CN106742450B - Automatic back gluing machine for LED module plastic clamping groove - Google Patents

Abstract

The invention provides an automatic adhesive backing machine for LED module plastic clamping grooves, which comprises a transmission mechanism, a separation mechanism, a pushing mechanism, an adhesive paper platform, a shaping mechanism and a cutting mechanism, wherein the transmission mechanism comprises a circular vibration disc and a linear vibrator, the circular vibration disc is used for screening and arranging the transmission plastic clamping grooves, and the linear vibrator is connected with the circular vibration disc and is used for transmitting the plastic clamping grooves; the separating mechanism is connected with the linear vibrator and is used for separating the plastic clamping groove on the linear vibrator; the gummed paper platform is connected with the separating mechanism, and a pushing mechanism is arranged on the gummed paper platform and used for conveying the plastic clamping groove to carry out rubberizing on the gummed paper platform; the shaping mechanism is connected with the gummed paper platform and is used for flattening the gummed paper on the plastic clamping groove; the cutting mechanism is connected with the shaping mechanism and is used for cutting the double-sided adhesive tape. The invention can realize automatic rubberizing and cutting, greatly saves labor, improves production efficiency and has good economic and social benefits.

Description

Automatic back gluing machine for LED module plastic clamping groove

Technical Field

The invention relates to an automatic adhesive back machine, in particular to an automatic adhesive back machine for an LED module plastic clamping groove.

Background

In the LED advertising light source module industry, in order to be convenient to install, most of the modules are required to be stuck with double-sided adhesive paper on the back surface of a module plastic clamping groove, so that when the LED advertising light source module is convenient to install, the back surface of the double-sided adhesive paper is stripped off from the core paper, and then the modules are directly stuck to places where the LED advertising light source module is required to be installed, and the LED advertising light source module is also a common process in the industry. In the actual production process, the plastic clamping grooves are orderly arranged by people, then the double-sided adhesive paper is pulled, the double-sided adhesive paper is adhered to the back surface of the plastic clamping grooves, and finally the plastic clamping grooves are cut by the blades according to a certain clamping groove length. The obvious disadvantage of doing so is that the efficiency of manually finishing the arrangement of the clamping grooves, manually pulling the double-sided tape to paste and manually cutting the double-sided tape is slow.

Disclosure of Invention

The invention aims to provide an automatic adhesive back machine for an LED module plastic clamping groove, which aims to improve the working efficiency of the working procedure and solve the problem of low working efficiency in the prior art.

The invention discloses an automatic adhesive backing machine for an LED module plastic clamping groove, which comprises a transmission mechanism, a separation mechanism, a pushing mechanism, an adhesive paper platform, a shaping mechanism and a cutting mechanism, wherein the transmission mechanism comprises a circular vibration disc and a linear vibrator, the circular vibration disc is used for screening and arranging the transmission plastic clamping groove, and the linear vibrator is connected with the circular vibration disc and is used for transmitting the plastic clamping groove; the separating mechanism is connected with the linear vibrator and is used for separating the plastic clamping groove on the linear vibrator; the adhesive paper platform is connected with the separating mechanism, and a pushing mechanism is arranged on the adhesive paper platform and used for conveying the plastic clamping groove to carry out rubberizing on the adhesive paper platform; the shaping mechanism is connected with the gummed paper platform and is used for flattening the gummed paper on the plastic clamping groove; the cutting mechanism is connected with the shaping mechanism and is used for cutting the double-sided adhesive tape. The module plastic clamping groove of the double-sided adhesive tape to be glued is manually poured into the circular vibrating disc in the machine, the circular vibrating disc is screened, arranged and output plastic clamping groove enters the linear vibrator and is transmitted to the separating mechanism, part of the plastic clamping groove is separated and transmitted to the adhesive tape platform through the separating mechanism, and the disc of the double-sided adhesive tape is driven to rotate under the thrust of the pushing mechanism, so that the double-sided adhesive tape is attached to the upper surface of the plastic clamping groove. The plastic clamping groove after rubberizing is pushed to the lower part of the shaping mechanism, and the shaping cylinder is pressed down to flatten and compress the double-sided adhesive paper attached to the clamping groove. And conveying the plastic clamping groove after shaping to the cutting mechanism, and enabling a cutting cylinder to act to complete the cutting work of the double-sided adhesive tape.

Further, the circular vibration disc and the linear vibrator are respectively provided with a structure corresponding to the plastic clamping groove, so that the phenomenon of material reflection during arrangement of the clamping grooves is avoided, the discharging direction of the plastic clamping grooves is the back plane of the clamping grooves upwards, one surface with grooves faces downwards, sequential arrangement output is performed, and the back rubberizing of the plastic clamping grooves is facilitated.

Further, an air blowing device is arranged on the circular vibration plate, and redundant plastic clamping grooves on the outlet of the circular vibration plate are blown into the circular vibration plate.

Further, be equipped with inductor and air blowing device on the linear vibrator, when the plastic draw-in groove is in when arranging in the track of linear vibrator, and when being located the inductor lower extreme, air blowing device blows the action of blowing, blows away the material in the track to the draw-in groove of extrusion anterior segment takes place the phenomenon of putty.

Further, the separating mechanism is provided with an up-down cylinder, a blocking cylinder, a front-back cylinder, a shifting block and a blocking block, wherein the up-down cylinder is used for shifting the shifting block to move up and down to block and separate the plastic clamping groove; the blocking cylinder is used for adjusting the blocking block to move; the front cylinder and the rear cylinder are used for transporting the separated plastic clamping grooves to move forwards. When the original position is reached, the blocking cylinder stops the blocking block at the outlet of the separation track, when all tracks sense plastic clamping grooves, the upper cylinder and the lower cylinder move to insert the shifting block into the gap between two adjacent plastic clamping grooves, then the front cylinder and the rear cylinder act, the blocking cylinder releases the blocking, the plastic clamping groove in front of the shifting block is shifted forward, the clamping groove behind the shifting block still stays in the tracks, the front clamping groove always moves to the gummed paper platform, at the moment, the blocking cylinder blocks again, the upper cylinder and the lower cylinder descend, and the front cylinder and the rear cylinder reset, so that the complete clamping groove separation is completed. In order to ensure smooth forward movement, the double-sided adhesive tape sticking platform is provided with a corresponding clearance so as to prevent the blocking groove from moving unsmoothly in the track due to accumulation of the plastic blocking groove.

Further, the double-sided adhesive paper disc is arranged on the adhesive paper platform, and the pushing mechanism is used for pushing the plastic clamping groove to drive the double-sided adhesive paper disc to rotate so as to attach the double-sided adhesive paper to the plastic clamping groove.

Further, a shaping cylinder is arranged on the shaping mechanism to flatten and compress the double-sided offset paper on the plastic clamping groove. When the plastic clamping groove is pushed to the lower part of the shaping mechanism, the shaping cylinder is pressed down to press the double-sided adhesive tape attached to the clamping groove to be flat and compact.

Further, a cutting blade is arranged on the cutting mechanism, and the cutting blade works by calculating the moving times of the pushing mechanism through a control program, so that the double-sided adhesive paper is cut. For example, when the number of the set series of clamping grooves is 20, the number of the clamping grooves pushed each time is 4, and the push rod needs to be pushed 5 times, the cutting mechanism acts once.

The invention has the beneficial effects that: the automatic back gluing machine for the module plastic clamping groove has the advantages of simple structure, smooth operation, automatic gluing and great improvement of the manual operation efficiency of the process.

Furthermore, the automatic cutting mechanism can realize automatic cutting of gummed paper and improve the working efficiency.

The above, as well as additional objectives, advantages, and features of the present invention will become apparent to those skilled in the art from the following detailed description of a specific embodiment of the present invention when read in conjunction with the accompanying drawings.

Drawings

Some specific embodiments of the invention will be described in detail hereinafter by way of example and not by way of limitation with reference to the accompanying drawings. The same reference numbers will be used throughout the drawings to refer to the same or like parts or portions. It will be appreciated by those skilled in the art that the drawings are not necessarily drawn to scale. In the accompanying drawings:

FIG. 1 is a schematic view of an LED module plastic card slot automatic adhesive machine according to the present invention;

FIG. 2 is a schematic view of a transfer mechanism of the LED module plastic card slot automatic adhesive machine shown in FIG. 1;

FIG. 3 is a schematic view of a separating mechanism of the LED module plastic card slot automatic adhesive backing machine shown in FIG. 1;

fig. 4 is a schematic view of a pushing mechanism of the automatic adhesive back machine for the plastic clamping groove of the LED module shown in fig. 1.

Fig. 5 is a schematic view of a shaping mechanism of the LED module plastic card slot automatic adhesive backing machine shown in fig. 1.

Fig. 6 is a schematic view of a cutting mechanism of the automatic adhesive-backed machine for the plastic card slot of the LED module shown in fig. 1.

Detailed Description

FIG. 1 is an illustration of an overall LED module plastic card slot automatic adhesive machine according to one embodiment of the present invention.

The automatic adhesive backing machine for the LED module plastic clamping groove shown in fig. 1 comprises transmission mechanisms 1 and 2, a separation mechanism 3, a pushing mechanism 4, an adhesive paper platform 7, a shaping mechanism 5 and a cutting mechanism 6, wherein the transmission mechanism comprises a circular vibration disc 1 and a linear vibrator 2, the circular vibration disc 1 is used for screening and arranging the transmission plastic clamping groove, and the linear vibrator 2 is connected with the circular vibration disc 1 and is used for transmitting the plastic clamping groove; the separating mechanism 3 is connected with the linear vibrator 2 and is used for separating the plastic clamping groove on the linear vibrator 2; the gummed paper platform 7 is connected with the separating mechanism 3, and a pushing mechanism 4 is arranged on the gummed paper platform and used for conveying the plastic clamping groove to carry out gumming on the gummed paper platform 7; the shaping mechanism 5 is connected with the gummed paper platform 7, and the shaping mechanism 5 is used for flattening the gummed paper on the plastic clamping groove; the cutting mechanism 6 is connected with the shaping mechanism 5 and is used for cutting the double-sided offset paper.

The workflow of the present embodiment: the module plastic clamping groove of the double-sided adhesive tape to be glued is manually poured into the circular vibration disc 1 in the machine, the circular vibration disc 1 is used for screening, arranging and transmitting the plastic clamping groove to enter the linear vibrator 2, the plastic clamping groove is transmitted to the separating mechanism 3, part of the plastic clamping groove is separated and transmitted to the adhesive tape platform 7 through the separating mechanism 3, and the disc of the double-sided adhesive tape is driven to rotate under the thrust of the pushing mechanism 4, so that the double-sided adhesive tape is attached to the plastic clamping groove. The plastic clamping groove subjected to rubberizing is pushed to be matched with the lower part of the shaping mechanism 5, and the shaping cylinder is pressed down to press the double-sided adhesive paper attached to the clamping groove to be flat and compact. And conveying the plastic clamping groove after shaping to a cutting mechanism 6, and enabling a cutting cylinder to act to complete the cutting work of the double-sided adhesive tape.

The circular vibration disc 1 and the linear vibrator 2 are respectively provided with a structure corresponding to the plastic clamping grooves, so that the phenomenon of material reflection during arrangement of the clamping grooves is avoided, the discharging direction of the plastic clamping grooves is the back plane of the clamping grooves upwards, the grooved surfaces face downwards, and the plastic clamping grooves are sequentially arranged and output, so that the back rubberizing of the plastic clamping grooves is facilitated.

The circular vibration disk 1 is provided with an air blowing device, and redundant plastic clamping grooves on the outlet of the circular vibration disk are blown into the circular vibration disk 1.

The linear vibrator 2 is provided with an inductor and a blowing device, when the plastic clamping groove is arranged in the track of the linear vibrator 2 and is positioned at the lower end of the inductor, the blowing device performs blowing action to blow away the materials in the track so as to avoid the phenomenon of blocking the materials when the clamping groove at the front section is extruded.

As shown in fig. 3, the separating mechanism 3 is provided with an up-down cylinder 31, a blocking cylinder 33, a front-back cylinder 32, a shifting block 35 and a blocking block 34, wherein the up-down cylinder 31 is used for shifting the shifting block 35 to move up and down to block and separate plastic clamping grooves; the blocking cylinder 33 is used for adjusting the movement of the blocking block 34; the front and rear cylinders 32 are used to transport the spaced apart plastic card slots forward. Motion flow of separation mechanism 3: when the plastic clamping grooves are sensed by all the tracks, the upper cylinder 31 and the lower cylinder 31 move to insert the shifting block 35 into the gap between two adjacent plastic clamping grooves, then the front cylinder 32 and the rear cylinder 32 act, the blocking cylinder 33 releases the blocking, the plastic clamping groove in front of the shifting block 35 is shifted forward, the plastic clamping groove behind the shifting block 35 still stays in the tracks, the front plastic clamping groove moves to the gummed paper platform 7 all the time, at the moment, the blocking cylinder 33 blocks again, the upper cylinder 31 and the lower cylinder 31 descend, and the front cylinder 32 resets to finish the complete plastic clamping groove separation. In order to ensure smooth forward movement, the double-sided adhesive tape sticking platform 7 is provided with a corresponding clearance so as to prevent the plastic clamping grooves from moving smoothly in the track due to accumulation of the plastic clamping grooves.

The adhesive paper platform 7 is provided with a disc of double-sided adhesive paper, and the pushing mechanism 4 is used for pushing the plastic clamping groove to drive the disc of double-sided adhesive paper to rotate so as to attach the double-sided adhesive paper to the plastic clamping groove.

As shown in fig. 5, the shaping mechanism 5 is provided with a shaping cylinder to flatten and compress the double-sided offset paper on the plastic clamping groove. When the plastic clamping groove is pushed to the lower part of the shaping mechanism, the shaping cylinder is pressed down to press the double-sided adhesive tape attached to the clamping groove to be flat and compact.

As shown in fig. 6, the cutting mechanism 6 is provided with a cutting blade 61, and the cutting blade 61 is operated by counting the number of movements of the pushing mechanism by a control program, thereby completing the cutting of double-sided offset paper. For example, when the number of the set series of clamping grooves is 20, the number of the clamping grooves pushed each time is 4, and the push rod needs to be pushed 5 times, the cutting mechanism acts once.

By now it should be appreciated by those skilled in the art that while a number of exemplary embodiments of the invention have been shown and described herein in detail, many other variations or modifications of the invention consistent with the principles of the invention may be directly ascertained or inferred from the present disclosure without departing from the spirit and scope of the invention. Accordingly, the scope of the present invention should be understood and deemed to cover all such other variations or modifications.

Claims (1)

1. An automatic adhesive back machine of LED module plastic draw-in groove, its characterized in that: the plastic clamping device comprises a transmission mechanism, a separation mechanism, a pushing mechanism, a gummed paper platform, a shaping mechanism and a cutting mechanism, wherein the transmission mechanism comprises a circular vibration disc and a linear vibrator, the circular vibration disc is used for screening and arranging plastic clamping grooves for transmission, and the linear vibrator is connected with the circular vibration disc and is used for transmitting the plastic clamping grooves;

the separating mechanism is connected with the linear vibrator and is used for separating the plastic clamping groove on the linear vibrator;

the adhesive paper platform is connected with the separating mechanism, and a pushing mechanism is arranged on the adhesive paper platform and used for conveying the plastic clamping groove to carry out rubberizing on the adhesive paper platform;

the shaping mechanism is connected with the gummed paper platform and is used for flattening the gummed paper on the gummed plastic clamping groove;

the cutting mechanism is connected with the shaping mechanism and is used for cutting double-sided adhesive tape;

the circular vibration disc is provided with an air blowing device which is used for blowing redundant plastic clamping grooves on an outlet of the circular vibration disc into the circular vibration disc;

the linear vibrator is provided with an inductor and an air blowing device, when the plastic clamping grooves are arranged in the track of the linear vibrator and are positioned at the lower end of the inductor, the air blowing device performs air blowing action to blow away materials in the track;

the circular vibration disc and the linear vibrator are respectively provided with a structure corresponding to the plastic clamping groove, so that the discharging directions of the plastic clamping grooves are all that the back planes of the clamping grooves face upwards, and the surfaces with grooves face downwards, and the plastic clamping grooves are sequentially arranged and output;

the separating mechanism is provided with an upper cylinder, a lower cylinder, a blocking cylinder, a front cylinder, a rear cylinder, a shifting block and a blocking block, wherein the upper cylinder and the lower cylinder are used for shifting the shifting block to move up and down to block and separate the plastic clamping groove; the blocking cylinder is used for adjusting the blocking block to move; the front cylinder and the rear cylinder are used for transporting the separated plastic clamping grooves to move forwards; the motion flow of the separation mechanism comprises the following steps: when the plastic clamping grooves are sensed by all the tracks, the up-and-down air cylinder moves to insert the shifting block into the gap between two adjacent plastic clamping grooves, then the front air cylinder and the rear air cylinder act, the blocking air cylinder releases the blocking, the plastic clamping groove in front of the shifting block is shifted forward, the plastic clamping groove behind the shifting block still stays in the tracks, the front plastic clamping groove moves to the gummed paper platform all the time, at the moment, the blocking air cylinder blocks again, the up-and-down air cylinder descends, and the front air cylinder and the rear air cylinder reset to finish the separation of a complete plastic clamping groove;

the pushing mechanism is used for pushing the plastic clamping groove to drive the disc of the double-sided adhesive paper to rotate, so that the double-sided adhesive paper is attached to the plastic clamping groove;

a shaping cylinder is arranged on the shaping mechanism to press the double-sided offset paper on the plastic clamping groove to be smooth and compact;

the cutting mechanism is provided with a cutting blade, and the cutting blade works by calculating the moving times of the pushing mechanism through a control program, so that the double-sided adhesive tape is cut.