CN222678544U - Oxford cloth coating device - Google Patents

Abstract

The present application relates to an Oxford cloth coating device, comprising a housing, two supporting rollers for supporting the cloth are arranged in the housing, a coating liquid chamber, a coating liquid roller for coating the lower surface of the cloth, a first motor for driving the coating liquid roller to rotate, and a drying assembly for drying the lower surface of the cloth are arranged in the housing, the coating liquid chamber is fixedly arranged in the housing, the upper end surface of the coating liquid chamber is open, the coating liquid roller is rotatably connected to the inner wall of the coating liquid chamber, the upper end surface of the coating liquid roller abuts against the cloth, the output shaft of the first motor is coaxially fixedly connected to the coating liquid roller, the drying device comprises a blowing part, a circulating pump and two suction parts, the blowing part is arranged at the blowing port near the cloth side, the suction part is arranged on both sides of the blowing part perpendicular to the cloth conveying direction, and the circulating pump is connected to the blowing part and the suction part respectively. The present application has the effect of realizing the rapid drying of the Oxford cloth after the coating is completed.

Description

Oxford coating device

Technical Field

The application relates to the technical field of cloth processing, in particular to an oxford coating device.

Background

Oxford is also called oxford, and is a fabric with various functions and wide application, and is mainly used in the market of various varieties such as cover lattice, full stretch, chinlon, lifting lattice and the like.

The chinese patent of application number 202121343448.5 discloses an oxford coating production facility, the power distribution box comprises a box body, the chamber of brushing has been seted up in the box, the stirring chamber, stoving chamber, holding tank and spout, brushing is fixed on the inner wall of one side middle part of chamber of brushing, brushing chamber is close to one side upper portion inner wall of stirring chamber and rotates and be equipped with guide roll one, the bottom mounting of box is equipped with the motor, the output fixedly connected with pivot of motor, the top of pivot extends to the stirring intracavity, the array symmetry is fixed to be equipped with a plurality of puddlers in the pivot that is located the stirring intracavity, fixed being equipped with heating device on the bottom inner wall of stoving chamber, the fixed pump body that is equipped with in holding tank, the input fixedly connected with drawing liquid pipe of pump body, the other end of drawing liquid pipe extends to brushing intracavity, oxford coating production facility, including the box, set up in the box and brushing chamber, stoving chamber, holding tank and spout, fixed being equipped with brushing roller on one side upper portion inner wall of brushing chamber is close to the stirring chamber, it is equipped with guide roll one to rotate on one side upper portion inner wall of stirring chamber, the bottom fixedly connected with pivot of motor, the bottom fixedly connected with pump body of pump body inner wall that is located the stirring chamber, the fixed to the pump body is connected with the inner bottom of pump body, the fixed to the pump body is connected with the inner fixed to the pump body, the inner end of pump body is fixed to be connected with the pump body, the inner end of pump body is fixed to the pump body.

This application has guaranteed through setting up two cavitys that scribble the intracavity raw materials and is in the state of flowing, but because the oxford surface coating who scribbles the coating raw materials is unstable yet, need be with oxford stationary drying a period of time, can make the rolling comparatively troublesome in the production process.

It is therefore necessary to propose a new solution to the above-mentioned problems.

Disclosure of utility model

In order to enhance the drying effect on oxford, the application provides an oxford coating device.

The application provides an oxford coating device, which adopts the following technical scheme:

The utility model provides an oxford cloth coating device, includes the box, is provided with two backing rolls that are used for carrying out the support to the cloth in the box, is provided with the coating liquid chamber in the box, is used for carrying out the coating liquid roller of processing to the cloth lower surface, is used for driving coating liquid roller pivoted first motor and the stoving subassembly that is used for carrying out drying treatment to the cloth lower surface, the coating liquid chamber is fixed to be set up in the box, the up end in coating liquid chamber is the opening setting, the coating liquid roller rotate connect in coating liquid intracavity wall, the up end butt of coating liquid roller in the cloth, first motor fixed set up in the box outside, the coaxial fixed connection of output shaft of first motor in the coating liquid roller, stoving subassembly includes blast portion, circulating pump and two induced drafting portions, blast portion and two induced drafting portions all fix set up in the box, blast portion be close to cloth one side set up in the blast gate, induced drafting portion set up in the both sides of blast portion perpendicular to cloth direction of delivery respectively communicate in blast portion and induced draught portion.

Through adopting above-mentioned technical scheme, the coating liquid roller rotates and carries out the coating to the lower terminal surface of cloth and handle, and the cloth after the coating is accomplished continues to remove, carries the lower terminal surface of cloth with the air through the circulating pump, utilizes the air current reinforcing to the stoving effect of cloth.

Optionally, a stirring cavity is arranged in the box body, the stirring cavity is arranged at the lower end of the liquid coating cavity, a conveying component used for conveying the liquid coating in the stirring cavity to the liquid coating cavity is arranged in the stirring cavity, the conveying component comprises a conveying cylinder, a screw rod and a second motor used for driving the screw rod to rotate, the conveying cylinder is vertically arranged, the upper end of the conveying cylinder is sequentially connected with the upper wall of the stirring cavity and the lower wall of the liquid coating cavity in a penetrating manner, the screw rod is rotationally arranged in the conveying cylinder, the lower end of the screw rod is connected with the stirring cavity in a penetrating manner, a first opening is formed in the side wall of the lower end of the conveying cylinder, the second motor is fixedly arranged in the box body, the conveying shaft of the second motor is connected with the lower end of the screw rod, the side wall of the liquid coating cavity is provided with a liquid outlet pipeline, the two ends of the liquid outlet pipeline are respectively communicated with the liquid coating cavity and the stirring cavity, and one end of the liquid outlet pipeline, which is close to the liquid coating cavity, is higher than the lower end of the liquid coating roller.

By adopting the technical scheme, the coating raw material in the coating liquid cavity flows, and the coating raw material is prevented from generating precipitation and layering in the processing process, so that the coating effect is prevented from being influenced.

Optionally, a heating wire for heating the coating raw material is arranged in the stirring cavity.

Through adopting above-mentioned technical scheme, the heater strip heats the stirring intracavity coating raw materials, preheats the coating raw materials, further promotes the drying rate of cloth.

Optionally, a heat exchange tube is arranged in the stirring cavity, and two ends of the heat exchange tube are respectively communicated with the circulating pump and the air suction part.

Through adopting above-mentioned technical scheme, the air gets into the stirring intracavity along the heat exchange tube, heats the air through the heat exchange tube, improves the stoving effect to the cloth.

Optionally, two ends of the heat exchange tube are fixedly arranged on the inner wall of the stirring cavity, and the heat exchange tube is arranged around the conveying cylinder from top to bottom.

By adopting the technical scheme, the length of the heat exchange tube is prolonged, and the air in the heat exchange tube is ensured to be fully heated.

Optionally, the air blowing opening is arranged along the direction perpendicular to the moving direction of the cloth.

Through adopting above-mentioned technical scheme, guarantee to be more even to the stoving effect of cloth everywhere.

Optionally, a plurality of air blowing openings are arranged in parallel along the direction parallel to the cloth.

Through adopting above-mentioned technical scheme, a plurality of wind mouths of blowing are bloied to the cloth downside simultaneously, are favorable to reinforcing the stoving effect to the cloth.

Optionally, a scraper for scraping liquid on the lower end surface of the cloth is arranged in the box body, and the scraper is arranged between the liquid coating roller and the blowing part.

By adopting the technical scheme, the flatness of the cloth coating is enhanced.

In summary, the present application includes at least one of the following beneficial technical effects:

1. According to the application, air is conveyed to the lower surface of the cloth through the air blowing port of the air blowing part by the circulating pump, and the quick drying treatment of the cloth is realized by the action of air flow.

2. The coating raw materials in the stirring cavity are heated through the heating wire, the coating raw materials are preheated, and the drying rate of the cloth is further improved.

3. The heat exchange tube is used for heating the air sucked by the air suction inlet, so that the temperature of the air blown out by the air blowing inlet is increased, and the drying effect of the air blowing part on the cloth is enhanced.

Drawings

FIG. 1 is a schematic diagram of an embodiment of the present application;

FIG. 2 is a schematic cross-sectional view of an embodiment of the present application;

Fig. 3 is a schematic view of a doctor blade portion according to an embodiment of the application.

In the figure, 1, a box body, 11, a supporting roller, 12, a liquid coating cavity, 121, a liquid outlet pipeline, 13, a liquid coating roller, 131, a first motor, 14, a scraper, 2, a drying component, 21, a blowing part, 211, a blowing opening, 22, a suction part, 221, a suction opening, 23, a circulating pump, 24, a heat exchange tube, 3, a stirring cavity, 31, a heating wire, 4, a conveying component, 41, a conveying cylinder, 42, a screw rod, 43, a second motor, 44, a synchronous belt, 5, a limiting component, 51, a rotating part, 52, a bracket, 53, a bolt, 54 and a limiting plate.

Detailed Description

The present application will be described in further detail with reference to the accompanying drawings.

The application discloses an oxford coating device, which is shown in fig. 1 and 2, and comprises a box body 1, wherein a feed inlet and a discharge outlet are arranged on two sides of the box body 1, a support roller 11 for supporting cloth is arranged on one side, close to the feed inlet and the discharge outlet, of the box body, and one side, to be coated, of the cloth bypasses along the upper end of the support roller 11. The box 1 is internally provided with a liquid coating cavity 12, a liquid coating roller 13 for coating liquid on the lower surface of the cloth, a first motor 131 for driving the liquid coating roller 13 to rotate and a drying assembly 2 for drying the lower surface of the cloth. The upper end of the coating liquid cavity 12 is in an opening arrangement, coating raw materials are filled in the coating liquid cavity 12, two ends of the coating liquid roller 13 are rotationally connected to the inner wall of the box body 1, the lower end of the coating liquid roller 13 is immersed in the coating raw materials of the coating liquid cavity 12, the upper end of the coating liquid roller 13 is abutted to the lower surface of cloth, the first motor 131 is fixedly arranged on the outer wall of the box body 1, one end, close to the first motor 131, of the coating liquid roller 13 extends out of the outer side of the box body 1, a conveying shaft of the first motor 131 and one end, penetrating through the box body 1, of the coating liquid roller 13 are coaxially and fixedly connected, the coating raw materials in the coating liquid cavity 12 are conveyed upwards to the surface of the cloth through the rotation of the first motor 131, and the cloth is subjected to coating treatment.

As shown in fig. 2, a stirring cavity 3 is arranged in the box body 1, the stirring cavity 3 is arranged at the lower side of the liquid coating cavity 12, the lower end face of the liquid coating cavity 12 is fixedly connected with the stirring cavity 3, the stirring cavity 3 is filled with coating raw materials, a conveying component 4 for conveying the coating raw materials in the stirring cavity 3 to the liquid coating cavity 12 is arranged in the stirring cavity 3, the conveying component 4 comprises a conveying cylinder 41, a screw rod 42 and a second motor 43 for driving the screw rod 42 to rotate, the conveying cylinder 41 is arranged in the stirring cavity 3 in a vertical direction, and the upper end of the conveying cylinder 41 is sequentially connected with the stirring cavity 3 and the liquid coating cavity 12 in a penetrating manner, so that the stirring cavity 3 is communicated with the liquid coating cavity 12. The screw rod 42 sets up in carrying the section of thick bamboo 41, and the upper end of screw rod 42 is in same horizontal plane with the up end of carrying the section of thick bamboo 41, and the lower extreme rotation of screw rod 42 is connected in the masking liquid chamber 12, and the lower extreme cross-under of screw rod 42 is in the outer wall of stirring chamber 3, and second motor 43 is fixed to be set up in box 1, and the one end that second motor 43's conveying axle and screw rod 42 passed the masking liquid chamber 12 all is provided with the synchronizing wheel, connects through hold-in range 44 between two synchronizing wheels. The delivery cylinder 41 is provided with a first opening in its end side wall. The side wall of the coating liquid cavity 12 is provided with a liquid outlet pipeline 121, two ends of the liquid outlet pipeline 121 are respectively communicated with the coating liquid cavity 12 and the stirring cavity 3, one end horizontal position of the liquid outlet pipeline 121, which is close to the coating liquid cavity 12, is higher than the lower end of the coating liquid roller 13, and coating raw materials in the coating liquid cavity 12 flow back into the stirring cavity 3 through the liquid outlet pipeline 121. A heating wire 31 is arranged in the stirring cavity 3, and the heating wire 31 is used for heating the coating raw material in the stirring cavity 3.

The drying assembly 2 includes a blowing part 21, a circulation pump 23, and two suction parts 22. The blowing part 21 is fixedly arranged in the box body 1, the blowing opening 211 is arranged at the lower side of the cloth, a plurality of blowing openings 211 are arranged on the upper end surface of the blowing part 21, and the blowing openings 211 are uniformly arranged along the conveying direction of the cloth. The two air suction portions 22 are respectively arranged at two sides of the air blowing portion 21 along the cloth conveying direction, and an air suction opening 221 is arranged at one side of the two air suction portions 22, which is close to each other. The circulation pump 23 is fixedly arranged in the box body 1, the air inlet of the circulation pump 23 is communicated with the air suction part 22, the heat exchange tube 24 is arranged in the stirring cavity 3, two ends of the heat exchange tube 24 are respectively communicated with the circulation pump 23 and the air blowing part 22, the heat exchange tube 24 is made of metal, the heat exchange tube 24 is fixedly arranged on the inner wall of the stirring cavity 3, the heat exchange tube 24 is uniformly arranged from bottom to top around the inner wall of the stirring cavity 3, when air passes through the heat exchange tube 24, air is heated by the coating raw material in the stirring cavity 3, and the heated air is blown to the lower surface of cloth through the air blowing opening 211 to dry the cloth.

As shown in fig. 2 and 3, a scraper 14 for scraping the lower end surface of the cloth is arranged in the box 1, the scraper 14 is arranged between the coating roller 13 and the blowing part 21, two ends of the scraper 14 in the length direction are rotationally connected to the side wall of the box 1, a limiting component 5 for limiting the rotation position of the scraper 14 is arranged on the side wall of the box 1, the limiting component 5 comprises a rotating part 51, a bracket 52 and a bolt 53, the rotating part 51 is rotationally connected to the outer side of the box 1, the rotating part 51 is connected to the side wall of the box 1 in a penetrating manner and is fixedly connected with the scraper 14 in a coaxial manner, and the angle of the scraper 14 is adjusted by the rotating part 51. The rotation part 51 is provided with a limiting plate 54 at the outer side of the box body 1, the bracket 52 is fixedly arranged on the outer wall of the box body 1, the bolt 53 is connected to the bracket 52 in a threaded manner, and one end of the bolt 53 penetrating through the bracket 52 is abutted against one side, far away from the box body 1, of the limiting plate 54.

The implementation principle of the embodiment is as follows:

The heating wire 31 carries out heating treatment to the coating raw material in the stirring cavity 3, the second motor 43 drives the screw rod 42 to rotate, the coating raw material in the stirring cavity 3 is upwards conveyed into the coating cavity 12, the coating roller 13 is driven to rotate by the first motor 131, and the coating effect on cloth is achieved by mutual cooperation between the coating roller 13 and cloth. The position of the scraper 14 is adjusted through the limiting component 5, and when the coated cloth passes through the scraper 14, the coated raw material on the cloth is trimmed by the scraper 14. The circulation pump 23 is started, air is sucked in through the suction inlet 221, heated by the heat exchange tube 24, and then blown to the lower end face of the cloth through the blowing-up opening of the blowing-up part, thereby realizing the drying treatment of the cloth.

The embodiments of the present application are all preferred embodiments of the present application, and are not limited in scope by the present application, so that all equivalent changes according to the structure, shape and principle of the present application are covered by the scope of the present application.

Claims (8)

1. The utility model provides an oxford cloth coating device, includes box (1), is provided with two backing rolls (11) that are used for supporting the cloth in box (1), its characterized in that: the utility model provides a coating liquid chamber (12), be provided with in box (1) be used for carrying out coating liquid processing's coating liquid roller (13) to cloth lower surface, be used for driving coating liquid roller (13) pivoted first motor (131) and be used for carrying out drying process's stoving subassembly (2) to cloth lower surface, coating liquid chamber (12) are fixed to be set up in box (1), the up end in coating liquid chamber (12) is the opening setting, coating liquid roller (13) rotate connect in coating liquid chamber (12) inner wall, the up end butt of coating liquid roller (13) in the cloth, first motor (131) fixed set up in the box (1) outside, the output shaft coaxial fixed connection of first motor (131) in coating liquid roller (13), stoving subassembly (2) are including blast portion (21), circulating pump (23) and two blast portion (22), blast portion (21) and two blast portion (22) all are fixed set up in box (1), blast portion (21) are close to blast portion (21) are set up in blast portion (22) are located in the transport direction of blast portion (211), the circulating pump (23) is respectively communicated with the blowing part (21) and the air suction part (22).

2. The oxford coating device as claimed in claim 1, wherein a stirring cavity (3) is arranged in the box body (1), the stirring cavity (3) is arranged at the lower end of the coating cavity (12), a conveying component (4) for conveying coating liquid in the stirring cavity (3) to the coating cavity (12) is arranged in the stirring cavity (3), the conveying component (4) comprises a conveying cylinder (41), a screw rod (42) and a second motor (43) for driving the screw rod (42) to rotate, the conveying cylinder (41) is vertically arranged, the upper end of the conveying cylinder (41) sequentially penetrates through the upper wall of the stirring cavity (3) and the lower wall of the coating cavity (12), the screw rod (42) is rotatably arranged in the conveying cylinder (41), the lower end of the screw rod (42) penetrates through the stirring cavity (3), the side wall of the lower end of the conveying cylinder (41) is provided with a first motor opening, the second motor (42) is arranged on the side wall of the conveying cylinder (41) and is fixedly connected with the two ends of the stirring cavity (12), the two ends of the stirring cavity (121) are respectively connected with the liquid conveying cylinder (12), the horizontal position of one end of the liquid outlet pipeline (121) close to the liquid coating cavity (12) is higher than the lower end of the liquid coating roller (13).

3. The oxford coating device according to claim 2, wherein a heating wire (31) for heating the coating raw material is arranged in the stirring cavity (3).

4. The oxford coating device according to claim 3, wherein a heat exchange tube (24) is arranged in the stirring cavity (3), and two ends of the heat exchange tube (24) are respectively communicated with the circulating pump (23) and the air suction part (22).

5. The oxford coating device according to claim 4, wherein two ends of the heat exchange tube (24) are fixedly arranged on the inner wall of the stirring cavity (3), and the heat exchange tube (24) is arranged around the conveying cylinder (41) from top to bottom.

6. The oxford coating device as set forth in claim 1, wherein the air blowing port (211) is provided in a direction perpendicular to a moving direction of the cloth.

7. The oxford coating device as set forth in claim 6, wherein the number of the blowing openings (211) is plural, and the plural blowing openings (211) are arranged in parallel in a direction parallel to the cloth.

8. The oxford coating device according to claim 1, wherein a scraper (14) for scraping the lower end surface of the cloth is arranged in the box body (1), and the scraper (14) is arranged between the liquid coating roller (13) and the blowing part (21).