CN112191450A - A rubberizing coating device for glass fiber sleeve pipe processing - Google Patents

Abstract

The invention discloses a gluing and coating device for processing a glass fiber sleeve, which comprises a gluing bin, a first winding roller, a second winding roller, a clearance groove, a gluing component and a communicating component, wherein the gluing component comprises a glue storage bin arranged on the inner top wall of the gluing bin, the bottom of the glue storage bin is provided with a glue spraying bin which is gradually opened from top to bottom, and the glue spraying bin is positioned right above the glass fiber sleeve; the communicating component is used for communicating the glue storage bin with the external air compression equipment, the external air compression equipment generates compressed air which is conveyed to the glue storage cavity through the communicating component, and the glue in the glue storage bin is pressurized, so that the glue is quickly sprayed out of the opening of the glue spraying bin onto the glass fiber sleeve. According to the invention, the glue spraying bin is arranged, and compressed air is conveyed into the glue storage bin by the external air compression equipment, so that glue is pressurized, is sprayed onto the glass fiber sleeve at a high flow rate, the firmness of bonding the glue on the surface of the glass fiber sleeve is improved, and the gluing quality is further improved.

Description

A rubberizing coating device for glass fiber sleeve pipe processing

Technical Field

The invention relates to the field of gluing equipment, in particular to a gluing and coating device for processing a glass fiber sleeve.

Background

The glass fiber sleeve is also called: glass fiber sleeve, high temperature sleeve, alkali-free glass fiber sleeve, B-type glass fiber sleeve, high temperature-resistant sleeve and the like. The glass fiber sleeve is woven by alkali-free glass fiber raw yarn or bulked yarn. Has the excellent characteristics of fire prevention, heat insulation, flame retardance and the like. The glass fiber sleeve is mainly used for electrical appliance insulating materials. The K-B thermal shrinkage busbar protective sleeve is formed by adopting high-quality polymer and environment-friendly flame retardant through radiation crosslinking expansion after a product is formed, and is widely applied to protection of busbars in switch cabinets and outdoor busbars. The short circuit fault caused by mice, snakes and other small animals is avoided; preventing chemical substances such as acid, alkali, salt and the like from corroding the busbar; the maintenance personnel are prevented from entering the electrified section by mistake to cause accidental injury; the method is suitable for the development trend of miniaturization of the switch cabinet, and solves the problem of interphase insulation of the bus ducts.

In the process of processing and manufacturing the glass fiber sleeve, the surface of the glass fiber sleeve needs to be coated with glue, at present, the glass limiting sleeve is mainly wound on a winding roller, and the glass fiber sleeve is immersed in the glue to realize the coating, but the glue is required to be adhered to the surface of the glass fiber sleeve through the self-adhesive capacity in the mode, so the glue coating effect is not ideal.

To solve the above problems, we propose a size coating device for glass fiber bushing processing.

Disclosure of Invention

The technical problem to be solved by the invention is to overcome the defects of the prior art, and to solve the technical problem, the invention provides a gluing and coating device for processing a glass fiber sleeve, and the invention provides the following technical scheme:

the invention provides a gluing and coating device for processing a glass fiber sleeve, which comprises:

the outer walls of two opposite sides of the gluing bin are respectively and horizontally provided with a winding roller through a support, the two winding rollers are respectively defined as a first winding roller and a second winding roller, at least one of the first winding roller and the second winding roller is driven by an external motor to rotate, so that the first winding roller and the second winding roller can wind the glass fiber sleeve, and correspondingly, the outer wall of the gluing bin is provided with a clearance groove for the glass fiber sleeve to freely pass through when being wound on the first winding roller and the second winding roller;

the glue spreading component comprises a glue storage bin arranged on the inner top wall of the glue spreading bin, the bottom of the glue storage bin is provided with a glue spraying bin which gradually narrows from top to bottom, and the glue spraying bin is positioned right above the glass fiber sleeve;

the communicating component is used for communicating the glue storage bin with external air compression equipment, the external air compression equipment generates compressed air which is conveyed to the glue storage cavity through the communicating component and pressurizes glue in the glue storage bin, and the glue is rapidly sprayed out of a mouth of the glue spraying bin onto the glass fiber sleeve.

Preferably, the communicating component comprises a mounting seat mounted on the top wall in the gluing cabin, a connecting rod passing through the lower end of the mounting seat in a sliding manner is arranged on the mounting seat, a roller is rotatably connected to the lower end of the connecting rod, a piston is arranged at one end of the connecting rod passing through the mounting seat, correspondingly, a sliding groove for coaxially and slidably clamping the piston is arranged in the mounting seat, a fixed plug is coaxially and fixedly connected in the sliding groove, a first through hole in a through hole form is coaxially arranged on the fixed plug, the outer diameter of the connecting rod is smaller than that of the first through hole and passes out of the first through hole, the fixed plug is positioned below the piston, a plurality of second through holes in a through hole form are arranged on the end face of the piston, the second through holes are staggered with the first through hole, so that when the piston abuts against the end face of the fixed plug, the abutting face has an airtight state, the elastic piece is propped against the piston and drives the piston to move downwards, two through hole type vent holes communicated with the sliding groove are arranged on the outer wall of the mounting seat, the two vent holes are respectively positioned on the upper part and the lower part of the fixed plug, wherein a vent hole positioned above the fixed plug is communicated with the glue storage bin through a mounting pipeline, when the roller is pressed against the glass fiber sleeve, the glass fiber sleeve has a pressing force on the roller to ensure that the piston moves upwards, and the compressed air generated by the external air compression equipment enters the sliding groove through the vent hole at the lower part, then enters another vent hole through the first communicating hole and the second communicating hole and then enters the glue storage bin, and generating high pressure on the glue in the glue storage bin to ensure that the glue is sprayed out to the surface of the glass fiber sleeve from the lower port part of the glue spraying bin.

Preferably, the piston and the fixed plug are made of rubber materials.

Preferably, the elastic member is a compression spring vertically installed in the sliding groove, and two ends of the elastic direction of the compression spring respectively abut against the inner top wall and the piston of the sliding groove.

Preferably, a glue scraping component used for scraping glue on the glass fiber sleeve is further arranged in the gluing bin, so that the glue on the glass fiber sleeve is uniform in thickness.

Preferably, the frictioning subassembly is including locating the fixed free bearing on the rubberizing storehouse inner wall, it has the scraper blade that can overturn from top to bottom to articulate on the fixed free bearing, the surface of the glass fiber sleeve pipe after the rubber coating is contradicted to the scraper blade lower extreme, the scraper blade is driven its along and fixed free bearing articulated department by drive assembly and is rotated.

Preferably, the driving assembly comprises a telescopic sleeve hinged on the inner wall of the gluing bin, a telescopic column is hinged on the scraper, the telescopic column is coaxially and slidably inserted into the telescopic sleeve, a clamping block made of magnetic material is coaxially arranged on the telescopic sleeve, correspondingly, a clamping groove for clamping the clamping block and freely sliding along the axial direction of the clamping block is formed in the telescopic sleeve, an electromagnet is arranged on the inner wall of one side of the clamping groove, which is far away from the telescopic column, and is matched with the clamping block for use, so that the electromagnet generates magnetism when being electrified and generates magnetic force adsorption on the clamping block, the clamping block moves towards the electromagnet in the clamping groove, the scraper is driven to rotate along the hinged position with the fixed hinged seat, a tension spring is further arranged in the clamping groove, the tension spring is sleeved on the telescopic column, two ends of the tension spring are respectively welded on the inner wall of the other side of the clamping groove and, and pulling the fixture block to move, so that the scraper plate rotates upwards and is far away from the glass fiber sleeve.

Compared with the prior art, the invention has the following beneficial effects: through arranging the glue spraying bin, compressed air is conveyed into the glue storage bin by external air compression equipment, so that glue is pressurized, the glue is sprayed onto the glass fiber sleeve at a high flow speed, the firmness of the glue adhered to the surface of the glass fiber sleeve is improved, the gluing quality is further improved, the communicating component is further arranged, the roller is pressed by the propping force of the glass fiber sleeve, so that the roller overcomes the elasticity of the elastic piece to the piston and moves upwards, two vent holes on the mounting seat are communicated, compressed air generated by the external air compression equipment can be conveyed into the glue storage bin, the waste caused by the spraying of the glue when the roller is in no-load state is avoided, in addition, compared with the detection of the no-load state of the roller by using traditional sensors and other devices, the structure is simple, the reliability is good, the glue scraping component is arranged, and the contact of a scraper blade on the surface of the glass fiber sleeve is avoided, so that the thickness of the glue layer on the glass fiber sleeve tends to be consistent.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic view of the assembly structure of a sizing coating device for glass fiber sleeve processing according to the present invention;

FIG. 2 is an enlarged partial schematic view at A of FIG. 1;

in the figure: 1-a first winding roller, 2-a glass fiber sleeve, 3-a gluing bin, 4-an empty avoiding groove, 5-a roller, 6-a clamping groove, 7-a piston, 8-a sliding groove, 9-a compression spring, 10-a mounting seat, 11-a second communication hole, 12-a fixed plug, 13-a first communication hole, 14-a connecting rod, 15-a glue spraying bin, 16-a glue storage cavity, 17-a fixed hinged support, 18-a hinged block, 19-a scraper, 20-a second winding roller, 21-a telescopic column, 22-a telescopic sleeve, 23-a tension spring, 24-an electromagnet and 25-a clamping block.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

Examples

As shown in fig. 1-2, a size coating apparatus for glass fiber bushing process, comprising:

the outer walls of two opposite sides of the gluing bin 3 are respectively and horizontally provided with a winding roller through a support, the two winding rollers are respectively defined as a first winding roller 1 and a second winding roller 20, at least one of the first winding roller 1 and the second winding roller 20 is driven by an external motor to rotate, so that the first winding roller 1 and the second winding roller 20 can wind the glass fiber sleeve 2, and correspondingly, the outer wall of the gluing bin 3 is provided with a clearance groove 4 which allows the glass fiber sleeve 2 to wind on the first winding roller 1 and the second winding roller 20 and to freely pass through;

the gluing assembly comprises a glue storage bin 16 arranged on the inner top wall of the gluing bin 3, the bottom of the glue storage bin 16 is provided with a glue spraying bin 15 gradually opening from top to bottom, and the glue spraying bin 15 is positioned right above the glass fiber sleeve 2;

and the communicating component is used for communicating the glue storage bin 16 with external air compression equipment, the external air compression equipment generates compressed air and conveys the compressed air into the glue storage cavity 16 through the communicating component, and the glue in the glue storage bin 16 is pressurized, so that the glue is quickly sprayed out from the opening part of the glue spraying bin 15 onto the glass fiber sleeve 2.

In this embodiment, preferably, the communicating component includes a mounting seat 10 mounted on the inner top wall of the gluing chamber 3, a connecting rod 14 passing through the lower end of the mounting seat 10 in a sliding manner is arranged on the mounting seat 10, a roller 5 is rotatably connected to the lower end of the connecting rod 14, a piston 7 is arranged at one end of the connecting rod 14 passing through the mounting seat 10, correspondingly, a sliding groove 8 for the piston 7 to be coaxially and slidably engaged with is arranged in the mounting seat 10, a fixed plug 12 is coaxially and fixedly connected in the sliding groove 8, a first through hole 13 in the form of a through hole is coaxially arranged on the fixed plug 12, the outer diameter of the connecting rod 14 is smaller than that of the first through hole 13 and passes through the first through hole 13, the fixed plug 12 is located below the piston 7, a plurality of second through holes 11 in the form of through holes are arranged on the end face of the piston 7, the second through holes 11 are staggered with the first through hole 13, so that when the piston, the abutting surface is in an air-tight sealing state, an elastic part is arranged in the sliding groove 8, the elastic part abuts against the piston 7 and drives the piston 7 to move downwards, two through hole type vent holes communicated with the sliding groove 8 are arranged on the outer wall of the mounting seat 10, the two vent holes are respectively positioned above and below the fixed plug 12, one vent hole positioned above the fixed plug 12 is communicated with the glue storage bin 16 through a mounting pipeline, when the roller 5 abuts against the glass fiber sleeve 2, the glass fiber sleeve 2 has abutting force on the roller 5, so that the piston 7 moves upwards and is separated from the state of abutting against the surface of the fixed plug 12, compressed air generated by external air compression equipment enters the sliding groove 8 through the vent hole below, then enters the other vent hole through the first communicating hole 13 and the second communicating hole 11, and then enters the glue storage bin 16, and high pressure is generated on the glue in the glue storage bin 16, so that the glue is sprayed out from the lower port part of the glue spraying bin 15 to the surface of the glass fiber sleeve.

In this embodiment, the piston 7 and the fixed plug 12 are preferably made of rubber, so that the sealing performance when the end surfaces of the two are abutted is improved.

In this embodiment, the elastic member is preferably a compression spring 9 vertically installed in the sliding groove 8, and both ends of the elastic force direction of the compression spring 9 respectively abut against the inner top wall of the sliding groove 8 and the piston 7.

In this embodiment, preferably, a glue scraping assembly for scraping glue on the glass fiber sleeve 2 is further disposed in the gluing bin 3, so that the glue on the glass fiber sleeve 2 has a uniform thickness.

In this embodiment, the glue scraping component preferably includes a fixed hinged support 17 disposed on the inner wall of the gluing bin 3, a scraper 19 capable of turning up and down is hinged on the fixed hinged support 17, the lower end of the scraper 19 abuts against the surface of the glued glass fiber casing 2, and the scraper 19 is driven by a driving component to rotate along the hinged position with the fixed hinged support 17.

In this embodiment, preferably, the driving assembly includes a telescopic sleeve 22 hinged on the inner wall of the gluing chamber 3, the scraper 19 is hinged with a telescopic column 21, the telescopic column 21 is coaxially and slidably inserted into the telescopic sleeve 22, and a clamping block 25 made of a magnetic material is coaxially arranged on the telescopic sleeve 21, correspondingly, a clamping groove 6 for clamping the clamping block 25 and freely sliding along the axial direction is formed on the telescopic sleeve 22, an electromagnet 24 is arranged on the inner wall of one side of the clamping groove 6 far away from the telescopic column 21, the electromagnet 24 is used in cooperation with the clamping block 25, so that the electromagnet 24 generates magnetism when being electrified and generates magnetic force adsorption on the clamping block 25, the clamping block 25 moves towards the electromagnet 24 in the clamping groove 6, the scraper 19 is further driven to rotate along the hinge joint with the fixed hinge base 17, a tension spring 23 is further arranged in the clamping groove 6, the tension spring 23 is sleeved on the telescopic column 21, and the two ends of the scraper are respectively welded on the inner wall of the other side of the clamping groove 6 and the fixture block 25, and the fixture block 25 is pulled to move under a natural state, so that the scraper 19 rotates upwards and is far away from the glass fiber sleeve 2.

The working principle of the invention when in use is as follows: the glass fiber sleeve 2 is wound on the first winding roller 1 and the second winding roller 20, and then the first winding roller 1/the second winding roller 20 is driven by an external motor to rotate, so that the glass limit sleeve 8 can move in the gluing bin 3, because the surface of the glass limit sleeve 8 has a propping force to the roller 5, the piston 7 moves upwards against the elastic force of the compression spring 9, so that the first communicating hole 13 and the second communicating hole 11 have a communicating state, at the moment, compressed air on an external air compression device is conveyed into the sliding groove 8 through a vent hole positioned below, conveyed into another vent hole through the first communicating hole 13 and the second communicating hole 11, and conveyed into the glue storage bin 16 through a pipeline, so as to generate pressure on glue in the glue storage bin 16, so that the glue is quickly sprayed to the surface of the glass fiber sleeve 2 from the lower end opening part of the glue spraying bin 15, and the impact force and the bonding force of the glue are utilized, thereby promoted the rubber coating quality of glue, promoted rubber coating efficiency, electro-magnet 24 circular telegram simultaneously produces magnetism, and the drive fixture block moves towards it, makes the terminal surface conflict glass fiber sleeve 2's surface under the scraper blade 19, carries out the frictioning to the glue layer on glass fiber sleeve 2 surface, guarantees that the thickness of glue layer tends to unanimity.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. A rubberizing coating device for glass fiber sleeve processing, characterized by comprising:

the glass fiber sleeve winding device comprises a gluing bin (3), wherein winding rollers are horizontally arranged on the outer walls of two opposite sides of the gluing bin (3) through a support, the two winding rollers are respectively defined as a first winding roller (1) and a second winding roller (20), at least one of the first winding roller (1) and the second winding roller (20) is driven by an external motor to rotate, so that the first winding roller (1) and the second winding roller (20) can wind the glass fiber sleeve (2), and correspondingly, clearance grooves (4) which can allow the glass fiber sleeve (2) to freely pass through are formed in the outer wall of the gluing bin (3);

the glue spreading component comprises a glue storage bin (16) arranged on the inner top wall of the glue spreading bin (3), the bottom of the glue storage bin (16) is provided with a glue spraying bin (15) which gradually forms a mouth from top to bottom, and the glue spraying bin (15) is positioned right above the glass fiber sleeve (2);

the communicating component is used for communicating the glue storage bin (16) with external air compression equipment, the external air compression equipment generates compressed air which is conveyed into the glue storage cavity (16) through the communicating component, the glue in the glue storage bin (16) is pressurized, and the glue is rapidly sprayed out of the opening of the glue spraying bin (15) onto the glass fiber sleeve (2).

2. The gluing and coating device for processing the glass fiber sleeve according to claim 1, wherein the communicating component comprises a mounting seat (10) mounted on the inner top wall of the gluing bin (3), the mounting seat (10) is provided with a connecting rod (14) which penetrates out of the lower end of the mounting seat in a sliding manner, the lower end of the connecting rod (14) is rotatably connected with a roller (5), one end of the connecting rod (14) penetrating into the mounting seat (10) is provided with a piston (7), correspondingly, a sliding groove (8) for the coaxial sliding engagement of the piston (7) is arranged in the mounting seat (10), a fixed plug (12) is coaxially and fixedly connected in the sliding groove (8), the fixed plug (12) is coaxially provided with a first through hole (13) in a through hole manner, the outer diameter of the connecting rod (14) is smaller than that of the first through hole (13) and penetrates out of the first through hole (13), the fixed plug (12) is positioned below the piston (7), the end face of the piston (7) is provided with a plurality of through hole-shaped second communication holes (11), the second communication holes (11) and the first communication holes (13) are arranged in a staggered manner, so that when the piston (7) abuts against the end face of the fixed plug (12), the abutting face has an air-tight state, an elastic part is arranged in the sliding groove (8), the elastic part abuts against the piston (7) and drives the piston (7) to move downwards, the outer wall of the mounting seat (10) is provided with two through hole-shaped vent holes communicated with the sliding groove (8), the two vent holes are respectively positioned above and below the fixed plug (12), wherein one vent hole positioned above the fixed plug (12) is communicated with the glue storage bin (16) through a mounting pipeline, when the roller (5) abuts against the glass fiber sleeve (2), the glass fiber sleeve (2) has an abutting force on the roller (5), the piston (7) is enabled to move upwards and is separated from a state of being abutted to the surface of the fixed plug (12), compressed air generated by external air compression equipment enters the sliding groove (8) through the vent hole on the lower portion, enters another vent hole through the first communicating hole (13) and the second communicating hole (11) and then enters the glue storage bin (16), high pressure is generated on glue in the glue storage bin (16), and the glue is sprayed out to the surface of the glass fiber sleeve from the lower end opening portion of the glue spraying bin (15).

3. A size coating apparatus for glass fiber casing processing according to claim 2, characterized in that the piston (7) and the fixed plug (12) are made of rubber material.

4. A glue coating device for glass fiber casing processing according to claim 2, characterized in that the elastic member is a compression spring (9) vertically installed in the sliding groove (8), and two ends of the elastic force direction of the compression spring (9) respectively abut against the inner top wall of the sliding groove (8) and the piston (7).

5. A glue coating device for glass fiber casing processing according to claim 1, characterized in that a glue scraping component for scraping glue on the glass fiber casing (2) is further arranged in the glue coating bin (3), so that the glue on the glass fiber casing (2) has uniform thickness.

6. A sizing coating device for processing glass fiber sleeves according to claim 5, characterized in that the glue scraping component comprises a fixed hinged support (17) arranged on the inner wall of the glue coating bin (3), a scraper (19) capable of turning up and down is hinged on the fixed hinged support (17), the lower end of the scraper (19) is abutted against the surface of the glued glass fiber sleeve (2), and the scraper (19) is driven by the driving component to rotate along the hinged part with the fixed hinged support (17).

7. The gluing and coating device for processing the glass fiber sleeve according to claim 6, wherein the driving assembly comprises a telescopic sleeve (22) hinged on the inner wall of the gluing bin (3), the scraper (19) is hinged with a telescopic column (21), the telescopic column (21) is coaxially and slidably inserted into the telescopic sleeve (22), a clamping block (25) made of magnetic material is coaxially arranged on the telescopic sleeve (22), correspondingly, a clamping groove (6) for clamping the clamping block (25) and freely sliding along the axial direction of the clamping groove is formed in the telescopic sleeve (22), an electromagnet (24) is arranged on the inner wall of one side of the clamping groove (6) far away from the telescopic column (21), the electromagnet (24) is matched with the clamping block (25) for use, so that the electromagnet (24) generates magnetism when being electrified and generates magnetic force adsorption on the clamping block (25), and the clamping block (25) moves towards the electromagnet (24) in the clamping groove (6), and then drive scraper blade (19) are along rotating with the articulated department of fixed free bearing (17), still be equipped with extension spring (23) in draw-in groove (6), extension spring (23) suit is on flexible post (21), and its both ends weld respectively on draw-in groove (6) opposite side inner wall and on fixture block (25), it is under natural state, the pulling fixture block (25) remove, make scraper blade (19) rotate up and keep away from glass fiber sleeve pipe (2).

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