CN111822227B

CN111822227B - Rubber scraping structure of rubber stirring wheel of cord fabric gluing machine

Info

Publication number: CN111822227B
Application number: CN201910328924.7A
Authority: CN
Inventors: 郑国宝
Original assignee: Qingdao Lianqiao Intelligent Manufacturing Co ltd
Current assignee: Qingdao Lianqiao Intelligent Manufacturing Co ltd
Priority date: 2019-04-23
Filing date: 2019-04-23
Publication date: 2021-11-16
Anticipated expiration: 2039-04-23
Also published as: CN111822227A

Abstract

The invention provides a glue scraping structure of a glue stirring wheel of a cord fabric gluing machine, which comprises a machine table, a glue dipping machine, a glue spreading mechanism and a glue spreading mechanism, wherein the machine table is provided with a glue dipping space, and a cord fabric conveying path is defined by the machine table to pass through the glue dipping space; the glue stirring unit is arranged on the machine table and is provided with two glue stirring wheels which rotate reversely, and the cord fabric conveying path passes through the space between the two glue stirring wheels; and the scraping unit is arranged on the rubber poking unit and at least provided with two first scraping blades which are respectively contacted with the two rubber poking wheels along the axial direction of the two rubber poking wheels. The two first scraping pieces can be used for continuously removing redundant glue solution of the two glue poking wheels, and the continuous production and the increase of the output value of the cord fabric can be ensured without stopping the machine frequently for removing the glue.

Description

Rubber scraping structure of rubber stirring wheel of cord fabric gluing machine

Technical Field

The invention relates to a frictioning structure capable of continuously removing viscose glue adhered on a rubber poking wheel of a cord fabric gumming machine, so that the cord fabric gumming machine can work for a long time without frequently stopping to carry out the degumming operation of the rubber poking wheel.

Background

At present, the inner part of the common tire, bullet-proof vest and other structures is combined with a piece of cord fabric to increase the strength. The cord fabric is mainly made of strong plied yarns as warps and medium and fine single yarns as wefts, so that the warp yarns are closely arranged and the weft yarns are sparsely arranged and are like a cord, and the cord fabric is called as the cord fabric. The cord fabric can be used for manufacturing inner layers of tires, body armor and the like, so that the cord fabric can bear huge pressure, impact load and strong vibration.

Regarding the manufacturing process of cord fabric, the patent of "dipping station of cord fabric and canvas dipping machine" of utility model CN202238530 published by china in 5.30.2012, wherein the patent discloses a tension station before dipping, a tension detecting roller, a dipping tank, an extruding device and a dipping tension station, a vacuum glue absorbing device, an oven and a post-dipping tension station in turn according to the dipping process. The method can improve the permeability of the dipping solution to the cord fabric and the canvas, thereby improving the product quality and leading the dipped cord fabric and the canvas to reach an ideal dipping state.

The patent prior art uses a traction group consisting of a plurality of rollers to adjust the gap between the rollers, so as to adjust different tensions. By using low tension impregnation, enough space is formed between fabric fibers, so that latex particles in impregnation liquid can permeate conveniently, and the permeability is further improved under the extrusion action of low tension. After vacuum glue absorption, residual glue dipping liquid is absorbed, and redundant latex of the inner core is extruded to the outer surface under high tension drying, so that the glue adhering amount of the outer surface is larger than that of the inner core, the inner core has enough permeation amount, and no gap exists. However, after the glue solution is extruded by the rollers in a rolling manner, the glue solution remains on the surfaces of the rollers and is dried and solidified after a period of time, so that the effect of extruding the glue solution is affected.

There is No. CN109277252 patent of "novel gumming cord fabric frictioning device" of utility model published in 29 th of 1 month in 2019, disclose cord fabric through the gumming roller in the gumming groove after the transition roller and with the other contact of scraper mechanism of transition roller, scraper mechanism includes main scraper and marginal scraper, main scraper is fixed at the installing support lower extreme, the installing support upper end is rotated with the pivot of installing the dead lever lower extreme on the overhead gage and is connected, the transfer line lower extreme is connected with the installing support transmission through the pivot, the transfer line upper end is connected with the free end of a pneumatic cylinder through a connecting piece, this pneumatic cylinder sets up on the overhead gage, the marginal scraper sets up in the installing support both sides. The main scraper can scrape off the surface glue solution of the cord fabric, and the edge scraper can scrape off the redundant glue solution at the two ends of the cord fabric.

The prior art of the patent uses a main scraper and an edge scraper to scrape off the redundant glue solution on the surface of the cord fabric, but the glue solution on the surface of the roller for transmission cannot be removed, and the whole glue spreader needs to be stopped after every few days to remove the glue of the roller, so the prior art is still not ideal in use.

Disclosure of Invention

In view of the above-mentioned drawbacks of the current machines for gluing draperies.

The invention provides a rubber scraping structure of a rubber poking wheel of a cord fabric rubber coating machine, which is characterized by comprising the following components:

a machine station, which is provided with a dipping space and defines a cord fabric conveying path passing through the dipping space;

the glue stirring unit is arranged on the machine table and is provided with two glue stirring wheels which rotate reversely, and the cord fabric conveying path passes through the space between the two glue stirring wheels;

and the scraping unit is arranged on the rubber poking unit and at least provided with two first scraping blades which are respectively contacted with the two rubber poking wheels along the axial direction of the two rubber poking wheels.

The rubber poking wheel frictioning structure of the cord fabric gumming machine is characterized in that the two rubber poking wheels are respectively arranged on a movable seat, the two movable seats are respectively combined with a first power unit, and the two first power units can respectively drive the two movable seats to move relatively so as to adjust a rubber poking gap between the two rubber poking wheels.

The rubber scraping structure of the rubber stirring wheel of the cord fabric rubber coating machine is characterized in that the two first power units are respectively provided with a first guide screw, the two first guide screws respectively penetrate through the two moving seats, and the two first power units respectively drive the two first guide screws to rotate so as to enable the two moving seats to move relatively.

The rubber scraping structure of the rubber stirring wheel of the cord fabric rubber coating machine is characterized in that the rubber stirring unit is provided with a frame, the frame is relatively and transversely fixed between the two movable seats, the two first scraping pieces are respectively combined with a second power unit, the two second power units are respectively arranged on two sides of the frame, and the two second power units respectively drive the two first scraping pieces to relatively move in the two rubber stirring wheels.

The rubber scraping structure of the rubber stirring wheel of the cord fabric rubber coating machine is characterized in that the scraping unit is provided with two scraping frames, the two first scraping pieces are respectively arranged on the scraping frames, the two scraping frames are respectively provided with a second scraping piece, the two second scraping pieces are respectively contacted with the two rubber stirring wheels along the axial direction of the two rubber stirring wheels, the two second power units are respectively connected with a second guide screw rod, the two second guide screw rods are respectively penetrated through the two scraping frames, and the two second power units respectively drive the two second guide screw rods to rotate so that the two scraping frames respectively drive the two first scraping pieces and the two second scraping pieces to relatively move in the two rubber stirring wheels.

The rubber scraping structure of the rubber stirring wheel of the cord fabric gluing machine is further provided with an extrusion unit, the extrusion unit is arranged on the machine table and provided with two extrusion wheels rotating in opposite directions, the cord fabric conveying path passes through the space between the two extrusion wheels, one of the extrusion wheels is combined with a third power unit, and the third power unit drives one of the extrusion wheels to move relative to the other extrusion wheel so as to adjust an extrusion gap between the two extrusion wheels.

The rubber scraping structure of the rubber stirring wheel of the cord fabric gluing machine is characterized in that two ends of one of the extrusion wheels are respectively combined with a rocker arm, the two rocker arms are pivoted on the machine table and are respectively combined with one end of a pressure rod, each pressure rod is connected with a third power unit, and the two third power units respectively drive the two pressure rods to move in a stretching mode so as to synchronously drive one of the extrusion wheels to move relative to the other extrusion wheel.

The rubber scraping structure of the rubber poking wheel of the cord fabric rubber coating machine is characterized in that two guide wheels are arranged in the rubber dipping space, and the cord fabric conveying path passes through the two guide wheels.

The above technical features have the following advantages:

1. the first scraping piece and the second scraping piece can scrape redundant glue solution on the glue poking wheel, so that the glue poking wheel can be kept clean for a long time, and the normal shutdown is not needed for glue removing operation, thereby ensuring the continuous production of the cord fabric and increasing the output value.

2. The second power unit is used for driving the first scraping piece and the second scraping piece to move relatively to the rubber poking wheel respectively, so that the first scraping piece and the second scraping piece can leave the rubber poking wheel to manually clean residual rubber on the first scraping piece and the second scraping piece, and the second power unit is used for driving the first scraping piece and the second scraping piece to move to the rubber poking wheel respectively after cleaning, so that rubber can be continuously scraped. The existing rubber poking wheel without the first scraping piece and the second scraping piece needs to be stopped and cleaned about every 2-3 days.

3. The second power unit is used for driving the first scraping piece and the second scraping piece to move relatively to the rubber poking wheel respectively so as to adjust the pressure of the first scraping piece and the second scraping piece when the first scraping piece and the second scraping piece are contacted with the rubber poking wheel respectively, and the best rubber removing force can be obtained.

4. The first power unit drives the two rubber poking wheels to move relatively respectively so as to adjust the rubber poking gap between the two rubber poking wheels, so that different pressures can be generated on the cord fabric, and redundant rubber liquid on the two surfaces of the cord fabric can be removed.

5. The third power unit is used for driving one of the extrusion wheels to move relative to the other extrusion wheel so as to adjust the extrusion gap between the two extrusion wheels, so that different pressures can be generated on the cord fabric, and redundant glue solution on the two surfaces of the cord fabric can be removed.

Drawings

Fig. 1 is a perspective view of an embodiment of the present invention.

Fig. 2 is a combined cross-sectional view of an embodiment of the present invention.

FIG. 3 is an enlarged view of a partial assembled cross-section of an embodiment of the present invention.

Fig. 4 is a partially enlarged perspective view of the pressing unit according to the embodiment of the present invention.

FIG. 5 is a schematic view of the embodiment of the present invention for conveying the cord fabric for removing the glue.

FIG. 6 is a schematic view of a cord fabric passing through a stripper wheel and a squeeze wheel in accordance with an embodiment of the present invention.

Description of reference numerals: 1-a machine platform; 11-glue dipping space; 12-an input terminal; 13-an output terminal; 14-a guide wheel; 2-a glue-pulling unit; 21-a rubber poking wheel; 22-a mobile seat; 23-a first power unit; 24-a first lead screw; 25-a frame; 3-a blade unit; 31-a first wiper blade; 32-a second wiper blade; 33-a doctor blade frame; 34-a second power unit; 35-a second lead screw; 4-an extrusion unit; 41-an extrusion wheel; 42-a third power unit; 43-rocker arm; 44-a compression bar; a-a cord fabric transport path; b-glue-stripping gap; c-extrusion gap; d-cord fabric.

Detailed Description

Referring to fig. 1 and 2, an embodiment of the present invention includes: board 1, group glue unit 2, doctor-bar unit 3 and extrusion unit 4, wherein:

the machine 1 is provided with a dipping space 11 at the bottom, the machine 1 is provided with an input end 12 and an output end 13, and a cord fabric conveying path A is defined from the input end 12, passes through the dipping space 11 and then is output through the output end 13. The input end 12 of the embodiment of the present invention is defined at the side position of the machine 1, and the output end 13 is defined at the upper position of the machine 1. Two guide wheels 14 are arranged in the dipping space 11, and the two guide wheels 14 are arranged in front and back, so that the cord fabric conveying path A sequentially passes through the two guide wheels 14. The rotation direction of the two guide wheels 14 is opposite to the conveying direction of the cord fabric conveying path a.

The glue-poking unit 2 is arranged on the machine table 1. The glue-poking unit 2 is provided with two glue-poking wheels 21 which rotate reversely. The two rubber-stripping wheels 21 are respectively arranged on a moving seat 22, the two moving seats 22 are respectively combined with a first power unit 23, and a group of the first power units 23 is respectively combined at two ends of each moving seat 22 in the embodiment of the invention. The two first power units 23 are respectively provided with a first lead screw 24, and the two first lead screws 24 are respectively arranged through the two moving seats 22. The two first power units 23 are used to drive the two first lead screws 24 to rotate, so that the two moving seats 22 can move relatively to approach or separate from each other. The two first power units 23 can respectively drive the two movable bases 22 to move relatively, so as to adjust a glue dispensing gap B (as shown in fig. 3) between the two glue dispensing wheels 21. The cord fabric transport path a passes through the glue dispensing gap B between the two glue dispensing wheels 21. The two glue-removing wheels 21 are driven to rotate by a power source (not shown), and the rotating direction of the two glue-removing wheels 21 is opposite to the conveying direction of the cord fabric conveying path a. The glue-stripping unit 2 is provided with a frame 25, and the frame 25 is fixed between the two movable bases 22 in the transverse direction.

And the scraping blade unit 3 is arranged on the glue poking unit 2. As shown in fig. 3, the blade unit 3 has two first blades 31, two second blades 32 and two blade frames 33, and the two first blades 31 and the two second blades 32 are respectively disposed on the two blade frames 33. The two first scraping blades 31 and the two second scraping blades 32 are respectively contacted with the two rubber-poking wheels 21 along the axial direction of the two rubber-poking wheels 21. The blade unit 3 is provided with two second power units 34, and the two second power units 34 are respectively arranged at two sides of the frame 25. The two second power units 34 are respectively connected to a second lead screw 35, the two second lead screws 35 respectively penetrate through the two blade frames 33, and the two second power units 34 respectively drive the two second lead screws 35 to rotate, so that the two blade frames 33 respectively drive the two first blades 31 and the two second blades 32 to relatively move on the two rubber-removing wheels 21.

And the extrusion unit 4 is arranged on the machine table 1. As shown in fig. 4, the pressing unit 4 is provided with two pressing wheels 41 that rotate in opposite directions. Two ends of one of the squeezing wheels 41 are respectively combined with a third power unit 42, and the two third power units 42 are respectively fixed on the machine 1. Two ends of the extrusion wheel 41 are respectively combined with a swing arm 43, and the two swing arms 43 are pivoted on the machine table 1. The two third power units 42 are respectively provided with a pressure lever 44, one end of each of the two pressure levers 44 is respectively coupled to the two rocker arms 43, and the two third power units 42 respectively drive the two pressure levers 44 to move in a telescopic manner so as to synchronously drive the extrusion wheels 41 to move relative to the other extrusion wheel 41, thereby adjusting an extrusion gap C (as shown in fig. 3) between the two extrusion wheels 41. The cord fabric conveying path a passes through the pressing gap C between the two pressing wheels 41. The two squeezing wheels 41 are driven by a power source (not shown) to rotate, and the rotating direction of the two squeezing wheels 41 is the same as the conveying direction of the cord fabric conveying path a.

In use, as shown in fig. 5 and 6, the cord fabric D is fed from the feeding end 12, then conveyed along the cord fabric conveying path a (as shown in fig. 2), and sequentially guided by the two guide wheels 14, so that the cord fabric D is subjected to a dipping operation in the dipping space 11. Then the cord fabric D continues to pass through the glue dispensing gap B between the two glue dispensing wheels 21 and the extrusion gap C between the two extrusion wheels 41, and is then output from the output end 13 for further performing the subsequent operation processes such as vacuum glue absorption, heating and drying.

After the cord fabric D is dipped in the glue through the glue dipping space 11, two sides of the cord fabric D have excessive glue, so that when the cord fabric D passes through the glue dipping gap B between the two glue dipping wheels 21, the excess glue is removed through the two glue dipping wheels 21 during rotation. The redundant glue solution attached to the two rubber-poking wheels 21 can be respectively scraped by the two first scraping pieces 31 and the two second scraping pieces 32 which are contacted with the two rubber-poking wheels 21 when the two rubber-poking wheels 21 rotate, and the redundant glue solution after being scraped can fall into the glue dipping space 11, so that the redundant glue solution can not be attached to the two rubber-poking wheels 21, the two rubber-poking wheels can be kept clean for a long time, and the glue removing operation of the two rubber-poking wheels 21 can be carried out without frequent shutdown, so that the continuous production of the cord fabric D can be ensured, and the production value can be increased.

In the process of removing glue, as shown in fig. 6, the two first power units 23 can drive the two first lead screws 24 to rotate respectively, so that the two moving seats 22 can move relatively close to or away from each other, and the two moving seats 22 respectively drive the two glue-removing wheels 21 to move relatively, so as to adjust the glue-removing gap B between the two glue-removing wheels 21, and generate different pressures on the cord fabric D, so as to remove the redundant glue on the surface.

Similarly, the two third power units 42 respectively drive the two pressing rods 44 to move telescopically, so as to synchronously drive one of the pressing wheels 41 to move relatively to the other pressing wheel 41, so as to adjust the pressing gap C between the two pressing wheels 41, so as to generate different pressures for the cord fabric D, thereby removing the redundant glue on the surface.

And the two second power units 34 are used to drive the two second lead screws 35 to rotate, so that the two first scraping blades 31 and the two second scraping blades 32 move relative to the two rubber-removing wheels 21, so as to adjust the pressure when the two first scraping blades 31 and the two second scraping blades 32 contact the two rubber-removing wheels 21, thereby providing the best rubber-removing capability. In addition, the two second power units 34 are used to drive the two second lead screws 35 to rotate respectively, so that the two first scraping pieces 31 and the two second scraping pieces 32 are relatively far away from the two rubber-removing wheels 21, sufficient space can be provided for cleaning the two first scraping pieces 31 and the two second scraping pieces 32, and after the cleaning is finished, the two second power units 34 are used to drive the two second lead screws 35 to rotate respectively, so that the two first scraping pieces 31 and the two second scraping pieces 32 are relatively close to each other and contact the two rubber-removing wheels 21.

The foregoing description is intended to be illustrative rather than limiting, and it will be appreciated by those skilled in the art that many modifications, variations or equivalents may be made without departing from the spirit and scope of the invention as defined in the appended claims.

Claims

1. The utility model provides a curtain fabric spreading machine's group's rubber tyer frictioning structure which characterized in that includes:

the scraping unit is at least provided with two first scraping pieces, the two first scraping pieces are respectively contacted with the two rubber stirring wheels along the axial direction of the two rubber stirring wheels, the two rubber stirring wheels are respectively arranged on a moving seat, the two moving seats are respectively combined with a first power unit, the two first power units can respectively drive the two moving seats to relatively move so as to adjust a rubber stirring gap between the two rubber stirring wheels, the rubber stirring unit is provided with two frames, the two frames are relatively and transversely fixed between the two moving seats, the two first scraping pieces are respectively combined with a second power unit, the two second power units are respectively arranged on two sides of the two frames, and the two second power units respectively drive the two first scraping pieces to relatively move in the two rubber stirring wheels.

2. The structure of claim 1, wherein the two first power units are respectively provided with a first guide screw, the two first guide screws respectively penetrate through the two movable bases, and the two first power units respectively drive the two first guide screws to rotate, so as to move the two movable bases relatively.

3. The structure of claim 1, wherein the scraping unit has two scraping frames, the first scraping blades are respectively disposed on the scraping frames, the two scraping frames are respectively disposed with a second scraping blade, the second scraping blades respectively contact with the two scraping wheels along the axial direction of the two scraping wheels, the second power units are respectively connected with a second lead screw, the second lead screws respectively penetrate through the two scraping frames, the second power units respectively drive the second lead screws to rotate, so that the two scraping frames respectively drive the first scraping blades and the second scraping blades to relatively move relative to the two scraping wheels.

4. The structure of claim 1, further comprising an extruding unit disposed on the machine platform, wherein the extruding unit comprises two extruding wheels rotating in opposite directions, the cord fabric conveying path passes through the space between the two extruding wheels, one of the extruding wheels is combined with a third power unit, and the third power unit drives one of the extruding wheels to move relative to the other extruding wheel, so as to adjust an extruding gap between the two extruding wheels.

5. The structure of claim 4, wherein two ends of one of the extrusion wheels are respectively connected to a rocker, the two rockers are pivotally connected to the machine, the two rockers are respectively connected to one end of a press rod, each press rod is connected to a third power unit, and the two third power units respectively drive the two press rods to move in a telescopic manner so as to synchronously drive one of the extrusion wheels to move relative to the other extrusion wheel.

6. The structure of claim 1, wherein two guide wheels are provided in the dipping space, and the cord fabric conveying path passes through the two guide wheels.