CN215887376U - Composite fiber tow conveying anti-pollution device - Google Patents

Abstract

The utility model discloses a composite fiber tow conveying anti-pollution device which comprises a crimping machine and an anti-pollution assembly, wherein a shell is installed on the right side of the crimping machine, a first conveying belt is arranged inside the shell, a semi-finished product is placed above the first conveying belt, a hanging buckle is arranged on one side of the semi-finished product, the anti-pollution assembly used for preventing the semi-finished product from being polluted is installed above the hanging buckle, the anti-pollution assembly comprises high-density dustproof gauze, a first high-molecular light-weight support frame, a second high-molecular light-weight support frame, a first connecting block and a hanging hole, the first high-molecular light-weight support frame is connected to two sides of the high-density dustproof gauze, and the second high-molecular light-weight support frame is arranged at one end of the first high-molecular light-weight support frame. This composite fiber silk bundle conveying anti-pollution device can effectively block the dust through setting up anti-pollution subassembly, has increased semi-manufactured goods self qualification rate, has saved staff's time through setting up the clearance subassembly, increases the practicality of device self.

Description

Composite fiber tow conveying anti-pollution device

Technical Field

The utility model relates to the field of composite fiber production devices, in particular to a composite fiber tow conveying anti-pollution device.

Background

The composite fiber is a fiber formed by spinning two or more than two high molecular polymers through a special process. Depending on the type and composition of the polymer used to make the composite fibers, the shape and distribution of the cross-section of the fibers, hundreds of fiber types can be subdivided. The composite fiber may be divided into a bicomponent fiber and a multicomponent fiber according to the shape and distribution of its cross section. The composite fiber can have various unique hand feeling styles and functionalities by adopting a special composite method and a spinning textile process. Common functions such as three-dimensional curling, high bulkiness and warmth retention, hot tack, etc.; common fabric styles such as softness, cool touch, high gloss, and the like. In application, the composite fiber is mainly used for medical and sanitary products, blankets, wool fabrics, thermal wadding fillers, silk fabrics, non-woven fabrics, special work clothes and the like.

The current device has the not good problem of anti-pollution function, current textile machinery equipment is mostly large-scale precision equipment, but at the in-process of long-term use, the conveyer of equipment can not avoid having dust (external pollution source) to subside on the conveyer belt surface, the dust is long-term accumulation on the conveyer belt surface, and probably further sneak into in the product, influence the product quality, like product surface and inside tiny pollutant etc. of discovery, the product has both been wasted, the energy has been consumed again, clean labour has been increased simultaneously, the production efficiency is reduced, to the above-mentioned problem, carry out technical innovation on current device basis.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a composite fiber tow conveying pollution prevention device to solve the problems in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme: the composite fiber tow conveying pollution prevention device comprises a crimping machine and a pollution prevention assembly, wherein a shell is installed on the right side of the crimping machine, a first conveyor belt is arranged in the shell, a semi-finished product is arranged above the first conveyor belt, a hanging buckle is arranged on one side of the semi-finished product, the anti-pollution component for preventing the semi-finished product from being polluted is arranged above the hanging buckle and comprises high-density dustproof gauze, a first high-molecular light-weight support frame, a second high-molecular light-weight support frame, a first connecting block and a hanging hole, wherein the first high-molecular light-weight support frame is connected with two sides of the high-density dustproof gauze, and first polymer light support frame one end is provided with second polymer light support frame, second polymer light support frame keeps away from first polymer light support frame one end and is provided with first connecting block, and first connecting block opposite side is provided with the hanging hole.

Preferably, the first polymer light-weight support frame and the hanging holes are symmetrically arranged by the central axis of the high-density dustproof gauze, and the number of the hanging holes is 2.

Preferably, first polymer light support frame passes through the hanging hole and constitutes to hang with hanging to detain and hang and be connected, and first polymer light support frame one side is provided with the clearance subassembly that is used for clearing up the dust on high density dustproof gauze surface.

Preferably, the cleaning assembly comprises a pull rope, a second connecting block and a sliding block, the second connecting block is arranged on one side of the pull rope, and the sliding block is arranged on one side, far away from the pull rope, of the second connecting block.

Preferably, the clearance subassembly still includes brush board, brush hair, recess and ball, sliding block one side is close to high density dustproof gauze one side and is provided with the brush hair, the inside recess of having seted up of sliding block, and the inside ball that is provided with of recess.

Preferably, the sliding block passes through ball and first polymer light support frame constitution sliding connection, and the sliding block sets up with the axis symmetry of the dustproof gauze of high density.

Preferably, the bristles are closely attached to the high-density dustproof gauze, and the high-density dustproof gauze and the brush board are distributed in parallel.

Preferably, the shell right side is provided with the second conveyer belt, and the drying cabinet is installed to second conveyer belt top.

Compared with the prior art, the utility model has the beneficial effects that: the composite fiber tow conveying anti-pollution device can effectively block dust by arranging the anti-pollution assembly, the self qualification rate of semi-finished products is increased, the time of workers is saved by arranging the cleaning assembly, and the self practicability of the device is increased;

1. according to the utility model, through the arrangement of the anti-pollution component, the high-density dustproof gauze, the first high-molecular light-weight support frame, the second high-molecular light-weight support frame, the first connecting block and the hanging hole, dust can be effectively prevented from falling, a small amount of dust can fall onto the surface of the conveying device in the operation of the existing equipment, so that a semi-finished product is polluted, the qualification rate of the semi-finished product is reduced, the first high-molecular light-weight support frame and the second high-molecular light-weight support frame are fixedly installed through the hanging hole, the high-density dustproof gauze between the first high-molecular light-weight support frame and the second high-molecular light-weight support frame can effectively block the dust, the qualification rate of the semi-finished product is increased, the device is simple to clean, the parking time and the times specially used for maintaining sanitation and cleanness are reduced, and the production efficiency is increased;

2. according to the anti-pollution device, the anti-pollution component can be effectively and conveniently cleaned through the arrangement of the cleaning component, the pull rope, the second connecting block, the sliding block, the brush plate, the brush bristles, the grooves and the balls, when dust on the surface of the anti-pollution component is more and the device per se is running, the sliding block is firstly sleeved with the first high-polymer light supporting frame, the pull rope can be pulled to enable the sliding block to slide between the first high-polymer light supporting frame and the second high-polymer light supporting frame through the balls, the sliding block drives the brush plate and the brush bristles to move left and right, so that the dust on the surface can be cleaned, the time of workers is saved, and the practicability of the device per se is improved;

drawings

FIG. 1 is a schematic front cross-sectional view of the present invention;

FIG. 2 is a perspective view of the contamination prevention assembly of the present invention;

FIG. 3 is an enlarged view of the utility model at A in FIG. 2.

In the figure: 1. a crimping machine; 2. a housing; 3. a first conveyor belt; 4. semi-finished products; 5. hanging and buckling; 6. an anti-contamination assembly; 601. high-density dustproof gauze; 602. a first high molecular light support frame; 603. a second high molecular light support frame; 604. a first connection block; 605. hanging holes; 7. cleaning the assembly; 701. pulling a rope; 702. a second connecting block; 703. a slider; 704. brushing the board; 705. brushing; 706. a groove; 707. a ball bearing; 8. a second conveyor belt; 9. and (7) a drying box.

Detailed Description

As shown in figure 1, a composite fiber tow conveying anti-pollution device, a shell 2 is installed on the right side of a crimping machine 1, a first conveying belt 3 is arranged inside the shell 2, the first conveying belt 3 is used for conveying a semi-finished product 4, the semi-finished product 4 is placed above the first conveying belt 3, a hanging buckle 5 is arranged on one side of the semi-finished product 4, an anti-pollution component 6 is installed on the hanging buckle 5, the anti-pollution component 6 used for preventing the semi-finished product 4 from being polluted is installed above the hanging buckle 5, a first polymer light supporting frame 602 is in hanging connection with the hanging buckle 5 through a hanging hole 605, a cleaning component 7 used for cleaning dust on the surface of high-density dustproof gauze 601 is arranged on one side of the first polymer light supporting frame 602, a second conveying belt 8 is arranged on the right side of the shell 2, the second conveying belt 8 is used for conveying the semi-finished product 4, and a drying box 9 is installed above the second conveying belt 8, the drying oven 9 dries the semifinished product 4.

As shown in fig. 2, the anti-pollution component 6 includes a high-density dustproof gauze 601, a first high-molecular light-weight support 602, a second high-molecular light-weight support 603, a first connection block 604 and a hanging hole 605, the first high-molecular light-weight support 602 is connected to both sides of the high-density dustproof gauze 601, the high-density dustproof gauze 601 is used for preventing dust, the first high-molecular light-weight support 602 and the second high-molecular light-weight support 603 are used for supporting the high-density dustproof gauze 601, the second high-molecular light-weight support 603 is arranged at one end of the first high-molecular light-weight support 602, the first connection block 604 is arranged at one end of the second high-molecular light-weight support 603 away from the first high-molecular light-weight support 602, the first connection block 604 connects the first high-molecular light-weight support 602 with the second high-molecular light-weight support 603, the hanging hole 605 is arranged at the other side of the first connection block 604, the first high-molecular light-weight support 602 and the hanging hole 605 are symmetrically arranged with the central axis of the high-density dustproof gauze 601, and the number of hanging holes 605 is "2" groups.

As shown in fig. 3, the cleaning assembly 7 includes a pulling rope 701, a second connecting block 702 and a sliding block 703, the second connecting block 702 is disposed on one side of the pulling rope 701, the pulling rope 701 is used for pulling the cleaning assembly 7, the sliding block 703 is disposed on one side of the second connecting block 702 away from the pulling rope 701, the sliding block 703 is used for sliding on the first polymer lightweight supporting frame 602 and the second polymer lightweight supporting frame 603, the cleaning assembly 7 further includes a brush board 704, bristles 705, a groove 706 and balls 707, the bristles 705 are disposed on one side of the sliding block 703 close to the high-density dustproof gauze 601, the bristles 705 are used for cleaning dust, the groove 706 is disposed inside the sliding block 703, the groove 706 is used for movement of the balls 707, the sliding block 707 is disposed inside the groove 706, the sliding block 703 is slidably connected with the first polymer lightweight supporting frame 602 through the balls 707, and the sliding blocks 703 are symmetrically disposed on a central axis of the high-density dustproof gauze 601, the bristles 705 are closely attached to the high-density dustproof gauze 601, the bristles 705 clean dust on the surface of the high-density dustproof gauze 601, and the high-density dustproof gauze 601 and the brush board 704 are distributed in parallel.

The working principle is as follows: when the composite fiber tow conveying anti-pollution device is used, firstly, a power supply of a crimping machine 1 is turned on to process composite fibers, after the composite fiber tow conveying anti-pollution device is processed, a power supply of a first conveying belt 3 and a power supply of a second conveying belt 8 are turned on to convey the composite fibers to the right side, when the composite fiber tow enters the first conveying belt 3, a first high polymer light supporting frame 602 and a second high polymer light supporting frame 603 are fixedly installed through a hanging hole 605, high-density dustproof gauze 601 between the first high polymer light supporting frame 602 and the second high polymer light supporting frame 603 can effectively block dust, the qualification rate of a semi-finished product 4 is increased, when the device per se is in operation due to more dust on the surface of an anti-pollution component 6, a sliding block 703 is firstly sleeved on the first high polymer light supporting frame 602, a pull rope 701 can be pulled, and the sliding block 703 can slide between the first high polymer light supporting frame 602 and the second high polymer light supporting frame 603 through a ball 707, the sliding block 703 drives the brush plate 704 and the brush bristles 705 to move left and right, so that dust on the surface of the brush plate is cleaned, and finally the brush plate is conveyed to the lower part of the drying box 9 to be dried, which is the working principle of the composite fiber tow conveying anti-pollution device.

Claims (8)

1. The utility model provides a composite fiber tow conveying anti-pollution device, includes crimping machine (1) and anti-pollution subassembly (6), its characterized in that, shell (2) are installed on crimping machine (1) right side, and shell (2) inside is provided with first conveyer belt (3), semi-manufactured goods (4) have been placed to first conveyer belt (3) top, and semi-manufactured goods (4) one side is provided with hangs and detains (5), be used for preventing semi-manufactured goods (4) from receiving the pollution anti-pollution subassembly (6) are installed in hanging and detain (5) top, anti-pollution subassembly (6) include high density dustproof gauze (601), first polymer light support frame (602), second polymer light support frame (603), first connecting block (604) and hanging hole (605), high density dustproof gauze (601) both sides all are connected with first polymer light support frame (602), and first polymer light support frame (602) one end is provided with second polymer light support frame (603), one end, far away from the first polymer light support frame (602), of the second polymer light support frame (603) is provided with a first connecting block (604), and the other side of the first connecting block (604) is provided with a hanging hole (605).

2. The composite fiber tow conveying contamination prevention device according to claim 1, wherein the first polymer lightweight support frame (602) and the hanging holes (605) are symmetrically arranged with respect to a central axis of the high-density dustproof gauze (601), and the number of the hanging holes (605) is 2.

3. The composite fiber tow conveying pollution prevention device is characterized in that the first high-molecular light-weight support frame (602) is in suspension connection with the hanging buckle (5) through the hanging hole (605), and a cleaning assembly (7) for cleaning dust on the surface of the high-density dustproof gauze (601) is arranged on one side of the first high-molecular light-weight support frame (602).

4. A composite fibre tow transport contamination prevention device according to claim 3, wherein the cleaning assembly (7) comprises a pulling rope (701), a second connecting block (702) and a sliding block (703), the pulling rope (701) side is provided with the second connecting block (702), and the second connecting block (702) side away from the pulling rope (701) is provided with the sliding block (703).

5. The composite fiber tow conveying pollution prevention device according to claim 4, wherein the cleaning assembly (7) further comprises a brush plate (704), bristles (705), a groove (706) and balls (707), the bristles (705) are arranged on one side of the sliding block (703) close to one side of the high-density dustproof gauze (601), the groove (706) is formed in the sliding block (703), and the balls (707) are arranged in the groove (706).

6. The composite fiber tow conveying pollution prevention device is characterized in that the sliding blocks (703) are in sliding connection with the first high-polymer light-weight supporting frame (602) through the rolling balls (707), and the sliding blocks (703) are symmetrically arranged on the central axis of the high-density dustproof gauze (601).

7. The composite fiber tow transport contamination prevention device according to claim 6, wherein the bristles (705) are closely attached to the high-density dustproof gauze (601), and the high-density dustproof gauze (601) is arranged in parallel with the brush board (704).

8. The composite fiber tow transport antipollution device according to claim 1, characterized in that a second conveyor belt (8) is arranged on the right side of the housing (2), and a drying box (9) is installed above the second conveyor belt (8).

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