CN215827046U - Vehicle-mounted liquid crystal frame rubberizing device - Google Patents

Abstract

The embodiment of the utility model relates to the technical field of adhesive tape sticking equipment, and discloses a vehicle-mounted liquid crystal frame adhesive tape sticking device which comprises a base, an adhesive tape separating sliding block, an air cylinder, an adhesive tape carrier and a cross rod, wherein the adhesive tape separating sliding block is positioned on the base, the air cylinder is connected to the adhesive tape separating sliding block, the adhesive tape carrier is positioned above the adhesive tape separating sliding block, and the cross rod is fixed on the base. The adhesive separating slide block is driven by the air cylinder to move longitudinally so as to drive the plurality of bearing parts of the adhesive tape carrier to move transversely. The adhesive tape strips with a plurality of adhesive tapes are flatly laid on the adhesive tape carrier, and then the air cylinder drives the adhesive separating slide block to do longitudinal motion so as to drive the bearing part of the adhesive tape carrier to do unfolding motion along the transverse direction, so that the plurality of adhesive tapes on the bearing part are unfolded, and the vehicle-mounted liquid crystal frame can be conveniently attached to the adhesive tapes; meanwhile, a plurality of vehicle-mounted liquid crystal frames can be pasted according to the number of the adhesive tapes. Therefore, the vehicle-mounted liquid crystal frame rubberizing device can rapidly position a plurality of adhesive tapes at one time through the arrangement of the adhesive separating slide block and the adhesive tape carrier, so that the rubberizing efficiency of the vehicle-mounted liquid crystal frame is improved.

Description

Vehicle-mounted liquid crystal frame rubberizing device

Technical Field

The embodiment of the utility model relates to the technical field of tape pasting equipment, in particular to a vehicle-mounted liquid crystal frame rubberizing device.

Background

The vehicle-mounted liquid crystal frame usually needs to be pasted with glue (for example, a buffer dustproof adhesive tape is attached), and the current common pasting mode mainly comprises pure manual pasting and auxiliary pasting of a simple jig. And (3) pure manual rubberizing: the adhesive tape is manually clamped by tweezers to be pasted on a product, and the pasting position is completely visual, so that the positioning is inaccurate, the adhesive tape is frequently reworked during pasting, the operation is inconvenient, and the visual fatigue of an operator can be caused. Supplementary rubberizing of simple and easy tool: the adhesive tape is manually placed on the jig with the adhesive surface of the adhesive tape facing upwards, and then the product is covered on the jig, so that the adhesive tape is transferred onto the product, the quality is stable, and the adhesive tape sticking efficiency is low.

Therefore, it is necessary to provide a new device for attaching glue to a liquid crystal frame on a vehicle to overcome the above-mentioned drawbacks.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a vehicle-mounted liquid crystal frame rubberizing device which can rapidly position a plurality of adhesive tapes at one time and improve rubberizing efficiency.

In order to solve the above technical problems, an embodiment of the present invention provides a vehicle-mounted liquid crystal frame adhesive tape dispensing device, which is used for dispensing an adhesive tape of an adhesive tape strip and attaching the adhesive tape to a vehicle-mounted liquid crystal frame. On-vehicle liquid crystal frame rubberizing device includes the base of lengthwise, is located divide on the base and glue slider, be connected to divide the cylinder of gluing the slider, be located divide the sticky tape carrier of gluing slider top and be fixed in horizontal pole on the base, divide to glue the slider and roughly be trapezoidal and have the widest side and the narrowest side that is located vertical both sides respectively, divide to glue the slider and be equipped with along longitudinal extension's several spout, the spout certainly the narrowest side arrives widest side outwards diffuses gradually, the cylinder drive divide to glue the slider and be in base surface edge longitudinal movement. The adhesive tape carrier is provided with a plurality of bearing parts for bearing the adhesive tape and pin columns which extend into the sliding grooves downwards from the bottom surface of the bearing parts, the cross rod transversely penetrates through the bearing parts to limit the longitudinal movement of the bearing parts, and the adhesive dispensing slide block is driven by the air cylinder to move longitudinally so as to drive the bearing parts of the adhesive tape carrier to move transversely.

In a preferred embodiment, the adhesive dispensing slider has a starting position and a final position, and when the pin of the tape carrier is located on the narrowest side of the adhesive dispensing slider, the adhesive dispensing slider is located at the starting position, and the tape carrier is in a closed state; when the pin of the adhesive tape carrier is positioned on the widest side of the adhesive separating sliding block, the adhesive separating sliding block is positioned at the final position, and the adhesive tape carrier is in an unfolded state at the moment.

In a preferred embodiment, when the glue dispensing sliding block moves from the starting position to the final position, the sliding groove drives the plurality of bearing parts to perform unfolding movement outwards along the transverse direction through the pin columns.

In a preferred embodiment, when the glue dispensing slider moves from the final position to the initial position, the sliding groove drives the plurality of bearing parts to perform closing movement inwards along the transverse direction through the pins.

In a preferred embodiment, the adhesive tape strip is used for adhering the plurality of vehicle-mounted liquid crystal frames, and the adhesive tape strip includes a PET protective film and a plurality of adhesive tapes arranged on the PET protective film, and the plurality of adhesive tapes are arranged along a transverse direction and correspond to the plurality of bearing portions of the adhesive tape carrier when the adhesive dispensing slider is at a start position.

In a preferred embodiment, the bearing part is provided with an attaching surface corresponding to the shape of the adhesive tape, when the adhesive tape separating slider is located at the initial position, the adhesive tape strip is laid on the adhesive tape carrier, and the adhesive tape covers the attaching surface of the bearing part.

In a preferred embodiment, the vehicle-mounted liquid crystal frame gluing device comprises a supporting seat fixed on the surface of the base, the supporting seat is used for supporting the adhesive tape carrier and is provided with an air suction hole for sucking air, the adhesive tape carrier is provided with a through hole vertically penetrating through the binding surface of the bearing part, and when the adhesive dispensing slider is located at an initial position, the through hole is communicated with the air suction hole.

In a preferred embodiment, the vehicle-mounted liquid crystal frame adhesive tape sticking device further includes an air suction device connected to the support base, the air suction device is provided with an air suction pipe connected to the air suction hole, the adhesive tape separating slider is located at a starting position, and when the adhesive tape strip is laid on the adhesive tape carrier, the air suction device sucks the adhesive tape to the attaching surface through the through hole and the air suction pipe.

In a preferred embodiment, a side of the adhesive tape away from the bonding surface is an adhesive surface, when the dispensing slider is located at a final position, the plurality of vehicle-mounted liquid crystal frames sequentially cover the bonding surface with the adhesive tape, and the adhesive tape is transferred onto the vehicle-mounted liquid crystal frames through the adhesive surface.

In a preferred embodiment, the number of the cross bars is two and is located at two longitudinal sides of the adhesive dispensing sliding block, the supporting seat includes a first supporting seat located between the two cross bars and a second supporting seat located at two longitudinal outer sides of the two cross bars, the first supporting seat is disposed adjacent to the adhesive dispensing sliding block and is used for supporting the middle section of the adhesive tape carrier, and the second supporting seat is used for supporting the longitudinal side of the adhesive tape carrier.

Compared with the prior art, the embodiment of the utility model has the following beneficial effects: the arrangement of the vehicle-mounted liquid crystal frame adhesive tape sticking device enables adhesive tape strips with a plurality of adhesive tapes to be flatly paved on the adhesive tape carrier, and then the air cylinder drives the adhesive tape separating slide block to do longitudinal motion so as to drive the bearing part of the adhesive tape carrier to do unfolding motion along the transverse direction, so that the plurality of adhesive tapes on the bearing part are unfolded, and the vehicle-mounted liquid crystal frame and the adhesive tapes are conveniently stuck; meanwhile, a plurality of vehicle-mounted liquid crystal frames can be pasted according to the number of the adhesive tapes. Therefore, the vehicle-mounted liquid crystal frame rubberizing device can rapidly position a plurality of adhesive tapes at one time through the arrangement of the adhesive separating slide block and the adhesive tape carrier, so that the rubberizing efficiency of the vehicle-mounted liquid crystal frame is improved.

Drawings

One or more embodiments are illustrated by way of example in the accompanying drawings, which correspond to the figures in which like reference numerals refer to similar elements and which are not to scale unless otherwise specified.

Fig. 1 is a perspective view of the liquid crystal frame adhesive applying device for a vehicle according to the present invention.

Fig. 2 is a perspective view illustrating a process of applying the adhesive to the liquid crystal frame attaching apparatus shown in fig. 1.

Fig. 3 is a front view of an adhesive tape strip used in the liquid crystal frame attaching apparatus for a vehicle shown in fig. 1.

Fig. 4 is a front view of the in-vehicle liquid crystal frame taping device of fig. 1 when adhesive tape strips are laid flat.

FIG. 5 is a front view of the in-vehicle liquid crystal frame adhering device shown in FIG. 4 with the protective film removed from the adhesive tape.

Fig. 6 is a front view of the on-vehicle liquid crystal frame paste device shown in fig. 5 at a final position.

Fig. 7 is a front view of the in-vehicle liquid crystal frame pasting device shown in fig. 2 when pasting glue.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more apparent, embodiments of the present invention will be described in detail below with reference to the accompanying drawings. However, it will be appreciated by those of ordinary skill in the art that numerous technical details are set forth in the embodiments of the present invention in order to provide a better understanding of the present application. However, the technical solution claimed in the present application can be implemented without these technical details and various changes and modifications based on the following embodiments.

Fig. 1 to 2 show a vehicle-mounted liquid crystal frame adhesive applying device 100 according to the present invention, which is used for separating an adhesive tape 202 of an adhesive tape strip 200 and attaching the adhesive tape onto a vehicle-mounted liquid crystal frame 300. The vehicle-mounted liquid crystal frame rubberizing device 100 comprises a lengthwise base 10, a glue distribution sliding block 20 positioned on the base 10, an air cylinder 30 connected to the glue distribution sliding block 20, a tape carrier 40 positioned above the glue distribution sliding block 20 and a cross bar 50 fixed on the base 10, wherein the air cylinder 30 drives the glue distribution sliding block 20 to move longitudinally so as to drive the tape carrier 40 to move transversely.

Referring to fig. 4 to 7, the glue dividing slider 20 is substantially trapezoidal and has a widest side 21 and a narrowest side 22 respectively located at two longitudinal sides, the glue dividing slider 20 is provided with a plurality of sliding grooves 23 located between the widest side 21 and the narrowest side 22 and extending along the longitudinal direction, the sliding grooves 23 gradually and uniformly spread outward from the narrowest side 22 to the widest side 21, that is, the distance between the sliding grooves 23 gradually increases from the narrowest side 22 to the widest side 21. In the present embodiment, the air cylinder 30 is disposed at one side of the glue dividing slider 20 in the longitudinal direction and is connected to the glue dividing slider 20 through a transmission rod 31 extending in the longitudinal direction; the air cylinder 30 drives the glue-separating slide block 20 to move on the surface of the base 10 along the longitudinal direction through the transmission rod 31.

The tape carrier 40 has a plurality of carrying portions 41 for carrying the tape 202 and pins (not shown) extending downward from the bottom surfaces of the carrying portions 41 into the sliding slots 23, and the pins slide in the sliding slots 23 to drive the carrying portions 41 to move. The cross bar 50 extends transversely through the carrier part 41 to limit the longitudinal movement of the carrier part 41, i.e. the carrier part 41 of the tape carrier 40 can only move transversely. In this embodiment, the adhesive dispensing slider 20 is driven by the cylinder 30 to move along the longitudinal direction, so as to drive the plurality of bearing portions 41 of the tape carrier 40 to move along the transverse direction.

The dispensing slider 20 has a starting position and a final position, as shown in fig. 4, when the pin of the tape carrier 40 is located on the narrowest side 22 of the dispensing slider 20, the dispensing slider 20 is located at the starting position, and the tape carrier 40 is in a closed state. As shown in fig. 6, when the pin of the tape carrier 40 is located on the widest side 21 of the dispensing slider 20, the dispensing slider 20 is located at the final position, and the tape carrier 40 is in the unfolded state.

Meanwhile, when the glue dispensing sliding block 20 moves from the initial position to the final position, the sliding groove 23 drives the plurality of bearing portions 41 to perform unfolding movement outwards along the transverse direction through the pins. When the glue dispensing sliding block 20 moves from the final position to the initial position, the sliding groove 23 drives the bearing portion 41 to perform closing movement inward along the transverse direction through the pin.

As shown in fig. 3, the adhesive tape strip 200 is used for adhering a plurality of vehicle-mounted liquid crystal frames 300, the adhesive tape strip 200 includes a PET protective film 201 and a plurality of adhesive tapes 202 disposed on the PET protective film 201, and the plurality of adhesive tapes 202 are arranged along a transverse direction and correspond to the plurality of carrying portions 41 of the adhesive tape carrier 40 when the adhesive dispensing slider 20 is at the initial position. In this embodiment, the bearing portion 41 is provided with an attaching surface (not numbered) corresponding to the shape of the adhesive tape 202, when the adhesive dispensing slider 20 is located at the initial position, the adhesive tape strip 200 is laid on the adhesive tape carrier 40, and the adhesive tape 202 covers the attaching surface of the bearing portion 41.

The vehicle-mounted liquid crystal frame adhesive tape adhering device 100 further comprises a supporting seat 60 fixed on the surface of the base 10 and an air suction device (not shown) connected to the supporting seat 60, wherein the supporting seat 60 is used for supporting the adhesive tape carrier 40 and is provided with an air suction hole 61 for sucking air, the adhesive tape carrier 40 is provided with a through hole (not shown) vertically penetrating through the adhering surface of the bearing part 41, and when the adhesive dispensing slider 20 is located at the initial position, the through hole is communicated with the air suction hole 61. The air suction device is provided with an air suction pipe 71 connected to the air suction hole 61, when the adhesive dispensing slide block 20 is located at the initial position and the adhesive tape strip 200 is laid on the adhesive tape carrier 40, the air suction device sucks the adhesive tape 202 to the binding surface through the through hole and the air suction pipe 71.

The side of the adhesive tape 202 away from the attachment surface is an adhesive surface, when the dispensing slider 20 is located at the final position, the plurality of vehicle-mounted liquid crystal frames 300 can sequentially cover the attachment surface with the bearing portion 41, and the adhesive tape 202 is transferred onto the vehicle-mounted liquid crystal frames 300 through the adhesive surface. In this embodiment, the number of the cross bars 50 is two and is located at two longitudinal sides of the adhesive dispensing sliding block 20, the supporting seat 60 includes a first supporting seat 62 located between the two cross bars 50 and a second supporting seat 63 located at the longitudinal outer side of the two cross bars 50, the first supporting seat 62 is adjacent to the adhesive dispensing sliding block 20 and is used for supporting the middle section of the adhesive tape carrier 40, and the second supporting seat 63 is used for supporting the longitudinal side of the adhesive tape carrier 40.

Referring to fig. 3 to 7, the working principle of the vehicle-mounted liquid crystal frame gluing device 100 is shown: 1. the adhesive tape strip 200 is flatly laid on the adhesive tape carrier 40, and the adhesive tape 202 is adsorbed on the adhering surface of the bearing part 41 through the air suction device connected below the adhesive tape carrier 40; 2. tearing off the PET protective film 201 of the adhesive tape strip 200, wherein the upper surface of the adhesive tape 202 is an adhesive surface; 3. starting the air cylinder 30, driving the glue-separating slide block 20 to move from the initial position to the final position along the longitudinal direction through the air cylinder 30, and simultaneously driving the bearing part 41 to uniformly expand outwards along the transverse direction; 4. the plurality of liquid crystal frames 300 are sequentially placed on the bonding surface of the carrier 41 from bottom to top in the lateral direction, and the adhesive tape 202 is transferred to the liquid crystal frames 300 through the adhesive surface.

In the utility model, the adhesive tape sticking device 100 for the vehicle-mounted liquid crystal frame is arranged to enable the adhesive tape strips 200 with a plurality of adhesive tapes 202 to be flatly laid on the adhesive tape carrier 40, and then the air cylinder 30 drives the adhesive separating slide block 20 to move longitudinally so as to drive the bearing part 41 of the adhesive tape carrier 40 to move transversely and spread the plurality of adhesive tapes 202 on the bearing part 41, so that the vehicle-mounted liquid crystal frame 300 and the adhesive tapes 202 are stuck conveniently; meanwhile, a plurality of vehicle-mounted liquid crystal frames 300 may be pasted according to the number of the tapes 202. Therefore, the vehicle-mounted liquid crystal frame rubberizing device 100 can rapidly position the plurality of adhesive tapes 202 at one time through the arrangement of the adhesive separating sliding blocks 20 and the adhesive tape carriers 40, so that the rubberizing efficiency of the vehicle-mounted liquid crystal frame 300 is improved.

It will be understood by those of ordinary skill in the art that the foregoing embodiments are specific examples for carrying out the utility model, and that various changes in form and details may be made therein without departing from the spirit and scope of the utility model in practice.

Claims (10)

1. A vehicle-mounted liquid crystal frame rubberizing device is used for separating and attaching a tape of a tape strip to a vehicle-mounted liquid crystal frame; the method is characterized in that: the vehicle-mounted liquid crystal frame rubberizing device comprises a lengthwise base, a glue dividing sliding block, an air cylinder, a glue dividing carrier and a cross rod, wherein the glue dividing sliding block is positioned on the base, the air cylinder is connected to the glue dividing sliding block, the glue dividing sliding block is roughly trapezoidal and is provided with a widest side and a narrowest side which are respectively positioned on two longitudinal sides, the glue dividing sliding block is provided with a plurality of sliding grooves which extend along the longitudinal direction, the sliding grooves gradually diffuse outwards from the narrowest side to the widest side, the air cylinder drives the glue dividing sliding block to move along the longitudinal direction on the surface of the base, the glue dividing carrier is provided with a plurality of bearing parts for bearing a glue and pin columns which extend downwards into the sliding grooves from the bottom surfaces of the bearing parts, the cross rod transversely penetrates through the bearing parts to limit the longitudinal movement of the bearing parts, and the glue dividing sliding block is driven by the air cylinder to move along the longitudinal direction, so as to drive the plurality of bearing parts of the adhesive tape carrier to move along the transverse direction.

2. The vehicle-mounted liquid crystal frame rubberizing device according to claim 1, wherein: the adhesive tape separating slide block is provided with a starting position and a final position, when the pin of the adhesive tape carrier is positioned on the narrowest side of the adhesive tape separating slide block, the adhesive tape separating slide block is positioned at the starting position, and the adhesive tape carrier is in a closed state; when the pin of the adhesive tape carrier is positioned on the widest side of the adhesive separating sliding block, the adhesive separating sliding block is positioned at the final position, and the adhesive tape carrier is in an unfolded state at the moment.

3. The vehicle-mounted liquid crystal frame rubberizing device according to claim 2, wherein: when the glue distribution sliding block moves from the initial position to the final position, the sliding groove drives the bearing parts to transversely and outwards perform unfolding motion through the pin columns.

4. The vehicle-mounted liquid crystal frame rubberizing device according to claim 2, wherein: when the glue distribution sliding block moves from the final position to the initial position, the sliding groove drives the bearing parts to do closing movement inwards along the transverse direction through the pin columns.

5. The vehicle-mounted liquid crystal frame rubberizing device according to claim 2, wherein: the adhesive tape strip is used for gluing the vehicle-mounted liquid crystal frames, the adhesive tape strip comprises a PET protective film and a plurality of adhesive tapes arranged on the PET protective film, and the adhesive tapes are transversely arranged and correspond to the bearing parts of the adhesive tape carrier when the adhesive dispensing slide block is at the initial position.

6. The vehicle-mounted liquid crystal frame rubberizing device according to claim 5, wherein: the bearing part is provided with a binding surface corresponding to the shape of the adhesive tape, when the adhesive separating slide block is positioned at the initial position, the adhesive tape strip is flatly paved on the adhesive tape carrier, and the adhesive tape covers the binding surface of the bearing part.

7. The vehicle-mounted liquid crystal frame rubberizing device according to claim 6, wherein: the vehicle-mounted liquid crystal frame rubberizing device comprises a supporting seat fixed on the surface of the base, the supporting seat is used for supporting the adhesive tape carrier and is provided with an air suction hole for sucking air, the adhesive tape carrier is provided with a through hole vertically penetrating through the bearing part and the binding surface, and when the adhesive separating slide block is located at an initial position, the through hole is communicated with the air suction hole.

8. The vehicle-mounted liquid crystal frame rubberizing device according to claim 7, wherein: the vehicle-mounted liquid crystal frame rubberizing device further comprises an air suction device connected to the supporting seat, the air suction device is provided with an air suction pipe connected to the air suction hole, the adhesive separating sliding block is located at the initial position, and when the adhesive tape strips are laid on the adhesive tape carrier, the air suction device enables the adhesive tape to be adsorbed to the binding surface through the through hole and the air suction pipe.

9. The vehicle-mounted liquid crystal frame rubberizing device according to claim 6, wherein: one side of the adhesive tape, which is far away from the binding surface, is an adhesion surface, when the adhesive separating slide block is located at the final position, the vehicle-mounted liquid crystal frames sequentially cover the binding surface with the adhesive tape, and the adhesive tape is transferred to the vehicle-mounted liquid crystal frames through the adhesion surface.

10. The vehicle-mounted liquid crystal frame rubberizing device according to claim 7 or 8, wherein: the quantity of horizontal pole is two and is located divide the vertical both sides of gluing the slider, the supporting seat is including being located two first supporting seat between the horizontal pole and being located two the second supporting seat in the vertical outside of horizontal pole, first supporting seat is close to divide the setting of gluing the slider and be used for supporting the interlude of sticky tape carrier, the second supporting seat is then used for supporting the vertical side of sticky tape carrier.

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