CN211937626U - Glue overflow mechanism is prevented to frictioning for spinning coating machine - Google Patents

Abstract

The utility model provides a glue overflow mechanism is prevented to frictioning for spinning coating machine relates to the textile sector, this glue overflow mechanism is prevented to frictioning for spinning coating machine for the coating of weaving, include the workstation and install the traction wheel at the workstation front end. The adhesive scraping mechanism and the bearing mechanism are arranged on the workbench along the cloth feeding direction, the adhesive scraping mechanism is located above the bearing mechanism, and the adhesive scraping mechanism is used for scraping redundant adhesive on the upper surface of the woven cloth. The receiving mechanism is used for receiving the scraped excessive glue. This glue overflow mechanism is prevented to frictioning for spinning coating machine, through the rotatory rotation of scraper blade, will weave the surperficial unnecessary rubber coating of scraping, play and paint even effect with the rubber coating. The glue is guided to the collecting groove by the cooperation of the transverse plate, the collecting groove and the scraper. And the brush belt is used for re-coating the coating glue in the collecting tank below the woven cloth, so that the effect of recycling the redundant coating glue is achieved. And the phenomenon that the redundant glue is overflowed and dripped to cause waste or influence the surrounding environment is avoided.

Description

Glue overflow mechanism is prevented to frictioning for spinning coating machine

Technical Field

The utility model relates to the field of textile technology, specifically be a glue overflow mechanism is prevented to frictioning for spinning coating machine.

Background

Coating techniques are widely used in textiles. Coating refers to a method of applying a paste polymer, a molten polymer or a polymer melt to a cloth to obtain a composite material. At the coating step, a coater is required.

For example, the Chinese patent net discloses a 'coating device for textile cloth', and the patent number is 201620296217.6. The device is provided with a placing table. The placing table is provided with a lower coating box and an upper coating box, so that the textile cloth passes between the upper coating box and the lower coating box to be coated.

The above devices still suffer from some disadvantages. The coating boxes are arranged on the upper side and the lower side of the textile cloth. Such a coating mode leads to very easily, behind weaving cloth mechanism rubber coating box, the rubber coating spills over easily from the rubber coating box drippage through the extrusion, can not carry out recycle, has both caused the waste, causes the influence to operational environment around easily again.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

The utility model provides a not enough to prior art, the utility model provides a glue overflow mechanism is prevented to frictioning for spinning coating machine has solved general coating machine in the above-mentioned background art when to weaving cloth rubber coating, because the structure is fairly simple, leads to the rubber coating to spill over easily and drip, can not carry out recycle, causes the waste, causes the problem of influence to operational environment on every side again easily.

(II) technical scheme

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: a glue-scraping and glue-overflowing preventing mechanism for a textile coating machine is used for coating woven fabrics and comprises a workbench and a traction wheel arranged at the front end of the workbench. The automatic gluing machine is characterized in that a glue scraping mechanism and a bearing mechanism are arranged on the workbench, the glue scraping mechanism is located above the bearing mechanism, the glue scraping mechanism is used for scraping off redundant glue on the upper surface of a woven fabric, the bearing mechanism is used for bearing the scraped redundant glue and smearing the redundant glue on the lower surface of the woven fabric, a bottom plate is arranged on the workbench, the bottom plate is located between the glue scraping mechanism and the bearing mechanism, and the bottom plate is used for guiding the redundant glue to the bearing mechanism.

Preferably, the frictioning mechanism includes diaphragm, a plurality of scraper blades, master gear, a plurality of pinion and chain, and the diaphragm both ends are connected with the workstation, and a plurality of scraper blades articulate in the diaphragm below, and a plurality of scraper blades are arranged along the width direction of weaving, and the scraper blade bottom can with weave upper surface contact, a plurality of scraper blades and a plurality of pinion one-to-one, the pinion links to each other with the scraper blade, is equipped with the motor on the diaphragm, and the master gear welding is on motor drive shaft, and the master gear passes through the chain and is connected with a plurality of pinion transmission.

Preferably, the receiving mechanism comprises a collecting tank and a brush belt, an opening of the collecting tank faces the glue scraping mechanism, two ends of the collecting tank are connected with the workbench, the width of the brush belt is the same as that of the woven fabric, the upper end of the brush belt is in contact with the lower surface of the woven fabric, and the lower end of the brush belt extends into the collecting tank.

Preferably, the rear end of the workbench is provided with a roller, the end part of the roller is hinged with the workbench, the roller is hollow and can store the glue, one end of the roller is connected with a motor, the other end of the roller is communicated with a glue inlet pipe, and the roller is provided with a glue outlet hole.

Preferably, the bottom plate is provided with grooves, the grooves are located on two sides of the woven fabric and are in a slope shape, and the grooves are used for guiding the redundant glue application to the bearing mechanism.

(III) advantageous effects

The utility model provides a glue overflow mechanism is prevented to frictioning for spinning coating machine. The method has the following beneficial effects:

1. this glue overflow mechanism is prevented to frictioning for spinning coating machine, through the rotatory rotation of scraper blade, will weave the surperficial unnecessary rubber coating of scraping, play and paint even effect with the rubber coating. The glue is guided to the collecting groove by the cooperation of the transverse plate, the collecting groove and the scraper. And the brush belt is used for re-coating the coating glue in the collecting tank below the woven cloth, so that the effect of recycling the redundant coating glue is achieved. And the phenomenon that the redundant glue is overflowed and dripped to cause waste or influence the surrounding environment is avoided.

Drawings

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

FIG. 2 is a partial sectional view of the structure of the present invention;

FIG. 3 is a schematic view of another angle of the structure of the present invention;

FIG. 4 is a sectional view of the roller structure of the present invention;

fig. 5 is the schematic view of the transverse plate structure of the present invention.

In the figure: 1 workbench, 2 traction wheels, 3 weaving, 4 rollers, 41 leakage holes, 5 motors, 6 rubber inlet pipes, 7 transverse plates, 71 grooves, 8 bearing mechanisms, 81 collecting tanks, 82 brush belts, 9 rubber scraping mechanisms, 91 transverse plates, 92 scraping plates, 93 main gears, 94 secondary gears, 95 motors and 96 chains.

Detailed Description

The embodiment of the utility model provides a glue overflow mechanism is prevented to frictioning for spinning coating machine, as shown in fig. 1-5 for 3 coating of weaving, including workstation 1 and install the traction wheel 2 at workstation 1 front end. The traction wheel 2 is used for dragging the woven fabric 3 to advance, so that the prior art is not the innovation point of the scheme, and the specific structure of the traction wheel 2 is the same as that of the prior art, and how to drive the woven fabric is not described.

The workbench 1 is provided with a glue scraping mechanism 9 and a bearing mechanism 8 along the cloth moving direction. The woven fabric 3 firstly passes through the glue scraping mechanism 9 and then passes through the supporting mechanism 8 under the action of the traction wheel 2, the glue scraping mechanism 9 is located above the supporting mechanism 8, and the glue scraping mechanism 9 is used for scraping redundant glue on the upper surface of the woven fabric 3. The receiving mechanism 8 is used for receiving the scraped excessive glue and smearing the excessive glue on the lower surface of the fabric 3. The bottom plate 7 is arranged on the workbench 1, the bottom plate 7 is located between the glue scraping mechanism 9 and the bearing mechanism 8, and the bottom plate 7 is used for guiding redundant glue to the bearing mechanism 8. When the machine works, the glue scraping mechanism 9 uniformly smears the glue on the upper surface of the woven fabric 3 and scrapes off the redundant glue. The excess glue falls onto the bottom plate 7 and is guided into the receiving means 8 under the action of the bottom plate 7. Prevent the rubber coating from overflowing and dripping, and play a role in recycling.

With reference to fig. 1 and 2, the glue spreading mechanism 9 includes a horizontal plate 91, a plurality of scraping plates 92, a main gear 93, a plurality of sub-gears 94 and a chain 96. Both ends of the transverse plate 91 are welded with the workbench 1, a plurality of scraping plates 92 are hinged below the transverse plate 91, and the plurality of scraping plates 92 are arranged along the width direction of the woven cloth 3. The upper end of the scraper 92 extends above the cross plate 91. The bottom end of the scraping plate 92 can contact with the upper surface of the cloth 3. When the coating machine works, the scraper 92 rotates, the coating on the upper surface of the woven fabric 3 is uniformly coated at the bottom of the scraper 92, and redundant coating is scraped.

The plurality of scrapers 92 correspond one-to-one to the plurality of pinions 94. The pinion 94 is welded to the scraper 92. A motor 95 is fixedly mounted on the cross plate 91. The main gear 93 is welded to the drive shaft of the motor 95. The main gear 93 is drivingly connected to a plurality of secondary gears 94 by chains 96. When the scraper chain-rotating device works, the motor 95 drives the main gear 93 to rotate, the main gear 93 drives the chain 96 to rotate, the chain 96 drives the pinion 94 to rotate, and the pinion 94 drives the scraper 92 to rotate.

With reference to fig. 2, the receiving mechanism 8 includes a collecting groove 81 and a brush belt 82, the collecting groove 81 opening toward the glue scraping mechanism 9. The collecting groove 81 is used for receiving the excess glue hanging from the scraper 92. Both ends of the collecting groove 81 are welded with the workbench 1, and the width of the brush belt 82 is the same as that of the woven cloth 3. The upper end of the brush belt 82 contacts with the lower surface of the fabric 3, and the lower end of the brush belt 82 extends into the collecting tank 81. During operation, the brush belt 82 rotates upward to apply the glue in the collection tank 81 to the lower surface of the fabric 3. And because the width of the brush belt 82 is the same as that of the woven fabric 3, the glue can be uniformly coated on the lower surface of the support plate 3.

Compared with the prior art, this glue overflow mechanism is prevented to frictioning for spinning coating machine is rotatory through scraper blade 92, scrapes off the unnecessary rubber coating on 3 surfaces of weaving, plays and paints even effect with the rubber coating. By means of the cooperation of the bottom plate 7, the collection trough 81 and the scraper 92, the glue will be directed into the collection trough 81. The brush belt 82 is used for coating the glue in the collecting tank 81 below the woven fabric 3 again, so that the effect of recycling the redundant glue is achieved. And the phenomenon that the redundant glue is overflowed and dripped to cause waste or influence the surrounding environment is avoided.

The brush belt 82 operates on the same principle as the prior art conveyor belt. Also, it is considered that a brush is fixedly installed on the surface of the conveyor belt. Since the operating principle of the brush belt 82 is the same as that of the prior art, and the present solution is not modified here, the detailed structure and the like will not be described.

As can be seen from the drawing, the upper end of the brush belt 82 extends forward of the squeegee 92. The scraper 92 scrapes off the excess glue and drops it into the collection tank 81, and the brush belt 82 again coats the excess glue on the fabric 3, which is completely time-consuming and indeed possible.

Referring to fig. 4, a roller 4 is hinged at the rear end of the workbench 1. 4 tip of cylinder are articulated with workstation 1, and 4 inside hollows of cylinder can save the rubber coating, and 4 one ends of cylinder are connected with motor 5, and motor 5 welds with workstation 1, and 5 transmission shafts of motor weld with cylinder 4. The other end of the roller 4 is communicated with a rubber inlet pipe 6, and the roller 4 is provided with a rubber outlet hole 41. When the automatic gluing machine works, the motor 5 drives the roller 4 to rotate, simultaneously, the glue is injected into the roller 4 through the glue inlet pipe 6, and the glue flows out from the leakage hole.

The end of the bottom plate 7 is located within the collection trough 81. The bottom plate 7 is provided with a groove 71. The grooves 71 are positioned at two sides of the woven fabric 3, the inner walls of the grooves 71 are in a slope shape, and the grooves 71 are used for guiding the redundant glue to the bearing mechanism 8. During operation, the excess glue flows into the groove 71 under the action of the scraper 92, the inner wall of the groove is in a slope shape, and the glue flows downwards and drops into the collecting tank 81 of the receiving mechanism 8.

The working principle is as follows: when the device is used, the motor 95 drives the main gear 93 to rotate, the scraper 92 is made to rotate, the bottom of the scraper 92 uniformly coats the surface coating on the woven fabric 3, and the redundant coating is scraped off. The excess glue flows into the groove 71 under the action of the scraper 92, the inner wall of the groove is in a slope shape, and the glue flows downwards and drops into the collecting tank 81 of the receiving mechanism 8. The brush belt 82 is rotated upward to apply the glue in the collection tank 81 to the lower surface of the fabric 3.

To sum up, this glue overflow mechanism is prevented to frictioning for spinning coating machine is rotated through scraper blade 92 and is rotated, scrapes off the unnecessary rubber coating on 3 surfaces of weaving, plays and paints even effect with the rubber coating. By means of the cooperation of the bottom plate 7, the collection trough 81 and the scraper 92, the glue will be directed into the collection trough 81. The brush belt 82 is used for coating the glue in the collecting tank 81 below the woven fabric 3 again, so that the effect of recycling the redundant glue is achieved. And the phenomenon that the redundant glue is overflowed and dripped to cause waste or influence the surrounding environment is avoided.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The utility model provides a glue overflow mechanism is prevented to frictioning for weaving coating machine for (3) coating weaves, includes workstation (1) and installs traction wheel (2) at workstation (1) front end, its characterized in that: be equipped with on workstation (1) and scrape gluey mechanism (9) and receiving mechanism (8), it is located receiving mechanism (8) top to scrape gluey mechanism (9), it is used for scraping the unnecessary rubber coating of (3) upper surface of weaving to scrape gluey mechanism (9), receiving mechanism (8) are used for accepting the unnecessary rubber coating of being scraped to scribble unnecessary rubber coating and scribble unnecessary rubber coating at (3) lower surface of weaving, be equipped with bottom plate (7) on workstation (1), bottom plate (7) are located and scrape between gluey mechanism (9) and receiving mechanism (8), bottom plate (7) are used for leading receiving mechanism (8) with unnecessary rubber coating.

2. The glue spreading and overflow preventing mechanism for the textile coating machine as claimed in claim 1, wherein: the glue scraping mechanism (9) comprises a transverse plate (91), a plurality of scraping plates (92), a main gear (93), a plurality of auxiliary gears (94) and a chain (96), two ends of the transverse plate (91) are connected with the workbench (1), the scraping plates (92) are hinged below the transverse plate (91), the scraping plates (92) are arranged in the width direction of woven cloth (3), the bottom ends of the scraping plates (92) can be in contact with the upper surface of the woven cloth (3), the scraping plates (92) correspond to the auxiliary gears (94) one by one, the auxiliary gears (94) are connected with the scraping plates (92), a motor (95) is arranged on the transverse plate (91), the main gear (93) is welded on a transmission shaft of the motor (95), and the main gear (93) is in transmission connection with the auxiliary gears (94) through the chain (96).

3. The glue spreading and overflow preventing mechanism for the textile coating machine as claimed in claim 1, wherein: the receiving mechanism (8) comprises a collecting tank (81) and a brush belt (82), the opening of the collecting tank (81) faces to the glue scraping mechanism (9), two ends of the collecting tank (81) are connected with the workbench (1), the width of the brush belt (82) is the same as that of the woven cloth (3), the upper end of the brush belt (82) is in contact with the lower surface of the woven cloth (3), and the lower end of the brush belt (82) extends into the collecting tank (81).

4. The glue spreading and overflow preventing mechanism for the textile coating machine as claimed in claim 1, wherein: workstation (1) rear end is equipped with cylinder (4), and cylinder (4) tip is articulated with workstation (1), and the rubber coating can be stored to inside cavity of cylinder (4), and cylinder (4) one end is connected with motor (5), and cylinder (4) other end communicates with each other and has into rubber tube (6), and leak hole (41) of glue are seted up out in cylinder (4).

5. The glue spreading and overflow preventing mechanism for the textile coating machine as claimed in claim 1, wherein: the bottom plate (7) is provided with grooves (71), the grooves (71) are positioned on two sides of the woven fabric (3), the grooves (71) are in a slope shape, and the grooves (71) are used for guiding the redundant glue to the bearing mechanism (8).

Images