CN113867018A - Chip mounter of screen and polaroid - Google Patents

Abstract

The invention discloses a chip mounter for a screen and a polaroid, which comprises a bottom plate, wherein a transfer module is arranged on the bottom plate, a screen conveyor belt and a polaroid conveying module are respectively arranged at the head end and the tail end of the transfer module, a scraper module is arranged above the head part of the transfer module, a laminating module is arranged above the tail part of the transfer module, the transfer module comprises a servo screw rod carrying module and a porous suction plate, the polaroid conveying module comprises a rubber belt unwinding roller, a transfer roller and a winding roller, a polaroid placing box is arranged on the side edge of the transfer roller, a first air cylinder is arranged below the polaroid placing box, a transfer platform is arranged between the transfer rollers, the scraper module comprises a support, a pen-shaped air cylinder and a scraper, the laminating module comprises an x-axis servo screw rod module, a y-axis servo screw rod module and a lower suction plate, a compression roller is arranged at the front end of the lower suction plate, and the compression roller is driven by a second air cylinder above; whole device reasonable in design peels off the intact combination of type paper with the polaroid pay-off, finally with the screen pressfitting simultaneously, degree of automation is high.

Description

Chip mounter of screen and polaroid

Technical Field

The invention relates to a chip mounter for a screen and a polaroid.

Background

Ordinary lcd screen, one of them step is with the laminating of screen body and polaroid, and what the laminating face was waited to the polaroid that the supplier provided was stained with the one deck protection on the binding face is from type paper, needs the manual work to tear, extremely wasted time, and the fingerprint is stained with easily in the manual work tearing moreover, and the way that traditional equipment manufacturer took is that tearing the polaroid from type paper and accomplish through solitary equipment, then polaroid and screen pressfitting, and efficiency is not high, does not integrate two steps together.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a chip mounter for a screen and a polarizer.

The technical scheme of the invention is as follows: a chip mounter for screens and polaroids comprises a base plate, wherein two sets of transfer modules are vertically arranged on the base plate in parallel, a screen conveyor belt and a polaroid conveying module are respectively arranged at the head end and the tail end of each transfer module, a scraper module is arranged above the head of each transfer module, a laminating module is arranged above the tail of each transfer module, each transfer module comprises a conveying servo screw rod module and a porous suction plate arranged on the conveying servo screw rod module, the porous suction plates are connected with an external vacuum generator, each polaroid conveying module comprises a tape unwinding roller, a plurality of transfer rollers and a winding roller, a polaroid placing box is arranged on the side edge of each transfer roller, a first cylinder for conveying the polaroid in the polaroid placing box to be laminated with the tape is arranged below the polaroid placing box, a transfer platform is arranged between the transfer rollers, each scraper module comprises a support, the utility model discloses a quick-witted support of laminating, including the support, the vertical pen type cylinder that sets up on the support and set up the scraper on pen type cylinder output shaft, the laminating module includes the servo lead screw module of x axle, sets up the servo lead screw module of y axle on the servo lead screw module of x axle and sets up the lower suction disc in the servo lead screw module below of y axle, the suction disc front end is equipped with the compression roller down, the compression roller is driven by the second cylinder of top.

Specifically, the method comprises the following steps: the servo lead screw module head side of transport is equipped with the transport module of unloading, the transport module of unloading is including the servo lead screw module of unloading and setting up two transport sucking discs on the servo lead screw module of unloading.

The invention has the beneficial effects that: the first cylinder drives the polaroid placing box to move forwards, so that the polaroid in the polaroid placing box is adhered to the adhesive tape, and the polaroid is orderly transported away, wherein when the polaroid is fed on the transfer table and is attached to the screen, the adhesive tape moves in the reverse direction to be separated from the polaroid, the release paper is peeled off from the polaroid, the lower suction plate on the attaching module sucks the upper end surface of the polaroid, the screen is transported to the porous suction plate on the screen conveyor belt and is sucked, the scraper descends to a proper distance, the servo screw rod module is transported to move forwards and backwards for a certain distance, so that the scraper cleans impurities on the surface of the screen, the scraper is lifted upwards, the screen is transported to the lower part of the polaroid and is placed over the screen, the press roller drives the rolling polaroid through the second cylinder, so that the polaroid is perfectly attached to the screen, and the attached product is transported to the lower part of the transporting sucker through the servo screw rod module, the polarizer is fed, stripped from release paper and completely combined, and finally pressed with a screen, so that the automation degree is high.

Drawings

The invention is further described below with reference to the accompanying drawings.

FIG. 1 is a schematic diagram of the present invention.

FIG. 2 is a schematic diagram of the structure of the transfer module of the present invention.

Fig. 3 is a schematic view of the structure of the doctor blade module of the present invention.

FIG. 4 is a schematic diagram of a polarizer transport module according to the present invention.

FIG. 5 is a schematic view of a bonding module according to the present invention.

Fig. 6 is a schematic structural view of the discharging module in the invention.

Wherein: 1-a bottom plate; 2-screen conveyor belt; 3-a transfer module; 301-carrying servo screw rod module; 302-a porous suction plate; 4-a scraper module; 401-a scaffold; 402-pen cylinder; 403-a scraper; 5-polarizer transport module; 501-tape unwinding roller; 502-adhesive tape; 503-a transfer roller; 504-polarizer placing box; 505-a first cylinder; 506-a transfer platform; 507-a wind-up roll; 6-laminating the module; 601-x axis servo screw rod module; a 602-y axis servo screw module; 603-lower suction plate; 604-a press roll; 605-a second cylinder; 7-a discharging module; 701-unloading servo screw rod module; 702-handling the suction cups.

Detailed Description

The technical solutions in the embodiments of the present invention are clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-6, a chip mounter for screens and polarizers comprises a base plate 1, two sets of transfer modules 3 are vertically arranged on the base plate 1 in parallel, a screen conveyor belt 2 and a polarizer conveying module 5 are respectively arranged at the head and the tail of each transfer module 3, a scraper module 4 is arranged above the head of each transfer module 3, a laminating module 6 is arranged above the tail of each transfer module 3, each transfer module 3 comprises a conveying servo screw module 301 and a porous suction plate 302 arranged on the conveying servo screw module 301, each porous suction plate 302 is connected with an external vacuum generator (not shown), each polarizer conveying module 5 comprises an adhesive tape unwinding roller 501, a plurality of intermediate rollers 503 and a winding roller 507, a polarizer placing box 504 is arranged on the side of each intermediate roller 503, a first air cylinder 505 for conveying a polarizer (not shown) in the polarizer placing box 504 to be laminated with the adhesive tape 502 is arranged below the polarizer placing box 504, a transfer platform 506 is arranged between the transfer rollers 503, the scraper module 4 comprises a support 401, a pen-shaped cylinder 402 vertically arranged on the support 401 and a scraper 403 arranged on an output shaft of the pen-shaped cylinder 402, the attaching module 6 comprises an x-axis servo screw rod module 601, a y-axis servo screw rod module 602 arranged on the x-axis servo screw rod module 601 and a lower suction plate 603 arranged below the y-axis servo screw rod module 602, a press roller 604 is arranged at the front end of the lower suction plate 603, and the press roller 604 is driven by a second cylinder 605 above.

According to the invention, a conveying and unloading module 7 is arranged on the side edge of the head of the conveying servo screw rod module 301, and the conveying and unloading module 7 comprises an unloading servo screw rod module 701 and two conveying suckers 702 arranged on the unloading servo screw rod module 701.

In the practical use process, the first cylinder 505 drives the polarizer placing box 504 to move forward, so that the polarizer in the polarizer placing box 504 is adhered to the adhesive tape 502, and the purpose of transporting the polarizer 502 orderly is achieved, wherein when the polarizer 502 is fed on the transfer table 506 and attached to the screen, the adhesive tape moves in the opposite direction to separate from the polarizer, and at the same time, the release paper is peeled off from the polarizer, the lower suction plate 603 on the attaching module 6 sucks the upper end surface of the polarizer 502, the screen is transported to the porous suction plate 302 on the screen conveyor belt 2 and is sucked, the scraper 403 descends to a proper distance, the transporting servo screw rod module 301 moves forward and backward for a certain distance, so that the scraper 403 cleans impurities on the surface of the screen, then the scraper 403 lifts up, the screen is transported to the lower part of the polarizer, the polarizer is placed right above the screen, the pressure roller 604 drives the polarizer 605 to roll through the second cylinder, make polaroid and screen perfect laminating, the product that the laminating is good is carried to transport sucking disc 702 below by transport servo lead screw module to be held by the transport sucking disc, is unloaded to suitable place by the servo lead screw module 701 of unloading at last, and whole device reasonable in design peels off the polaroid pay-off, combines from type paper perfect, finally presses together with the screen simultaneously, and degree of automation is high.

The drawings and examples are only for the purpose of illustrating the invention and any suitable changes or modifications thereof which may occur to those skilled in the art should be considered as not departing from the scope of the invention.

Claims (2)

1. The utility model provides a chip mounter of screen and polaroid, includes the bottom plate, its characterized in that: the bottom plate is vertically provided with two sets of transfer modules in parallel, the head and the tail ends of the transfer modules are respectively provided with a screen conveyor belt and a polaroid transfer module, a scraper module is arranged above the head of the transfer module, a laminating module is arranged above the tail of the transfer module, the transfer module comprises a transfer servo lead screw module and a porous suction plate arranged on the transfer servo lead screw module, the porous suction plate is connected with an external vacuum generator, the polaroid transfer module comprises a tape unwinding roller, a plurality of transfer rollers and a winding roller, the side edge of each transfer roller is provided with a polaroid placing box, a first air cylinder for conveying the polaroid in the polaroid placing box to be laminated with the tape is arranged below the polaroid placing box, a transfer platform is arranged between the transfer rollers, the scraper module comprises a support, a pen-shaped air cylinder vertically arranged on the support and a scraper arranged on an output shaft of the pen-shaped air cylinder, the laminating module includes the servo lead screw module of x axle, sets up the servo lead screw module of y axle on the servo lead screw module of x axle and sets up the lower suction disc in the servo lead screw module below of y axle, the suction disc front end is equipped with the compression roller down, the compression roller is driven by the second cylinder of top.

2. The screen and polarizer sheet mounter according to claim 1, wherein: the servo lead screw module head side of transport is equipped with the transport module of unloading, the transport module of unloading is including the servo lead screw module of unloading and setting up two transport sucking discs on the servo lead screw module of unloading.

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