CN210053634U

CN210053634U - Bubble film reel antistatic device

Info

Publication number: CN210053634U
Application number: CN201920568928.8U
Authority: CN
Inventors: 张磊磊; 沈绪中
Original assignee: Suzhou Daxi Packaging Technology Co Ltd
Current assignee: Suzhou Daxi Packaging Technology Co Ltd
Priority date: 2019-04-24
Filing date: 2019-04-24
Publication date: 2020-02-11
Anticipated expiration: 2029-04-24

Abstract

The utility model discloses a bubble film reel anti-static device, which comprises a bubble film winding device and a reel placed on the bubble film winding device, wherein an electrostatic adsorption mechanism for collecting bubble film static electricity is arranged above the reel, a supporting upright post for supporting the electrostatic adsorption mechanism is fixed on one side of the bubble film winding device, and the electrostatic adsorption mechanism is contacted with a bubble film and guides the collected static electricity into the ground through the supporting upright post; the electrostatic adsorption mechanism comprises a lead which can be used as a conductor and a slide rail which is connected with the support upright post and is fixed, and two ends of the lead are respectively contacted with the bubble film and the ground. The beneficial effects of the utility model are that, through setting up static adsorption device above the reel, the wire of static adsorption device contacts with the bubble chamber membrane on the reel, and the other end ground connection of wire to pass through the direct leading-in underground of wire with the static on the bubble chamber membrane, avoid containing static and causing harm to the workman because of the bubble chamber membrane.

Description

Bubble film reel antistatic device

Technical Field

The utility model relates to a bubble chamber film production facility field, especially bubble chamber film reel antistatic device.

Background

The bubble film is a light, good, nontoxic, tasteless novel plastic packaging material of transparency, and the bubble film is the product that the plastics-sucking bubble is extruded into through high temperature by the raw materials by polyethylene, and the bubble film is as a plastic products, and through high temperature, the friction between the roller in transportation process in the production process, must lead to bubble film self to have a large amount of static. Bubble chamber film production facility is at the operation in-process, and it is not problematic until the bubble chamber film on the reel of rolling equipment, but when the rolling finishes by workman's transport, can cause the injury to the human body because of the large amount of static on its surface. The existing production equipment has no corresponding mechanism to solve the problem.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the problem that the surface of the bubble film contains a large amount of static electricity, and designing an anti-static device for the bubble film winding drum.

The technical scheme of the utility model is that, the bubble film winding drum antistatic device comprises a bubble film winding device and a winding drum placed on the bubble film winding device, an electrostatic adsorption mechanism for collecting bubble film static electricity is arranged above the winding drum, a supporting upright post for supporting the electrostatic adsorption mechanism is fixed on one side of the bubble film winding device, the electrostatic adsorption mechanism is contacted with the bubble film and guides the collected static electricity into the ground through the supporting upright post; the electrostatic adsorption mechanism comprises a lead which can be used as a conductor and a slide rail which is connected with the support upright post and is fixed, and two ends of the lead are respectively contacted with the bubble film and the ground.

Furthermore, the electrostatic adsorption mechanism further comprises a suspension block which is arranged below the slide rail and can slide along the slide rail, a limiting rope which is used for connecting the suspension block and the support upright post and limiting the displacement distance of the suspension block, and a pipe sleeve which is fixed on the lower bottom surface of the suspension block and used for supporting the lead.

Furthermore, two movable lifting lugs are fixed on the lower bottom surface of the suspension block, a fixed lifting lug is fixed on the position, close to the support upright, of the lower bottom surface of the slide rail, and two ends of the limiting rope are connected with the two movable lifting lugs or respectively connected with one movable lifting lug and one fixed lifting lug.

Furthermore, the middle part of the supporting column is a cavity, a fixed pulley is fixed at a position on the side wall of the inner cavity of the supporting column, which is close to the slide rail, and a wiring notch is formed in a position on the side wall of the supporting column, which corresponds to the fixed pulley.

Preferably, a wire spool fixed with the side wall of the inner cavity of the support column is arranged in the middle of the support column, and a handle of the wire spool penetrates through the side wall of the support column and is exposed outside the support column.

Specifically, the wire is wound on the wire spool through the fixed pulley and is in contact with the ground, and the outer layer of the wire except for two ends can be wrapped by an insulating layer.

As an alternative, a pendant is hung at the end of the wire, which is in contact with the bubble film, and an obtuse-angle metal block or metal bristles are adopted at the head of the wire to avoid scratches on the bubble film.

As an alternative embodiment, a wire control mechanism for controlling the extension length of the lead wire to ensure that the lead wire is always attached to the surface of the bubble film and is not involved with the bubble film is arranged above the electrostatic adsorption mechanism.

Furthermore, the line control mechanism comprises a positioning block which is arranged above the slide rail and is fixedly connected with the suspension block for driving the suspension block to slide below the slide rail, a motor which is arranged on the slide rail and is close to the support upright post, and a lead screw which is in threaded connection with the positioning block and is fixed with an output shaft of the motor.

Furthermore, a through groove is formed in the upper surface of the sliding rail, the positioning block and the motor are clamped in the through groove of the sliding rail, and the motor is fixed at one end of the sliding rail.

The air bubble film electrostatic adsorption device has the advantages that 1, the electrostatic adsorption mechanism is arranged above the winding drum, a lead of the electrostatic adsorption mechanism is in contact with the air bubble film on the winding drum, and the other end of the lead is grounded, so that static electricity on the air bubble film is directly guided into the ground through the lead, and harm to workers due to the fact that the air bubble film contains the static electricity is avoided.

2. Set up accuse line mechanism in the top of slide rail, through the flagging length of accuse line mechanism control wire to guarantee the wire and contact with the bubble chamber membrane all the time, avoid being drawn into the bubble chamber membrane with the wire in the lump in the in-process of bubble chamber membrane lapping. Through the motor rotation, the rotary motion of motor changes the reciprocating motion who promotes locating piece linear displacement through the lead screw, and the locating piece is fixed with the hanging block, and the hanging block can make the horizontally part of wire increase or reduce when moving along the slide rail, and because of its overall length is unchangeable, so the motor through accuse line mechanism can control the length of the flagging part of wire, reaches the purpose that the wire contacted with the bubble chamber membrane all the time.

Drawings

Fig. 1 is a schematic structural diagram of the present invention in an actual working state;

fig. 2 is a schematic structural diagram of the present invention;

FIG. 3 is an enlarged view of a portion of FIG. 2;

fig. 4 is a sectional view of the inner cavity of the support post of the present invention;

in the figure, 1, an air bubble film winding device; 101. rotating the roller; 2. a reel; 3. an electrostatic adsorption mechanism; 301. a wire; 3011. a pendant; 302. a slide rail; 3021. a through groove; 303. a suspension block; 304. a limiting rope; 305. pipe sleeve; 306. moving the lifting lug; 307. fixing the lifting lug; 4. supporting the upright post; 401. a fixed pulley; 402. a wiring notch; 403. a wire spool; 5. a wire control mechanism; 501. positioning blocks; 502. a motor; 503. and a lead screw.

Detailed Description

The present invention is described in detail below with reference to the accompanying drawings, as shown in fig. 1-4, an anti-static device for a bubble film winding drum 2 comprises a bubble film winding device 1 and a winding drum 2 placed thereon, wherein the bubble film winding device 1 is provided with two rotating rollers 101, the two rotating rollers 101 work alternately, a processed bubble film is wound on the rotating rollers 101, and is disassembled by workers after being coiled and placed in a centralized manner, an electrostatic adsorption mechanism 3 for collecting bubble film static electricity is arranged above the winding drum 2, a support column 4 for supporting the electrostatic adsorption mechanism 3 is fixed on one side of the bubble film winding device 1, and the electrostatic adsorption mechanism 3 contacts with the bubble film and guides the collected static electricity to the ground through the support column 4; the electrostatic adsorption mechanism 3 comprises a lead 301 which can be used as a conductor and a slide rail 302 which is connected and fixed with the support upright 4, wherein two ends of the lead 301 are respectively contacted with the bubble film and the ground.

As shown in fig. 2-4, the electrostatic adsorption mechanism 3 further includes a suspension 303 disposed below the sliding rail 302 and capable of sliding along the sliding rail, a limiting rope 304 connecting the suspension 303 with the support column 4 and used for limiting the displacement distance of the suspension 303, and a pipe sleeve 305 fixed on the lower bottom surface of the suspension 303 and used for supporting the wire 301, wherein the wire 301 is suspended below the suspension 303, according to actual needs, a plurality of suspensions 303 (two suspensions 303 are illustrated in the figure) may be disposed below the sliding rail 302, and the suspensions 303 slide on the sliding block, so as to avoid the excessive sliding distance of the suspensions 303, the plurality of suspensions 303 are connected by the limiting rope 304; the wires 301 pass through the sleeves 305, and the sleeves 305 are only used for holding the wires 301 without limiting the free sliding of the wires 301 in the sleeves 305.

As shown in fig. 3, two movable lugs 306 are fixed on the lower bottom surface of the suspension block 303, a fixed lug 307 is fixed on the lower bottom surface of the slide rail 302 near the support column 4, and two ends of the limiting rope 304 are connected with the two movable lugs 306 or respectively connected with one movable lug 306 and one fixed lug 307, the lugs are arranged to facilitate the tying of the limiting rope 304, and the plurality of suspension blocks 303 are connected with the fixed lugs 307 through the limiting rope 304, so as to limit the maximum moving distance of the outermost suspension block 303, because the hanging part of the lead 301 is determined by the outermost suspension block 303, so that the hanging length of the lead 301 can be ensured within a reasonable range.

As shown in fig. 4, the middle portion of the support column 4 is a cavity, a fixed pulley 401 is fixed on a side wall of an inner cavity of the support column 4 and at a position close to the slide rail 302, the fixed pulley 401 is used for changing an extending direction of the wire 301 so as to lead the wire to the ground, a wiring notch 402 is formed in a position on the side wall of the support column 4 corresponding to the fixed pulley 401, and the wiring notch 402 is a through hole for allowing the wire 301 to enter the interior of the support column 4 from the outside thereof; the middle position of the support upright post 4 is provided with a wire spool 403 fixed with the side wall of the inner cavity of the support upright post, the handle of the wire spool 403 passes through the side wall of the support upright post 4 and is exposed outside the support upright post, the lead 301 is wound on the wire spool 403 through the fixed pulley 401 and is contacted with the ground, and the outer layer of the lead 301 except the two end positions can be wrapped with an insulating layer. Considering that for bubble membranes with different size requirements, the diameters of the bubble membranes are different after the bubble membranes are rolled, and the sagging lengths of the wires 301 are possibly required to be different, a wire spool 403 is arranged, a part of the wires 301 are wound on the wire spool 403 all the time, in a general case, the wire spool 403 does not participate in work, the sagging lengths of the wires 301 are fixed, and in the case of lengthening or shortening the wires 301 specially, the wires 301 in a winding state are tightened or released by rotating the wire spool 403, so that the wires 301 are lengthened or shortened, and the requirement that the wires 301 are always in contact with the bubble membranes and conduct static electricity under the condition of different diameters of the bubble membranes is met.

As shown in fig. 1-2, a pendant 3011 is hung on the end of the wire 301 contacting with the bubble film, in order to avoid scratches on the bubble film, the head of the wire 301 is made of obtuse-angle metal blocks or metal bristles (theoretically, all conductive materials can be used on the premise of not damaging the bubble film), since the movement of the hanging block 303 affects the length of the wire 301, and the wire 301 is lighter than the hanging block 303, in order to avoid that the hanging block 303 drives the wire 301 to move when moving, a pendant 3011 is arranged on the head of the wire 301 to play a role of a counterweight.

As shown in fig. 1-4, a wire control mechanism 5 is arranged above the electrostatic adsorption mechanism 3, and the wire control mechanism 5 controls the sagging length of the wire 301, so as to ensure that the wire 301 is always in contact with the bubble film, and avoid the wire 301 from being rolled into the bubble film in the process of rolling the bubble film; the line control mechanism 5 comprises a positioning block 501 which is arranged above the slide rail 302 and connected and fixed with the suspension block 303 for driving the suspension block 303 to slide below the slide rail 302, a motor 502 which is arranged on the slide rail 302 and close to the support upright post 4, and a lead screw 503 which is in threaded connection with the positioning block 501 and fixed with an output shaft of the motor 502, by rotating the motor 502 (the motor 502 can be a servo motor 502 capable of rotating forward and backward), the rotary motion of the motor 502 is converted into reciprocating motion for pushing the positioning block 501 to linearly displace through the lead screw 503, the positioning block 501 is fixed with the suspension block 303, the horizontal part of the lead wire 301 is increased or decreased when the suspension block 303 moves along the slide rail 302, and the total length is unchanged, the length of the drooping portion of the wire 301 can be controlled by the motor 502 of the wire control mechanism 5 so that the wire 301 is always in contact with the surface of the bubble film without being entangled therein.

As shown in fig. 2, a through groove 3021 is formed in the upper surface of the slide rail 302, the positioning block 501 and the motor 502 are both clamped in the through groove 3021 of the slide rail 302, and the motor 502 is fixed at one end of the slide rail 302.

The working principle is as follows:

under the normal working state, firstly, the distance between the bubble film and the wire 301 is determined according to the diameter of the bubble film roll on the winding drum 2, then the motor 502 is started, the motor 502 drives the lead screw 503 to rotate, the lead screw 503 is in threaded connection with the positioning block 501, so the positioning block 501 can linearly move on the through groove 3021 due to the rotation of the motor 502, because the positioning block 501 is fixed with the hanging block 303 (if a plurality of hanging blocks 303 are provided, the positioning block 501 is fixed with the hanging block 303 farthest from the supporting upright post 4), the hanging block 303 is the hanging wire 301, when the motor 502 is started, the hanging block 303 can change the hanging length of the wire 301 (the whole length of the wire 301 is unchanged, and the hanging block 301 consists of two sections, namely a horizontal part and a hanging part, the wire 301 between the hanging block 303 and the supporting upright post 4 is a horizontal part, the hanging part is arranged below the hanging block 303, the hanging block 303 moves, the drooping part is also changed correspondingly), when the tail end of the lead wire 301 is contacted with the bubble film, the motor 502 stops rotating (or rotates at a speed not exceeding the rolling speed of the bubble film to ensure that the lead wire 301 is not separated from the bubble film), and static electricity on the bubble film is led into the ground through the lead wire 301 to eliminate the static electricity;

when the diameter of the bubble film roll is too large or too small and the drooping length of the wire 301 needs to be adjusted, the handle of the wire reel 403 is rotated, so that the wire 301 wound on the wire reel 403 is loosened or tightened, and the drooping length of the wire 301 can be adjusted by changing the whole length of the wire 301 due to the fact that the length of the wire 301 at the horizontal part is fixed, and the requirement of the diameter of a special bubble film roll is met.

Above-mentioned technical scheme has only embodied the utility model discloses technical scheme's preferred technical scheme, some changes that this technical field's technical personnel probably made to some parts wherein have all embodied the utility model discloses a principle belongs to within the protection scope of the utility model.

Claims

1. The bubble film winding drum anti-static device comprises a bubble film winding apparatus and a winding drum arranged on the bubble film winding drum, and is characterized in that an electrostatic adsorption mechanism for collecting bubble film static electricity is arranged above the winding drum, a supporting upright post for supporting the electrostatic adsorption mechanism is fixed on one side of the bubble film winding apparatus, and the electrostatic adsorption mechanism is in contact with the bubble film and guides the collected static electricity to the ground through the supporting upright post;

the electrostatic adsorption mechanism comprises a lead which can be used as a conductor and a slide rail which is connected with the support upright post and is fixed, and two ends of the lead are respectively contacted with the bubble film and the ground.

2. The bubble film winding drum antistatic device according to claim 1, wherein the electrostatic adsorption mechanism further comprises a suspension block which is arranged below the slide rail and can slide along the slide rail, a limiting rope which is used for connecting the suspension block and the supporting upright and is used for limiting the displacement distance of the suspension block, and a pipe sleeve which is fixed on the lower bottom surface of the suspension block and is used for supporting the lead.

3. The bubble film winding drum antistatic device as claimed in claim 2, wherein two moving lifting lugs are fixed on the lower bottom surface of the suspension block, a fixed lifting lug is fixed on the lower bottom surface of the slide rail near the support column, and two ends of the limiting rope are connected with the two moving lifting lugs or respectively connected with one moving lifting lug and one fixed lifting lug.

4. The bubble film winding drum antistatic device according to claim 1, wherein the middle part of the supporting upright post is a cavity, a fixed pulley is fixed on the side wall of the inner cavity of the supporting upright post at a position close to the slide rail, a wiring notch is formed on the side wall of the supporting upright post at a position corresponding to the fixed pulley, a wire spool fixed with the side wall of the inner cavity of the supporting upright post is arranged at the middle part of the supporting upright post, and a handle of the wire spool penetrates through the side wall of the supporting upright post and is exposed outside the supporting upright post.

5. The bubble film reel antistatic device according to claim 4, wherein the wire is wound on the wire spool through the fixed pulley and contacts with the ground, and the outer layer of the wire except for both end positions can be wrapped with an insulating layer.

6. The bubble film winding drum antistatic device according to claim 1, wherein a pendant is hung at the end of the wire contacting with the bubble film, and the head of the wire contacting with the bubble film adopts obtuse-angle metal blocks or metal bristles to avoid scratches on the bubble film.

7. The bubble film winding drum antistatic device according to claim 1, wherein a wire control mechanism for controlling the extension length of the conducting wire to ensure that the conducting wire is always attached to the surface of the bubble film without being involved therewith is arranged above the electrostatic adsorption mechanism.

8. The bubble film winding drum antistatic device according to claim 7, wherein the line control mechanism comprises a positioning block arranged above the slide rail, a motor arranged on the slide rail and close to the support column, and a lead screw in threaded connection with the positioning block and fixed with an output shaft of the motor.

9. The bubble film winding drum antistatic device according to claim 8, wherein the upper surface of the slide rail is provided with a through groove, the positioning block and the motor are both clamped in the through groove of the slide rail, and the motor is fixed at one end of the slide rail.