CN220612585U - Synchronous point tin cream rubberizing tape device - Google Patents

Abstract

The utility model belongs to the technical field of conductive connection, and relates to a synchronous point solder paste adhesive tape pasting device, which comprises a main mounting plate, a point solder paste mechanism and an adhesive tape pasting mechanism, wherein the point solder paste mechanism comprises a solder paste coating nozzle and a lifting driving cylinder for driving the solder paste coating nozzle to lift, the adhesive tape pasting mechanism comprises a transfer plate, a discharging plate, an adhesive tape guiding part, a traction head assembly and an adhesive tape cutting part which are sequentially arranged at the lower part of the transfer plate, a linear lifting module for driving the transfer plate to lift is arranged on the main mounting plate, the traction head assembly comprises a traction head for sucking the adhesive tape non-adhesive surface and a driving part for driving the traction head to rotate, and a walking assembly for enabling the traction head to walk along the left-right direction is arranged on the main mounting plate. The synchronous solder paste adhesive tape dispensing device supplies solder paste through the solder paste dispensing mechanism, and supplies adhesive tape through the adhesive tape dispensing mechanism, and only one set of traveling assembly is adopted to complete movement, so that the part cost and the occupied space are saved, and the production efficiency is improved.

Description

Synchronous point tin cream rubberizing tape device

Technical Field

The utility model relates to the technical field of conductive connection, in particular to a synchronous point solder paste tape sticking device.

Background

Along with the stronger and stronger environmental protection, the country is gradually changing the traditional power generation mode, and the power generation proportion of new energy and clean energy is increased, wherein the solar power generation is rapidly developed, so the demand for solar energy components is rapidly increased. The solar energy component is characterized in that the solar energy component is provided with a solar energy component, wherein the solar energy component is provided with a solar energy component, and the solar energy component is provided with a solar energy component; in addition, the series-connected battery cells are physically connected by means of adhesive tape.

Chinese patent CN114628542a discloses a back contact solar cell string, a method for manufacturing the same, a cell module and a photovoltaic system, wherein solder paste, conductive paste or conductive adhesive film is printed on each solder joint of a plurality of back contact cells, and insulating layers are coated on the regions between each solder joint of the plurality of back contact cells, wherein the insulating layers are non-conductive adhesive tapes or insulating films. Although the back contact solar cell string can be soldered and insulated with solder paste, it is not clear whether the two steps are synchronized, nor is there a corresponding device structure to address this problem. If the solder paste and the adhesive tape are respectively arranged in the front and the back steps, the processing period is increased, and the production efficiency is not ideal

There is therefore a need for improved device structures to address the above issues.

Disclosure of Invention

The utility model mainly aims to provide the synchronous solder paste adhesive tape dispensing device, which can dispense solder paste and simultaneously finish adhesive tape dispensing, so that two process steps are combined, and only one set of traveling assembly is adopted to finish movement, thereby saving the cost of parts and improving the production efficiency.

The utility model realizes the aim through the following technical scheme: the utility model provides a synchronous some tin cream rubberizing device, includes the main mounting panel of vertical setting and divides to locate the two sides about the main mounting panel some tin cream mechanism and rubberizing mechanism, some tin cream mechanism is including scribbling the tin cream mouth and drive scribble the lift drive cylinder that the tin cream mouth goes up and down, rubberizing mechanism is including carrying the board and carrying blowing dish, sticky tape guide part, traction head subassembly and the rubberizing part that the lower part that the board set gradually that carries, be equipped with the drive on the main mounting panel carry the straight line lifting module that the board goes up and down, traction head subassembly includes the traction head and the drive of the non-adhesive surface of adhesive tape the rotatory drive part of traction head, the rubberizing part cuts off the adhesive tape, be equipped with the walking subassembly that makes it walk along left and right directions on the main mounting panel.

Specifically, the walking assembly comprises a walking motor and a walking gear driven by the walking motor, the walking motor is located above the transfer plate, and the walking motor and the walking gear are located on two opposite sides of the mounting plate.

Specifically, the rotary driving part is arranged on the outer side of the transfer plate, the rotary driving part drives a first synchronous belt pulley positioned on the inner side of the transfer plate, the shaft of the traction head is connected with a second synchronous belt pulley, and the first synchronous belt pulley and the second synchronous belt pulley are driven by the synchronous belt.

Specifically, the upper portion of carrying the board is equipped with vacuum assembly, the periphery equipartition of drawing head has a plurality of suction nozzles, vacuum assembly is for the suction nozzle provides negative pressure.

The technical scheme of the utility model has the beneficial effects that:

the synchronous solder paste adhesive tape dispensing device supplies solder paste through the solder paste dispensing mechanism, supplies adhesive tapes through the adhesive tape dispensing mechanism, utilizes the commonality of movement of two operations along the same direction, combines two process steps, and only adopts one set of traveling assembly to complete movement, thereby saving the cost of parts and occupied space and improving the production efficiency.

Drawings

FIG. 1 is a perspective view of a front face of an embodiment of a synchronous spot solder paste taping device;

fig. 2 is a perspective view of the reverse side of the synchronous spot solder paste taping device according to the embodiment.

The figures represent the numbers:

1-a synchronous solder paste tape pasting device, 11-a mounting plate, 12-a solder paste pointing mechanism, 121-a solder paste coating nozzle and 122-a lifting driving cylinder; 13-adhesive tape placing mechanism, 131-transfer plate, 132-adhesive tape placing reel, 133-adhesive tape guiding component, 134-traction head component, 1341-traction head, 1342-rotary driving component, 1343-synchronous belt, 1344-second synchronous pulley, 135-adhesive tape cutting component, 136-vacuum component, 14-linear lifting module, 15-walking component, 151-walking motor and 152-walking gear;

2-adhesive tape.

Detailed Description

The present utility model will be described in further detail with reference to specific examples.

Examples:

as shown in fig. 1, the embodiment is a synchronous spot solder paste taping device 1, which comprises a main mounting plate 11 vertically arranged, a spot solder paste mechanism 12 and a taping mechanism 13 respectively arranged on the front and rear sides of the main mounting plate 11, wherein the taping mechanism 13 comprises a transfer plate 131, a linear lifting module 14 for driving the transfer plate 131 to lift is arranged on the main mounting plate 11, and a travelling assembly 15 for enabling the main mounting plate 11 to travel along the left and right direction is arranged on the main mounting plate 11.

The linear lifting module 14 is a sliding table cylinder driven by a linear motor, and the linear motor has the advantages of high speed and accurate positioning, and the precision can reach +/-0.01 mm. The solder paste dispensing mechanism 12 is used for supplying solder paste, and the lifting driving cylinder 122 drives the solder paste coating nozzle 121 to lift so as to enable the solder paste to be supplied onto the solar cell; the taping mechanism 13 is used for supplying the adhesive tape 2, and the taping mechanism 13 is controlled to lift by the linear lifting module 14, so that the adhesive tape 2 is attached to the other solar cell. The traveling assembly 15 enables the main mounting plate 11 to move in one direction, the solder paste dispensing mechanism 12 and the adhesive tape pasting mechanism 13 are positioned on two sides of the advancing direction of the main mounting plate 11, and the two processing steps are combined by utilizing the commonality of the movement of the two operations along the same direction, so that the two processing steps share one traveling assembly 15, the part cost and the occupied space are saved, and the production efficiency is improved.

As shown in fig. 2, the traveling assembly 15 includes a traveling motor 151 and a traveling gear 152 driven by the traveling motor 151, the traveling motor 151 being located above the transfer plate 131, the traveling motor 151 and the traveling gear 152 being located on opposite sides of the mounting plate 11.

The traveling motor 151 is matched with a rack on the equipment by driving the traveling gear 152 to rotate, so that the horizontal movement of the synchronous point solder paste adhesive tape device 1 is realized. The traveling motor 151 reasonably utilizes the upper space of the mounting plate 11, so that the structure of the synchronous point solder paste adhesive tape device 1 is more compact.

As shown in fig. 2, the paste dispensing mechanism 12 includes a paste nozzle 121 and a lift driving cylinder 122 for driving the paste nozzle 121 to lift.

The solder paste is stored in the solder paste coating nozzle 121, and the solder paste coating nozzle 121 uses the non-contact solder paste spraying technology to spray the solder paste, so that the method has the advantages of high precision and high consistency, is simple to operate and clean, and greatly improves the production efficiency. The lifting driving cylinder 122 adopts a sliding table cylinder, has good guiding and positioning functions, and can ensure that the solder paste coating nozzle 121 moves vertically and directly.

As shown in fig. 1, the taping mechanism 13 further includes a discharge tray 132, a tape guide member 133, a pulling head assembly 134, and a tape cutting member 135, which are disposed in this order below the transfer plate 131, the pulling head assembly 134 including a pulling head 1341 for sucking the non-adhesive surface of the tape 2 and a driving member 1342 for driving the pulling head 1341 to rotate, and the tape cutting member 135 cutting the tape 2.

The roll-shaped adhesive tape 2 is placed on the tape reel 132. The adhesive tape guiding assembly 133 plays a role in guiding the adhesive tape 2, and avoids position deviation in the operation process of the adhesive tape. The traction head 1341 can absorb the non-adhesive surface of the adhesive tape 2, the adhesive surface of the adhesive tape 2 faces outwards, the operation of the traction head 1341 further pulls the adhesive tape 2, and the adhesive tape unreeling disc 132 is driven, so that the effect of conveying the adhesive tape 2 is achieved. The tape cutting member 135 is capable of breaking the head of the tape 2 and the pulling head 1341 is capable of moving the tape 2 over the taping position.

As shown in fig. 1 and 2, a rotation driving member 1341 is provided outside the transfer plate 131, the rotation driving member 1341 drives a first timing pulley (not exposed) provided inside the transfer plate 131, and the shaft of the pulling head 1341 is connected to a second timing pulley 1344, and the first timing pulley and the second timing pulley 1344 are driven by the timing belt 1343.

If the rotary driving part 1342 and the traction head 1341 are arranged on two opposite sides of the transfer plate 131, the rotary driving part 1342 is longer, and is likely to interfere with the position of the solder paste dispensing mechanism 12, so that the rotary driving part 1341 is arranged in the other direction, the first synchronous pulley, the second synchronous pulley 1344 and the synchronous belt 1343 form a transmission assembly with small occupied space, and the transmission assembly can not influence the movement of the solder paste dispensing mechanism 12. The traction head 1341 and the rotation driving part 1342 are also located on the same side of the transfer plate 131.

As shown in fig. 1 and 2, a vacuum assembly 136 is provided at the upper part of the transfer plate 131, and a plurality of suction nozzles (not exposed) are uniformly distributed on the outer circumference of the pulling head 1341, and the vacuum assembly 136 provides negative pressure for the suction nozzles.

The vacuum assembly 136 reasonably utilizes the space on the transfer plate 131, so that the device structure is compact. While satisfying the suction requirements of the pulling head 1341.

The utility model relates to a synchronous point solder paste tape sticking device, which has the working principle that: the lifting driving cylinder 122 drives the solder paste coating nozzle 121 to move downwards to the position above the solar module plate to perform the action of solder paste dispensing; the linear lifting module 14 drives the transfer plate 131 to move downwards, meanwhile, under the action of the rotary driving component 1342, the synchronous belt 1343 drives the traction head 1341 to operate, after the adhesive tape reaches the traction head 1341, the air blowing block 134 blows air to enable the adhesive tape to cling to the traction head 1341, the adhesive tape cutting component 135 cuts the adhesive tape 2, the traction head 1341 operates the adhesive tape 2 to the right lower side, the linear lifting module 14 drives the traction head 1341 to move downwards, and the cut adhesive tape 2 is applied to the connecting position of two battery pieces.

What has been described above is merely some embodiments of the present utility model. It will be apparent to those skilled in the art that various modifications and improvements can be made without departing from the spirit of the utility model.

Claims (4)

1. The utility model provides a synchronous some tin cream rubberizing tape device which characterized in that: including the main mounting panel of vertical setting and divide to locate the point tin cream mechanism and the rubberizing tape mechanism on two sides around the main mounting panel, the point tin cream mechanism is including scribbling tin cream mouth and drive scribble the lift drive cylinder that the tin cream mouth goes up and down, rubberizing tape mechanism is including carrying the board and carrying blowing dish, sticky tape direction part, traction head subassembly and the rubberizing tape part that the lower part that carries the board set gradually, be equipped with the drive on the main mounting panel carry the straight line lift module that the board goes up and down, traction head subassembly includes the traction head and the drive of the non-adhesive surface of sticky tape traction head rotatory drive part, the rubberizing tape part cuts off the sticky tape, be equipped with the walking subassembly that makes it walk along left and right directions on the main mounting panel.

2. The synchronous spot solder paste taping device of claim 1, wherein: the walking assembly comprises a walking motor and a walking gear driven by the walking motor, the walking motor is located above the transfer plate, and the walking motor and the walking gear are located on two opposite sides of the mounting plate.

3. The synchronous spot solder paste taping device of claim 1, wherein: the rotary driving part is arranged on the outer side of the transfer plate, the rotary driving part drives a first synchronous belt pulley positioned on the inner side of the transfer plate, the shaft of the traction head is connected with a second synchronous belt pulley, and the first synchronous belt pulley and the second synchronous belt pulley are driven by a synchronous belt.

4. The synchronous spot solder paste taping device of claim 1, wherein: the upper portion of carrying the board is equipped with vacuum assembly, the periphery equipartition of drawing head has a plurality of suction nozzles, vacuum assembly is for the suction nozzle provides negative pressure.