export that splayed form slope on the air-cooler, two sets of through limiting plate inboard commentaries on classics between the air-cooler is equipped with the compression roller, cooling module, the air-cooler operation on the cooling module, cold wind that the cold wind air out the air-cooler operation produced exports the below to the air-cooler for the inside and outside air convection's of air-cooler efficiency to cool down the cooling again to the rubberized fabric of conveying on the air-cooler, thereby improve the cooling efficiency to the rubberized fabric, and to the cooling effect of rubberized fabric.

Description

Adhesive tape machine cooling structure

Technical Field

The utility model belongs to the technical field of adhesive tape machines, and particularly relates to a cooling structure of an adhesive tape machine.

Background

The adhesive tape machine is used for pressing the PVC strip extruded by the filter into a sheet shape to realize the molding of the PVC cloth layer, and the PVC cloth layer is subjected to heat absorption on the VC cloth layer while outputting the PVC cloth layer through the cooling roller after the molding of the PVC cloth layer, so that the PVC cloth layer is cooled and cooled, but the surface of the cooling roller can have heat energy absorbed by the PVC cloth layer due to continuous output of the PVC cloth layer, so that the cooling effect on the PVC cloth layer is reduced along with continuous output of the PVC, and the surface of the PVC is a smooth surface, when the PVC is rotationally output through the cooling roller, the slippage of the PVC cloth layer is easily caused, the problem that the PVC cloth layer is stacked along with continuous output is caused, and the production quality of the PVC cloth layer is reduced;

therefore, the utility model provides the rubberized fabric machine cooling structure which continuously cools the extruded PVC cloth layer and keeps the cooling output stability of the PVC cloth layer.

Disclosure of Invention

The utility model aims to provide a cooling structure of a rubberized fabric machine, which aims to solve the problems in the prior art.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

a blanket machine cooling structure comprising:

the upper part of the rubberized fabric output platform is rotatably provided with oil suction rollers through limiting plates at the left side and the right side of the rubberized fabric output platform, and the braking end of the oil suction rollers penetrates through one side of the limiting plate and is connected with a driving motor at the outer side of the limiting plate;

the cooling rollers are provided with two groups, the two groups of cooling rollers are rotationally arranged on a limiting plate at the rear section of the rubberized fabric output platform through bearings, a U-shaped cold water pipe with two ends respectively communicated with the cold water circulator is arranged in the cooling rollers, the cooling rollers are provided with a plurality of splayed cold air outlets communicated with the inner space, and a compression roller is rotationally arranged between the two groups of cooling rollers through the inner side of the limiting plate;

the cooling assembly comprises a mounting seat arranged at the bottom of the rubberized fabric output platform, an air cooler arranged in the mounting seat and a cold air outlet plate arranged at the rear section of the rubberized fabric output platform, wherein the air outlet pipe on the air cooler is communicated with the inside of the cold air outlet plate, and cold air is output through an air outlet hole on the cold air outlet plate.

Further, the right end of the rubberized fabric output platform is provided with an L-shaped bracket, and a wind-up roll braked by a wind-up motor is arranged on the inner side of the top end of the bracket.

Further, the oil absorbing rollers are made of roller shafts with oil absorbing cotton layers arranged outside, two groups of oil absorbing rollers are arranged, and the two groups of oil absorbing rollers are arranged on the inner side of the limiting plate in a staggered mode.

Further, the two groups of oil suction rollers are connected through a first synchronous belt, and a brake end of one group of oil suction rollers penetrates through the limiting plate to be connected with a driving motor.

Further, the braking ends of the two groups of cooling rollers and the pressing roller are respectively connected through a second synchronous belt, and the braking end of one group of cooling rollers is connected with a braking motor.

Furthermore, the water inlet end and the water outlet end of the cold water pipe penetrate through the bearing at the left end of the cooling roller in parallel and are rotationally connected with the inner ring of the bearing through an inner bearing.

Further, the cold air outlet plate is arranged below the two groups of cooling rollers and forms a 120-degree folding angle.

The utility model has the following technical effects and advantages:

according to the cooling structure of the rubberizing fabric machine, two cooling rollers are arranged at the rear of an rubberizing fabric output platform, a cooling assembly is arranged below the two cooling rollers, oil stain absorption on the surface of an extruded rubberizing fabric through an oil suction roller is realized, the slipping probability during rubberizing fabric output is reduced, a cold water pipe in the cooling rollers runs through a cold water circulator, internal cold water flows refrigerates the cooling rollers, cold air in the cooling rollers is discharged through a cold air outlet, the purpose of continuously providing low temperature for the cooling rollers is achieved, the rubberizing fabric conveyed on the cooling rollers is cooled, the cold air produced by the cold air outlet plate running is output to the lower part of the cooling rollers through an air cooler on the cooling assembly, the convection efficiency of the inside and outside air of the cooling rollers is further accelerated, the rubberizing fabric conveyed on the cooling rollers is cooled down again, and the rubberizing fabric cooling efficiency and the rubberizing fabric cooling effect are improved;

set up the compression roller between two chill rolls, realize through the removal of compression roller cooperation adhesive tape cooling rolling, rise tightly between two chill rolls to the adhesive tape that conveys on the chill roll rises tightly output, pile up when avoiding the adhesive tape to be conveyed and appear piling up, cause the problem that the adhesive tape damaged, improve the quality to adhesive tape extrusion cooling shaping.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of the structure of the connection ends of the oil suction roll, the cooling roll and the compression roll;

FIG. 3 is a schematic view showing a main sectional structure of a cooling roll of the present utility model;

FIG. 4 is a schematic view of a cooling module according to the present utility model.

In the figure: 1. the rubberized fabric outputs the terrace; 2. a limiting plate; 3. an oil suction roller; 5. a driving motor; 6. a cooling roller; 7. a cold water circulator; 8. a cold water pipe; 9. a cold air outlet; 10. a press roller; 11. a cooling assembly; 12. a mounting base; 13. an air cooler; 14. a cold air outlet plate; 15. an air outlet pipe; 16. an air outlet hole; 17. a bracket; 18. a wind-up roll; 19. a first synchronization belt; 20. and a second synchronous belt.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The present utility model provides a cooling structure of a rubberized fabric machine as shown in fig. 1-4, comprising:

the adhesive tape output platform 1, the upper side of the adhesive tape output platform 1 is rotationally provided with oil absorbing rollers 3 through limiting plates 2 on the left side and the right side of the adhesive tape output platform 1, the oil absorbing rollers 3 are made of roller shafts with oil absorbing cotton layers arranged outside, the oil absorbing rollers 3 are provided with two groups, the two groups of oil absorbing rollers 3 are arranged on the inner side of the limiting plates 2 in a staggered mode, the oil absorbing rollers 3 penetrate through the bottom surface and the upper surface of the adhesive tape one by one to realize tensioning output of the adhesive tape in cooperation with cooling rollers 6 and compression rollers 10, the two groups of oil absorbing rollers 3 are connected through a first synchronous belt 19, the braking ends of one group of oil absorbing rollers 3 penetrate through the limiting plates 2 and are connected with driving motors 5, the rotating speeds of the oil absorbing rollers 3 are adjusted according to the output cooling speed of the adhesive tape through the driving motors 5, and oil stains on the upper surface and the bottom surface of the adhesive tape are absorbed through the oil absorbing rollers 3, and the braking ends of the oil absorbing rollers 3 penetrate through one side of the limiting plates 2 and are connected with driving motors 5 on the outer side of the limiting plates 2;

the cooling rollers 6, the cooling rollers 6 are provided with two groups, and the two groups of cooling rollers 6 are rotationally arranged on the limiting plate 2 at the rear section of the rubberized fabric output platform 1 through bearings, a cold water pipe 8 which is U-shaped and is respectively communicated with the cold water circulating machine 7 at two ends is arranged in the cooling rollers 6, and the water inlet end and the water outlet end of the cold water pipe 8 are parallel to penetrate through the bearings at the left end of the cooling rollers 6 and are rotationally connected with the inner ring of the bearings through inner bearings. When the cooling roller 6 is kept to rotate through the inner bearing, the cooling water pipe 8 penetrates through the bearing and does not influence the rotation of the cooling roller 6;

the cooling rollers 6 are provided with a plurality of splayed cold air outlets 9 which are communicated with the inner space and are inclined in a splayed manner, the splayed cold air outlets 9 are arranged to increase the range of cold air in the cooling rollers 6 when the cold air is output from the cooling rollers 6, so that the area for cooling the adhesive tape is increased, the inner sides of the two groups of cooling rollers 6 are rotationally provided with compression rollers 10 through limiting plates 2, the braking ends of the two groups of cooling rollers 6 and the compression rollers 10 are respectively connected through second synchronous belts 20, the braking ends of one group of cooling rollers 6 are connected with a braking motor, the second synchronous belts 20 are used for synchronously rotating the cooling rollers 6 and the compression rollers 10 along with the operation of the braking motor, the tension of synchronous output of the adhesive tape is maintained, and the probability of the adhesive tape being conveyed and cooled is reduced;

the right end of the rubberized fabric output platform 1 is provided with an L-shaped bracket 17, a winding roller 18 braked by a winding motor is arranged on the inner side of the top end of the bracket 17, the end of the extruded rubberized fabric is fixed by the winding roller 18, and the winding roller 18 is rotated along with the running of the winding motor, so that the rubberized fabric is rotated and wound when the winding roller 18 rotates, and the probability that the rubberized fabric is output to a stack is reduced;

the cooling assembly 11, the cooling assembly 11 is including locating the mount pad 12 of rubberized fabric output platform 1 bottom, locate the air-cooler 13 in the mount pad 12, locate the cold wind air-out plate 14 of rubberized fabric output platform 1 back end, cold wind air-out plate 14 locates the below of two sets of chill rolls 6, and cold wind air-out plate 14 is 120 degrees dog-ear, the angle that the air outlet 16 on the cold wind air-out plate 14 was bent along with cold wind air-out plate 14 exports cold wind to the rubberized fabric below of being raised the rolling, cool off once more when being rolled up to the rubberized fabric, air-out pipe 15 on the air-cooler 13 is put through with cold wind air-out plate 14 inside, and export cold wind through air outlet 16 on the cold wind air-out plate 14.

According to the adhesive tape machine cooling structure, two cooling rollers 6 are arranged at the rear of an adhesive tape output platform 1, a cooling assembly 11 is arranged below the two cooling rollers 6, oil stain absorption on the surface of an extruded adhesive tape through an oil suction roller 3 is realized, the probability of skidding during adhesive tape output is reduced, a cold water pipe 8 in the cooling roller 6 runs through a cold water circulator 7, cold water in the cold water pipe 8 flows to cool the inside of the cooling roller 6 and is discharged to cool air in the cooling roller 6 through a cold air outlet 9, the purposes of continuously providing low temperature for the cooling roller 6, cooling the adhesive tape conveyed on the cooling roller 6 and running through an air cooler 13 on the cooling assembly 11 are achieved, cold air generated by running of a cold air outlet plate 14 to the air cooler 13 is output to the lower side of the cooling roller 6, the efficiency of convection between the inside of the cooling roller 6 and the outside air is further quickened, the adhesive tape conveyed on the cooling roller 6 is cooled again, and the adhesive tape cooling efficiency is improved;

set up compression roller 10 between two chill rolls 6, realize through the removal of compression roller 10 cooperation adhesive tape cooling rolling, rise tightly between two chill rolls 6 to the adhesive tape that conveys on the chill roll 6 rises tightly the output, pile up when avoiding the adhesive tape to be conveyed and appear piling up, cause the problem that the adhesive tape damaged, improve the quality to adhesive tape extrusion cooling shaping.

Finally, it should be noted that: the foregoing description is only illustrative of the preferred embodiments of the present utility model, and although the present utility model has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements or changes may be made without departing from the spirit and principles of the present utility model.

Claims (7)

1. A rubberized fabric machine cooling structure, characterized by comprising:

the adhesive tape output platform (1), the upper part of the adhesive tape output platform (1) is rotatably provided with an oil suction roller (3) through limiting plates (2) on the left side and the right side of the adhesive tape output platform (1), and the braking end of the oil suction roller (3) penetrates through one side of the limiting plate (2) and is connected with a driving motor (5) on the outer side of the limiting plate (2);

the cooling rollers (6), the cooling rollers (6) are provided with two groups, the two groups of cooling rollers (6) are rotationally arranged on a limiting plate (2) at the rear section of the rubberized fabric output platform (1) through bearings, cold water pipes (8) which are U-shaped and are respectively communicated with a cold water circulating machine (7) at two ends are arranged in the cooling rollers (6), the cooling rollers (6) are provided with a plurality of cold air outlets (9) which are communicated with the inner space and are inclined in a splayed shape, and compression rollers (10) are rotationally arranged between the two groups of cooling rollers (6) through the inner sides of the limiting plate (2);

the cooling assembly (11), cooling assembly (11) are including locating mount pad (12) of rubberized fabric output platform (1) bottom, locating air-cooler (13) in mount pad (12), locating cold wind air-out board (14) of rubberized fabric output platform (1) rear section, air-out pipe (15) on air-cooler (13) are put through with cold wind air-out board (14) inside to export cold wind through air-out hole (16) on cold wind air-out board (14).

2. The blanket machine cooling structure of claim 1 wherein: the right end of the rubberized fabric output platform (1) is provided with an L-shaped bracket (17), and a winding roller (18) braked by a winding motor is arranged on the inner side of the top end of the bracket (17).

3. The blanket machine cooling structure of claim 1 wherein: the oil absorbing rollers (3) are made of roller shafts with oil absorbing cotton layers arranged outside, the oil absorbing rollers (3) are provided with two groups, and the two groups of oil absorbing rollers (3) are arranged on the inner side of the limiting plate (2) in a staggered mode.

4. A blanket machine cooling structure as defined in claim 3, wherein: the two groups of oil suction rollers (3) are connected through a first synchronous belt (19), and a brake end of one group of oil suction rollers (3) penetrates through the limiting plate (2) to be connected with a driving motor.

5. The blanket machine cooling structure of claim 1 wherein: the braking ends of the two groups of cooling rollers (6) and the pressing roller (10) are respectively connected through a second synchronous belt (20), and the braking end of one group of cooling rollers (6) is connected with a braking motor.

6. The blanket machine cooling structure of claim 1 wherein: the water inlet end and the water outlet end of the cold water pipe (8) penetrate through the bearing at the left end of the cooling roller (6) in parallel and are rotatably connected with the inner ring of the bearing through an inner bearing.

7. The blanket machine cooling structure of claim 1 wherein: the cold air outlet plate (14) is arranged below the two groups of cooling rollers (6), and the cold air outlet plate (14) is at a 120-degree folding angle.

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