CN215152922U - Battery piece silk screen printing transport snatchs structure - Google Patents

Abstract

The utility model discloses a battery piece silk screen printing transport snatchs structure, including sucking disc plate seat, the sucking disc board, the end cap, pneumatic joint, sucking disc foaming silica gel piece, quick connector and air route piece, the array is provided with eight at least groups and adsorbs the corridor on the sucking disc board, adsorb the corridor front side and install pneumatic joint, be provided with on absorption lug and the sucking disc foaming silica gel piece of sucking disc board below and adsorb the communicating absorption hole of corridor, first group adsorbs the corridor right side and is vertically provided with false piece and adsorbs the corridor, false piece adsorbs the corridor upper end and installs quick connector, be provided with on the sucking disc foaming silica gel piece of first group and adsorb the communicating false piece absorption hole of corridor with false piece, still be provided with the air route piece on the sucking disc board, quick connector and seven last pneumatic joints of back are put through with the air route piece is synchronous, the external vacuum generator of a set of air route piece, the pneumatic joint of first group is external vacuum generator of another group alone. In this way, the utility model discloses the knot can compatible ordinary battery piece group and the battery piece group that has false piece snatch the absorption, practices thrift the cost.

Description

Battery piece silk screen printing transport snatchs structure

Technical Field

The utility model relates to a photovoltaic module production technical field especially relates to a battery piece silk screen print transport snatchs structure.

Background

With the increasing rise of clean energy such as solar energy in China, the photovoltaic industry in China is rapidly developed, the technology of the laminated cell in recent two years is rapidly developed, particularly, a silk-screen printing mechanism appears, compared with a point coating type and a blade coating type, the silk-screen printing conductive adhesive technology improves the production efficiency of laminated tiles and reduces the production cost of components, the transportation of the cell after silk-screen printing generally needs a mechanical arm to adsorb and grab, in order to ensure the grabbing and transplanting efficiency, the mechanical arm at present mostly grabs a plurality of cells at equal intervals, a string of cell strings is formed by welding up to 64 cell laminated tiles, each cell string consists of common cells and dummy cells, the dummy cells are arranged at the forefront of the common cells, the width of the common cells is generally 35mm, the common cells can be synchronously grabbed by the mechanical arm at equal intervals, but the dummy cells are narrower and cannot be synchronously grabbed with the subsequent common cells, if the common cell mechanical arm is adopted to adsorb and grab the dummy cells, the first adsorption hole can not contact the dummy wafer, the vacuum is broken, the adsorption action can not be completed, the dummy wafer is usually grabbed by adopting another independent machine at present, the cost is high, the utilization rate is low, each string of battery strings is only used once, the occupied space is occupied, the defects and the defects are overcome, the prior art is improved, and the battery wafer screen printing carrying grabbing structure is designed.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the main technical problem who solves provides a battery piece silk screen print transport snatchs structure, simple structure, design benefit can compatible ordinary battery piece group and have the battery piece group of false piece and snatch the absorption, and a tractor serves several purposes practices thrift the cost, improves space utilization, guarantees fully to contact and adsorbs the battery piece, avoids adsorbing the condition not in place or the loss of pressure battery piece.

In order to solve the technical problem, the utility model discloses a technical scheme be: the battery piece silk-screen printing, carrying and grabbing structure comprises a sucker plate seat, a sucker plate, plugs, pneumatic joints, sucker foaming silica gel sheets, fast inserting joints and a gas circuit block, wherein the sucker plate is installed at the bottom of the sucker plate seat, at least eight groups of adsorption channels are arranged on the sucker plate in an array mode, the plugs are installed on the rear sides of the adsorption channels in a sealing mode, the pneumatic joints are installed on the front sides of the adsorption channels, adsorption convex blocks which are opposite to the adsorption channels in a one-to-one mode are arranged on the array of the bottom of the sucker plate, the sucker foaming silica gel sheets are installed below the adsorption convex blocks, at least three adsorption holes which are communicated with the adsorption channels are formed in the adsorption convex blocks and the sucker foaming silica gel sheets, false piece adsorption channels are vertically arranged on the right sides of the first group of adsorption channels on the sucker plate, the fast inserting joints which are communicated with the false piece adsorption channels are installed at the upper ends of the false piece adsorption channels, false piece adsorption holes which are communicated with the false piece adsorption channels are formed in the first group of the sucker foaming silica gel sheets, the sucking disc plate is also provided with an air path block, the quick connector and the seven groups of rear pneumatic connectors are synchronously communicated with the air path block, the air path block is externally connected with one group of vacuum generators, and the first group of pneumatic connectors is independently and externally connected with the other group of vacuum generators.

Preferably, the hole diameters of the adsorption holes and the dummy adsorption holes are 3 mm.

Preferably, the first group of adsorption lugs and the suction cup foaming silica gel sheet are arranged in a widening way.

Compared with the prior art, the beneficial effects of the utility model are that:

the grabbing adsorption of the common battery piece and the battery piece group with the dummy piece can be compatible, so that the multifunctional battery is multifunctional, the cost is saved, and the space utilization rate is improved;

the arrangement of the adsorption lug can avoid the bulge on the adsorption platform;

the setting of sucking disc foaming silica gel piece plays the effect of elastic buffer, guarantees fully to contact and adsorbs the battery piece, avoids adsorbing the condition not in place or the pressure loss battery piece.

Drawings

Fig. 1 is a schematic structural diagram of a battery plate silk-screen conveying and grabbing structure.

Fig. 2 is a schematic view of another perspective structure of a battery plate screen printing carrying and grabbing structure.

Fig. 3 is a cross-sectional view of an adsorption shaft of a battery plate screen printing carrying and grabbing structure.

Fig. 4 is a cross-sectional view of a dummy wafer adsorption channel of a battery wafer screen printing, conveying and grabbing structure.

Detailed Description

The following detailed description of the preferred embodiments of the present invention will be provided to enable those skilled in the art to more easily understand the advantages and features of the present invention, and to make clear and definite definitions of the protection scope of the present invention.

Referring to fig. 1 to 4, an embodiment of the present invention includes:

a battery piece silk screen printing carrying and grabbing structure comprises a sucker plate seat 1, a sucker plate 2, plugs 3, pneumatic connectors 4, sucker foaming silica gel sheets 5, fast-inserting connectors 6 and a road block 7, wherein the sucker plate 2 is installed at the bottom of the sucker plate seat 1, eight groups of adsorption channels 20 are arranged on the sucker plate 2 in an array mode, the plugs 3 are installed on the rear sides of the adsorption channels 20 in a sealing mode, the pneumatic connectors 4 are installed on the front sides of the adsorption channels 20, adsorption convex blocks 21 which are opposite to the adsorption channels 20 in a one-to-one mode are arranged on the bottom of the sucker plate 2 in an array mode, the foaming sucker silica gel sheets 5 are installed below the adsorption convex blocks 21, three adsorption holes 01 which are communicated with the adsorption channels 20 are formed in the adsorption convex blocks 21 and the sucker foaming silica gel sheets 5, dummy piece adsorption channels 22 are vertically arranged on the right sides of the adsorption channels 20 of the first group on the sucker plate 2, the fast-inserting connectors 6 which are communicated with the dummy adsorption channels 22 are installed at the upper ends of the dummy piece adsorption channels, the first group of the sucking disc foaming silica gel sheet 5 is provided with a dummy sheet adsorption hole 02 communicated with a dummy sheet adsorption passage 22, the sucking disc plate 2 is further provided with an air path block 7, the quick connector 6 and the seven groups of the pneumatic connectors 4 are synchronously communicated with the air path block 7, the air path block 7 is externally connected with one group of vacuum generators, and the first group of the pneumatic connectors 4 is independently and externally connected with the other group of vacuum generators.

The aperture of the adsorption hole 01 and the aperture of the dummy wafer adsorption hole 02 are 3 mm.

The first group of adsorption lugs 21 and the sucker foaming silica gel sheet 5 are arranged in a widening way.

The utility model relates to a structure during operation is snatched in battery piece silk screen printing transport, when adsorbing with eight ordinary battery pieces of specification, two sets of vacuum generator all work, all adsorb hole 01 and the equal negative pressure of dummy piece absorption hole 02, adsorb ordinary battery piece, because ordinary battery piece width broad, can cover dummy piece absorption hole 02, broken vacuum phenomenon can not take place, can carry eight ordinary battery pieces in step, adsorb first piece as needs and be the battery piece, all the other when ordinary battery piece, with quick connector 6 and seven back group pneumatic connector 4 and the work of a set of vacuum generator who is connected, dummy piece absorption hole 02 and seven back groups adsorb hole 01 equal negative pressure and adsorb dummy piece and ordinary battery piece, the absorption of accomplishing a set of battery piece of taking dummy piece snatchs.

The utility model relates to a battery piece silk screen print transport snatchs structure, simple structure, design benefit can compatible ordinary battery piece group and have the battery piece group of false piece snatchs the absorption, and a tractor serves several purposes practices thrift the cost, improves space utilization, guarantees that abundant contact adsorbs the battery piece, avoids adsorbing the condition not in place or the loss by pressure battery piece.

The above only is the embodiment of the present invention, not limiting the patent scope of the present invention, all the equivalent structures or equivalent processes that are used in the specification and the attached drawings or directly or indirectly applied to other related technical fields are included in the patent protection scope of the present invention.

Claims (3)

1. The utility model provides a structure is snatched in transport of battery piece silk screen printing which characterized in that: the battery piece screen printing, carrying and grabbing structure comprises a sucker plate seat, a sucker plate, plugs, pneumatic joints, a sucker foaming silica gel piece, a quick-inserting joint and a gas path block, wherein the sucker plate is installed at the bottom of the sucker plate seat, at least eight groups of adsorption channels are arranged on the sucker plate in an array mode, the plugs are sealed at the rear sides of the adsorption channels, the pneumatic joints are installed at the front sides of the adsorption channels, adsorption convex blocks which are opposite to the adsorption channels in a one-to-one mode are arranged at the bottom of the sucker plate in an array mode, the sucker foaming silica gel piece is installed below the adsorption convex blocks, at least three adsorption holes which are communicated with the adsorption channels are formed in the adsorption convex blocks and the sucker foaming silica gel piece, a dummy piece adsorption channel is vertically arranged at the right side of a first group of the adsorption channels on the sucker plate, the quick-inserting joint communicated with the dummy piece adsorption channels is installed at the upper end of the dummy piece adsorption channels, dummy piece adsorption holes which are communicated with the dummy piece adsorption channels are formed in the first group of the sucker foaming silica gel piece, the sucking disc plate is also provided with an air path block, the quick connector and the seven groups of rear pneumatic connectors are synchronously communicated with the air path block, the air path block is externally connected with one group of vacuum generators, and the first group of pneumatic connectors is independently and externally connected with the other group of vacuum generators.

2. The battery piece silk screen printing, carrying and grabbing structure of claim 1, wherein: the aperture of the adsorption hole and the dummy wafer adsorption hole is 3 mm.

3. The battery piece silk screen printing, carrying and grabbing structure of claim 1, wherein: the first group of adsorption lugs and the sucker foaming silica gel sheet are arranged in a widening way.

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