CN114669878B - Component continuous welding device based on photovoltaic module production - Google Patents

Abstract

The invention relates to the technical field of photovoltaic modules, and discloses a continuous welding device for components based on photovoltaic module production, which comprises a fixed table body, wherein a welding box body is fixedly arranged at the upper end of the fixed table body, a conveyor is arranged on the inner wall of the bottom end of the welding box body, a plurality of placing boxes which are distributed at equal intervals are placed at the upper end of the conveyor, a blanking mechanism and a feeding mechanism are respectively arranged at two sides of the welding box body, an installation mechanism for feeding is arranged in the welding box body, the installation mechanism extends to the outside of the welding box body, sliding grooves for the installation mechanism to horizontally slide are respectively arranged on the outer surfaces of two ends of the welding box body, and a translation cylinder for driving the installation mechanism to horizontally slide is arranged on the outer surface of the welding box body; when the photovoltaic substrate feeding device is actually applied, the photovoltaic substrate can be subjected to continuous feeding, conveying, welding and discharging operations, continuous production is facilitated, and economic benefits are improved.

Description

Component continuous welding device based on photovoltaic module production

Technical Field

The invention relates to the technical field of photovoltaic modules, in particular to a continuous welding device for components based on photovoltaic module production.

Background

The prior art with the publication number of CN114131195A discloses a laser welding device for electronic components, and relates to the technical field of electronic component production. The laser welding device for the electronic component comprises a base, wherein two support plates are symmetrically and fixedly connected with the front and the back of the upper end face of the base, a rotating shaft is jointly and rotatably connected between the support plates, the outer surface wall of the rotating shaft is fixedly connected with a shifting mechanism used for moving a circuit board through a support rod, a sliding block is slidably connected inside a sliding groove, and a first electric telescopic rod is jointly and fixedly connected between the lower end face of the sliding block and the upper end face of a rod frame; can fix the circuit board centre gripping automatically through the clamp splice, and can also automatically regulated electronic component's position, the stitch of being convenient for inserts in the pinhole, makes things convenient for the welding to and can pull down and collect the electronic components after the welding is accomplished automatically, save artifical manually operation's step, save time, improve welding efficiency.

However, the existing patent is only suitable for welding operation of a single workpiece when in use, cannot be well applied when large-scale production is needed, is not suitable for continuous processing, and has certain limitation.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a continuous welding device for components based on photovoltaic module production.

In order to achieve the purpose, the invention provides the following technical scheme: a component continuous welding device based on photovoltaic module production comprises a fixed table body, wherein a welding box body is fixedly installed at the upper end of the fixed table body, a conveyor is installed on the inner wall of the bottom end of the welding box body, a plurality of placing boxes which are distributed equidistantly are placed at the upper end of the conveyor, a discharging mechanism and a feeding mechanism are respectively arranged on two sides of the welding box body, an installing mechanism for feeding is arranged inside the welding box body, the installing mechanism extends to the outside of the welding box body, sliding grooves for the horizontal sliding of the installing mechanism are formed in the outer surfaces of two ends of the welding box body, a translation air cylinder for driving the horizontal sliding of the installing mechanism is arranged on the outer surface of the welding box body, a discharging mechanism is arranged at the upper end of the welding box body, a welding mechanism is symmetrically arranged at the upper end of the welding box body and is located on one side of the discharging mechanism, and the lower ends of the discharging mechanism and the welding mechanism extend into the welding box body.

As a further scheme of the invention: each other is the mirror image setting with feed mechanism, unloading mechanism contains and welds box articulated swash plate, the winding rod is installed in the inside rotation of welding box, be provided with on the surface of welding box and be used for driving winding rod pivoted coiling motor, the stay cord is installed to the symmetry between swash plate and the winding rod, be provided with the through-hole that is used for supplying the stay cord to pass on the welding box.

As a further scheme of the invention: the inside of placing the box is provided with a plurality of and is the baffle that the equidistance was arranged.

As a further scheme of the invention: installation mechanism contains two slides that are located two spouts inside respectively, two be provided with mounting panel one, mounting panel three and two mounting panels two between the slide, two adjacent settings of mounting panel two are fixed with the joint, and two mounting panels two all are located mounting panel one and mounting panel three between, mounting panel one and mounting panel three all with the slide joint, and carry out the bolt fastening behind the joint, mounting panel one, mounting panel three respectively with mounting panel two joints.

As a further scheme of the invention: the upper ends of the first mounting plate, the third mounting plate and the second mounting plate are provided with a plurality of mounting grooves which are arranged in a rectangular array.

As a further scheme of the invention: the upper ends of the first mounting plate, the third mounting plate and the second mounting plate are provided with a plurality of mounting grooves which are arranged equidistantly.

As a further scheme of the invention: drop feed mechanism contains the blowing box that is located welding box upper end, the inside of blowing box is provided with the blowing board, a plurality of groups's adsorption component has been arranged to the lower extreme equidistance of blowing board, and every group adsorption component comprises the adsorption plate of a plurality of and the corresponding setting of mounting groove, logical groove one that supplies the blowing board to pass is seted up to the upper end of welding box, the upper end of blowing box is provided with and is used for driving the blowing board and carry out the lift cylinder that vertical lift.

As a further scheme of the invention: welding mechanism contains the protection box that is located the welding box upper end, equal slidable mounting has the lifter plate on the both ends inner wall of welding box, two the upper end fixed mounting of lifter plate has the connecting plate, the lower extreme of connecting plate is provided with a plurality of welding assembly, and every welding assembly of group comprises a plurality of soldered connection, the protection box embeds there is the welding cylinder that is used for driving connecting plate and lifter plate together to go up and down.

Compared with the prior art, the invention has the following beneficial effects:

1. according to the photovoltaic substrate continuous welding device, the feeding mechanism, the conveyor and the blanking mechanism are matched for use, so that continuous feeding, conveying and blanking operations can be conveniently carried out on a photovoltaic substrate, continuous welding operations can also be carried out by matching with the welding mechanism, continuous production is facilitated, and economic benefits are improved.

2. At the beginning, installation mechanism is located drop feed mechanism under, drop feed mechanism is after the absorption is accomplished, promote the adsorption plate, break away from installation mechanism, change the horizontal position of installation mechanism through the translation cylinder, remove installation mechanism to drop feed mechanism's below one side, restart lift cylinder with the adsorption plate whereabouts, until the welding site department that the components and parts paster falls to on the photovoltaic substrate, accomplish a paster operation, then reset drop feed mechanism and installation mechanism again, prepare for next paster operation, and in the time of next time material loading, drop feed mechanism can accomplish the absorption operation fast, only need wait for the welding site department that the photovoltaic substrate just can put the components and parts paster on the photovoltaic substrate fast through its below, greatly reduced latency, holistic machining efficiency has been improved.

3. According to the invention, the welding mechanisms are symmetrically arranged at the upper end of the welding box body, the two welding mechanisms are respectively used for pre-welding and reinforcing the component patches, the pre-welding aims at preventing the component patches from falling off in the conveying process of the conveyor, the welding and reinforcing aims at reinforcing the welding effect, the whole welding operation is completed, the integral welding time is shortened, the integral welding efficiency is improved, the continuous large-scale production is facilitated, and the economic benefit is increased.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view showing the connection between the storage case and the partition plate according to the present invention;

FIG. 3 is a schematic structural view of the mounting mechanism of the present invention;

FIG. 4 is a schematic structural diagram of a second mounting plate according to the present invention;

FIG. 5 is a side sectional view of the welding enclosure, drop feed mechanism and mounting mechanism of the present invention;

FIG. 6 is a side sectional view of the welding carriage, welding mechanism, conveyor and deposit box of the present invention.

In the figure: 1. fixing the table body; 2. welding the box body; 3. a blanking mechanism; 4. a feeding mechanism; 5. an installation mechanism; 6. a translation cylinder; 7. a discharging mechanism; 8. a welding mechanism; 9. a conveyor; 10. placing the box; 11. a partition plate; 31. a sloping plate; 32. a winding motor; 33. pulling a rope; 51. a slide plate; 52. a first mounting plate; 53. a second mounting plate; 54. mounting a third plate; 55. mounting grooves; 71. a discharging box body; 72. a material placing plate; 73. a lifting cylinder; 74. an adsorption plate; 81. a protective box body; 82. a lifting plate; 83. a connecting plate; 84. welding a head; 85. and (6) welding the cylinder.

Detailed Description

The technical solutions in the embodiments of the present invention will be 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.

Example 1

Referring to fig. 1-6, a component continuous welding device based on photovoltaic module production is used for welding component patches on a photovoltaic substrate in the photovoltaic module production and performing continuous welding processing to improve processing efficiency, and comprises the following components:

the welding device comprises a fixed table body 1, wherein a welding box body 2 is fixedly arranged at the upper end of the fixed table body 1, and the welding box body 2 is mainly used for preventing welding flux from splashing during welding and causing harm to the body of a user; the inner wall of the bottom end of the welding box body 2 is provided with a conveyor 9, the upper end of the conveyor 9 is provided with a plurality of placing boxes 10 which are arranged equidistantly, the two sides of the welding box body 2 are respectively provided with a blanking mechanism 3 and a feeding mechanism 4, more precisely, the conveying belt of the conveyor 9 is provided with evenly arranged placing grooves, when each placing groove is conveyed by the upper surface of the conveyor 9, the placing boxes 10 are slid into the placing grooves under the influence of self weight by the feeding mechanism 4, the placing grooves are matched with the placing boxes 10, finally, when passing one end of the conveyor 9, the placing boxes 10 can be separated from the placing grooves and slide down by the blanking mechanism 3, the position close to the lower part on one side of the blanking mechanism 3 can be provided with a transfer device for transferring welded products to other processing procedures, the mentioned transfer device is the existing device which is well known by the personnel in the industry and can be purchased in the market, therefore, redundant description is not repeated herein;

the inside of the welding box body 2 is provided with an installation mechanism 5 used for feeding, the installation mechanism 5 extends to the outside of the welding box body 2, the outer surfaces of two ends of the welding box body 2 are respectively provided with a sliding chute used for the installation mechanism 5 to horizontally slide, the outer surface of the welding box body 2 is provided with a translation cylinder 6 used for driving the installation mechanism 5 to horizontally slide, the installation mechanism 5 comprises two sliding plates 51 respectively positioned in the two sliding chutes, a first installation plate 52, a third installation plate 54 and two second installation plates 53 are arranged between the two sliding plates 51, the first installation plate 52, the third installation plate 54 and the two second installation plates 53 are wedge-shaped blocks, the two second installation plates 53 are adjacently arranged and clamped and fixed, the two second installation plates 53 are positioned between the first installation plate 52 and the third installation plate 54, the first installation plate 52 and the third installation plate 54 are clamped with the sliding plates 51, and are fixed by bolts after clamping to prevent slipping, the first mounting plate 52 and the third mounting plate 54 are respectively clamped with the second mounting plate 53, a plurality of mounting grooves 55 are formed in the upper ends of the first mounting plate 52, the third mounting plate 54 and the second mounting plate 53, and the component patches are stacked and placed in the mounting grooves 55; when the installation mechanism 5 is used, the translation cylinder 6 is started to drive one sliding plate 51 to slide in the sliding chute, and further drive the first installation plate 52, the third installation plate 54, the second installation plate 53 and the other sliding plate 51 to slide together, so that the horizontal position of the installation mechanism 5 is changed.

The upper end of the welding box body 2 is provided with a discharging mechanism 7, the discharging mechanism 7 is used for transferring the component patches in the installation mechanism 5 to welding positions on a photovoltaic substrate, the discharging mechanism 7 extends into the welding box body 2, the discharging mechanism 7 comprises a discharging box body 71 positioned at the upper end of the welding box body 2, a discharging plate 72 is arranged inside the discharging box body 71, a plurality of groups of adsorption components are equidistantly distributed at the lower end of the discharging plate 72, each group of adsorption components consists of a plurality of adsorption plates 74 arranged corresponding to the installation grooves 55, the upper end of the welding box body 2 is provided with a first through groove for the discharging plate 72 to pass through, the upper end of the discharging box body 71 is provided with a lifting cylinder 73 for driving the discharging plate 72 to vertically lift, the discharging mechanism 7 further comprises an air channel system communicated with the adsorption plates 74 and used for controlling the adsorption plates 74 to adsorb the component patches, and the air channel system is a setting well known by persons in the field, no more redundant description is carried out here, when in use, the lifting cylinder 73 is started to drive the discharging plate 72 to vertically lift, the adsorption plates 74 are driven to vertically lift together, initially, the mounting mechanism 5 is positioned under the discharging mechanism 7, each group of adsorption components consists of a plurality of adsorption plates 74 arranged corresponding to the mounting grooves 55, the adsorption plates 74 descend to be in contact with the uppermost component patch, the adsorption plates 74 are controlled by the air path system to adsorb the component patches, then the adsorption plates 74 are lifted to be separated from the mounting mechanism 5, the horizontal position of the mounting mechanism 5 is changed by the translation cylinder 6, the mounting mechanism 5 is moved to one side below the discharging mechanism 7, the lifting cylinder 73 is started again to drop the adsorption plates 74, until the component patches fall to the welding position on the photovoltaic substrate, one-time patch mounting operation is completed, and then the discharging mechanism 7 and the mounting mechanism 5 are reset again, ready for the next patch operation.

The upper end of the welding box body 2 is also symmetrically provided with a welding mechanism 8, the welding mechanism 8 is positioned at one side of the feeding mechanism 7, the lower end of the welding mechanism 8 extends into the welding box body 2, the welding mechanism 8 comprises a protective box body 81 positioned at the upper end of the welding box body 2, lifting plates 82 are respectively and slidably mounted on the inner walls at the two ends of the welding box body 2, a connecting plate 83 is fixedly mounted at the upper ends of the two lifting plates 82, a plurality of groups of welding components are arranged at the lower end of the connecting plate 83, each group of welding components consists of a plurality of welding heads 84, a welding cylinder 85 for driving the connecting plate 83 and the lifting plates 82 to lift together is arranged in the protective box body 81, the two welding mechanisms 8 are respectively used for pre-welding and welding reinforcement of the component paster, the pre-welding is used for preventing the component paster from falling off in the conveying process of the conveyor 9, and the welding reinforcement is used for reinforcing the welding effect, the whole welding operation is completed, the whole welding time is shortened in a phase change mode, the whole welding efficiency is improved, continuous large-scale production is facilitated, and economic benefits are increased.

The blanking mechanism 3 and the feeding mechanism 4 are arranged in a mirror image manner, the blanking mechanism 3 comprises an inclined plate 31 hinged with the welding box body 2, a winding rod is rotatably arranged in the welding box body 2, a winding motor 32 for driving the winding rod to rotate is arranged on the outer surface of the welding box body 2, pull ropes 33 are symmetrically arranged between the inclined plate 31 and the winding rod, a through hole for the pull rope 33 to pass through is arranged on the welding box body 2, the winding motor 32 is started to control the winding rod to rotate forwards and backwards, namely, the pull ropes 33 can be controlled to wind and unwind, so as to adjust the inclination angle of the inclined plate 31, the inclined plate 31 in the feeding mechanism 4 inclines upwards, when the placing box 10 passes through the feeding mechanism 4, the placing box slides into the placing groove under the influence of dead weight, the feeding operation is completed, the inclined plate 31 in the blanking mechanism 3 inclines downwards, when the placing box 10 passes through one end of the conveyor 9, the placing box 10 can separate from the placing groove under the influence of dead weight, and the blanking mechanism 3 slides down to finish the blanking operation.

The inside of placing box 10 is provided with a plurality of and is the baffle 11 that the equidistance was arranged, places box 10 and is used for placing the photovoltaic base plate, and the inside partition that box 10 will be placed to baffle 11 becomes a plurality of and places the region, and each is placed regional inside and has all placed the photovoltaic base plate in advance, can once carry out welding operation to a plurality of photovoltaic base plates, further promotion machining efficiency.

Example 2

In the invention, a plurality of mounting grooves 55 are formed in the upper ends of the first mounting plate 52, the third mounting plate 54 and the second mounting plate 53, the first mounting plate 52, the third mounting plate 54 and the second mounting plate 53 are wedge-shaped blocks, and the two adjacent plates can be clamped and fixed, so that the individual plates can be conveniently replaced, and in the actual production, due to the special requirements of workpieces, the structure of the mounting mechanism 5 needs to be adaptively changed according to the welding position points on the photovoltaic substrate, so that in the specific design: the upper ends of the first mounting plate 52, the third mounting plate 54 and the second mounting plate 53 are provided with a plurality of mounting grooves 55 which are arranged in a rectangular array; the upper ends of the second design plate, the first mounting plate 52, the third mounting plate 54 and the second mounting plate 53 are respectively provided with a plurality of mounting grooves 55 which are distributed equidistantly; in practical applications, not only the first and second designs, but also other designs based on production requirements are available, and the mounting mechanism 5 can replace a single plate, thereby facilitating the processing of different batches of products.

Example 3

When the photovoltaic substrate and component patch welding device is used, a placing box 10 with a photovoltaic substrate placed in advance is fed onto a conveyor 9 through a feeding mechanism 4, then component patches in an installing mechanism 5 are transferred to welding positions on the photovoltaic substrate through a discharging mechanism 7, then the component patches are subjected to pre-welding and welding reinforcement through two welding mechanisms 8 in sequence, the photovoltaic substrate and the component patches are welded together, and finally the welded photovoltaic substrate and the welded component patches are subjected to blanking through a blanking mechanism 3.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the invention may occur to those skilled in the art without departing from the principle of the invention, and are considered to be within the scope of the invention.

Claims (4)

1. Component serialization welding set based on photovoltaic module production, its characterized in that includes the fixed station body (1), the upper end fixed mounting of the fixed station body (1) has welding box (2), install conveyer (9) on the bottom inner wall of welding box (2), a plurality of is placed in the upper end of conveyer (9) and is the box (10) of placing of equidistance arrangement, the both sides of welding box (2) are provided with unloading mechanism (3) and feed mechanism (4) respectively, the inside of welding box (2) is provided with installation mechanism (5) that are used for the feed, installation mechanism (5) extend to the outside of welding box (2), and all be provided with on the both ends surface of welding box (2) and supply installation mechanism (5) horizontal slip's spout, be provided with on the surface of welding box (2) and be used for driving installation mechanism (5) horizontal slip's translation cylinder (6), the welding device is characterized in that a material discharging mechanism (7) is arranged at the upper end of the welding box body (2), welding mechanisms (8) are symmetrically arranged at the upper end of the welding box body (2), the welding mechanisms (8) are positioned on one side of the material discharging mechanism (7), and the lower ends of the material discharging mechanism (7) and the welding mechanisms (8) extend into the welding box body (2);

the mounting mechanism (5) comprises two sliding plates (51) which are respectively positioned in two sliding grooves, a first mounting plate (52), a third mounting plate (54) and a second mounting plate (53) are arranged between the two sliding plates (51), the two second mounting plates (53) are adjacently arranged and clamped and fixed, the two second mounting plates (53) are respectively positioned between the first mounting plate (52) and the third mounting plate (54), and the first mounting plate (52) and the third mounting plate (54) are respectively clamped with the second mounting plates (53);

the upper ends of the first mounting plate (52), the third mounting plate (54) and the second mounting plate (53) are respectively provided with a plurality of mounting grooves (55) which are arranged in a rectangular array;

the upper ends of the first mounting plate (52), the third mounting plate (54) and the second mounting plate (53) are provided with a plurality of mounting grooves (55) which are arranged equidistantly.

2. The component continuous welding device based on photovoltaic module production as claimed in claim 1, characterized in that the blanking mechanism (3) and the feeding mechanism (4) are arranged in a mirror image manner, the blanking mechanism (3) comprises an inclined plate (31) hinged to the welding box body (2), the winding rod is rotatably installed inside the welding box body (2), a winding motor (32) used for driving the winding rod to rotate is arranged on the outer surface of the welding box body (2), pull ropes (33) are symmetrically installed between the inclined plate (31) and the winding rod, and through holes for the pull ropes (33) to pass through are formed in the welding box body (2).

3. The device for continuously welding the components based on the photovoltaic module production as claimed in claim 1, wherein the material placing mechanism (7) comprises a material placing box body (71) located at the upper end of the welding box body (2), a material placing plate (72) is arranged inside the material placing box body (71), a plurality of groups of adsorption components are arranged at the lower end of the material placing plate (72) at equal intervals, a first through groove for the material placing plate (72) to pass through is formed in the upper end of the welding box body (2), and a lifting cylinder (73) for driving the material placing plate (72) to vertically lift is arranged at the upper end of the material placing box body (71).

4. The continuous welding device for the components based on photovoltaic module production as claimed in claim 1, wherein the welding mechanism (8) comprises a protective box body (81) located at the upper end of the welding box body (2), lifting plates (82) are slidably mounted on inner walls of two ends of the welding box body (2), a connecting plate (83) is fixedly mounted at the upper ends of the two lifting plates (82), a plurality of groups of welding assemblies are arranged at the lower end of the connecting plate (83), and a welding cylinder (85) used for driving the connecting plate (83) and the lifting plates (82) to lift together is arranged in the protective box body (81).

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