CN217280819U - Battery string welding machine - Google Patents

Abstract

The utility model relates to a battery string welding machine, which comprises a glue applying part, a battery piece feeding part, a welding strip feeding part, a conveying part and an irradiation part; the glue applying part is used for applying photosensitive glue dots between preset secondary grid lines of the battery piece so as to form glue dot rows on the surface of the battery piece; the battery piece feeding part is used for conveying the battery pieces with the glue dot rows to the conveying part; the welding strip feeding part is used for providing a welding strip group to the material receiving station of the conveying part; the conveying part conveys the stacked welding strip group and the battery piece to an irradiation part at a welding station; the irradiation part is used for irradiating the glue dot row so as to fix the welding strip group on the battery piece. The glue applying part is arranged to form glue dot rows on the surfaces of the battery pieces, the battery piece feeding part and the solder strip feeding part are used for feeding and stacking the solder strip group and the battery pieces, the conveying part is used for conveying the battery pieces and the solder strip group, and the irradiating part is used for fixing the solder strips on the glue dot rows of the battery pieces, so that the production of the battery string is completed.

Description

Battery string welding machine

Technical Field

The utility model belongs to the technical field of battery production and specifically relates to a battery cluster welding machine.

Background

The traditional production of the battery string is to weld the welding strip and the battery plate together by using soldering flux under the condition of high temperature. The method comprises the following specific steps: the method comprises the steps of firstly coating soldering flux on a battery piece or a solder strip, then overlapping the solder strip and the battery piece, and then heating by using a high-temperature infrared welding device to melt and weld a tin coating on the surface of the solder strip on a main grid line made of silver paste printed on the battery piece.

However, in this way, more silver paste is consumed, the cost of the battery assembly is increased, and meanwhile, the silver paste is covered on the battery piece, so that the light receiving area of the battery piece is reduced. The photoelectric conversion efficiency of the photovoltaic module is affected.

A battery plate without a main grid appears in the market at present, and a welding strip is directly connected with a secondary grid line of the battery plate to conduct current. However, since the subgrid is thin, the solder strip cannot be connected to the battery cell by directly soldering to the subgrid.

In view of the above, it is necessary to develop a series welding machine and a series welding method specially for performing such welding process.

SUMMERY OF THE UTILITY MODEL

In order to achieve the technical object, the utility model provides a battery string welding machine, this battery string welding machine can realize the series welding production of no main grid battery piece. The technical scheme is as follows:

a battery string welding machine comprises a glue application part, a battery piece feeding part, a welding strip feeding part, a conveying part and an irradiation part; the glue applying part is used for applying photosensitive glue dots between preset secondary grid lines of the battery piece so as to form at least one row of glue dot rows vertical to the length direction of the secondary grid lines of the battery piece on the surface of the battery piece; the battery piece feeding part is used for conveying the battery pieces with the glue dot rows to a material receiving station of the conveying part; the welding strip feeding part is used for providing a welding strip group to the material receiving station of the conveying part; the battery piece feeding part and the welding strip feeding part stack the welding strip group and the battery pieces to a material receiving station on the conveying part according to a preset rule, and the welding strips in the welding strip group and the glue point rows on the battery pieces are correspondingly placed one by one; the conveying part conveys the stacked welding strip group and the battery piece to an irradiation part at a welding station; the irradiation part is used for irradiating the glue dot row so as to fix the welding strip group on the battery piece.

The glue applying part is arranged to form glue dot rows on the surfaces of the battery pieces, the battery piece feeding part and the solder strip feeding part are used for feeding and stacking the solder strip group and the battery pieces, the conveying part is used for conveying the battery pieces and the solder strip group, and the irradiating part is used for fixing the solder strips on the glue dot rows of the battery pieces, so that the production of the battery string is completed.

Optionally, the battery string welding machine further comprises a pressing positioning portion, the pressing positioning portion is used for pressing the stacked welding strip group and the battery piece, and the pressing position of the pressing positioning portion and the position of the photosensitive adhesive point are arranged in a staggered mode.

The compression positioning of the stacked welding strips and the stacked battery pieces is realized through the compression positioning part, and the deviation of the welding strips in the conveying process is avoided.

Optionally, the conveying part comprises a conveying bearing part and a conveying driving part; the driving end of the conveying driving part is connected with the conveying bearing part, the conveying driving part is used for driving the conveying bearing part to convey the welding strip group and the battery piece, and the conveying bearing part is made of light-transmitting materials.

The welding strip group and the battery piece are borne by the conveying bearing part, the conveying driving part drives the conveying bearing part to convey, and the irradiation of the glue point row on one side of the battery piece facing the bearing part is realized through the light transmission of the bearing part.

Optionally, the illumination portion comprises at least one of a first illumination subsection and a second illumination subsection; the first irradiation subsection is arranged above the conveying surface of the conveying bearing part at the welding station and is used for irradiating the glue dot row on the front surface of the battery piece; the second irradiation subsection is arranged below the conveying surface of the conveying bearing part at the welding station and is used for irradiating the glue dot row on the back surface of the battery piece.

The irradiation of the glue dot rows above the battery piece is realized through the arrangement of the first irradiation subsections, and the irradiation of the glue dot rows on the back surface of the battery piece is realized through the arrangement of the second irradiation subsections.

Optionally, the conveying bearing part comprises a conveying belt and a conveying bottom plate, and the conveying driving part comprises a first driving device and a supporting roller group; the driving end of the first driving device is connected with the supporting roller set, the first driving device is used for driving the supporting roller set to rotate, the conveying belt is sleeved on the supporting roller set, and the conveying belt rotates along with the supporting roller set; the conveying bottom plate is arranged below the conveying surface of the conveying belt and used for supporting the conveying belt; the conveyer belt is the printing opacity area, and conveying bottom plate is the light-passing board.

The battery piece and the connection of welding set of bands have been realized through setting up of conveyer belt, have realized the support to the conveyer belt transportation process through setting up of conveying bottom plate, have realized the support of conveyer belt through setting up of first drive arrangement and support roller set and have carried, have realized the penetrating through of illumination portion irradiation light for setting up of light-passing board for light-transmitting zone and conveying bottom plate through the conveyer belt.

Optionally, a first through hole is formed in the conveying belt, a negative pressure adsorption hole is formed in the conveying bottom plate, and the negative pressure adsorption hole in the conveying bottom plate adsorbs the battery piece on the conveying belt through the first through hole in the conveying belt.

The arrangement of the first through holes on the conveying belt realizes that the negative pressure adsorption holes on the adsorption bottom plate adsorb and attach the battery pieces to the conveying belt tightly.

Optionally, the conveying bearing part comprises a bearing plate, and the conveying driving part comprises a second driving device; the driving end of the second driving device is connected with the bearing plate, and the second driving device is used for driving the bearing plate to move from the material receiving station to the welding station; the bearing plate is used for bearing the welding strip group and the battery piece; the supporting plate is a light-transmitting plate.

The bearing plate is arranged to realize bearing of the welding strip group and the battery piece, the driving part is arranged to realize movement of the bearing plate, conveying of the welding strip group and the battery piece is further realized, and the bearing part is arranged to realize transmission of the irradiation light of the irradiation part for the light transmission plate.

Optionally, the conveying part further comprises a jacking device, and a second through hole for the jacking device to pass through is formed in the supporting plate; and the jacking device is used for jacking the welding strip group which is conveyed by the supporting plate and is positioned below the battery piece on the back surface of the battery piece.

The welding strip group below the battery piece can be tightly attached to the battery piece when the irradiation part irradiates through the arrangement of the jacking device, and the welding effect is improved.

Optionally, the pressing and positioning portion comprises a mounting frame and pressing pin rows mounted on the mounting frame, the pressing pin rows are arranged corresponding to the welding strip sets, and each pressing pin row is used for pressing one welding strip.

The welding strip is better positioned through the arrangement of the pressing pin row.

The application provides a battery string welding machine has realized forming the glue point row on the surface of battery piece through setting up of gluey portion, has realized the material loading of solder strip group and battery piece and has stacked through battery piece material loading portion and solder strip material loading portion, has realized the transport of battery piece and solder strip group through conveying part, has realized arranging the glue point of taking fixedly to the battery piece through the portion of shining to the production of battery string has been accomplished.

Drawings

Fig. 1 is a top view of a battery string welding machine according to an alternative embodiment of the present invention.

Fig. 2 is a side view of fig. 1.

Fig. 3 is a perspective view of a battery string welding machine according to an alternative embodiment of the present invention.

Fig. 4 is a side sectional view of fig. 3.

Wherein the reference numbers are as follows:

1. a conveying section; 2. welding a band group; 3. compressing the positioning part; 4. a first illumination section; 5. a second illumination subsection; 6. a conveyor belt; 7. a conveying bottom plate; 8. a support plate; 9. a jacking device; 10. a second through hole; 11 pressing needle row.

Detailed Description

In order to make the above objects, features and advantages of the present invention more comprehensible, the present invention is described in detail with reference to the accompanying drawings and the detailed description.

The utility model relates to a battery cluster welding machine for the welding of no main grid battery piece.

As shown in fig. 1, 2 and 3, a first aspect of the present invention provides a battery string welding machine, which includes a glue applying portion, a battery sheet feeding portion, a welding strip feeding portion, a conveying portion 1 and an irradiating portion; the glue applying part is used for applying photosensitive glue dots between preset secondary grid lines of the battery piece so as to form at least one row of glue dot rows vertical to the length direction of the secondary grid lines of the battery piece on the surface of the battery piece; the battery piece feeding part is used for conveying the battery pieces with the glue dot rows to a material receiving station of the conveying part 1; the welding strip feeding part is used for providing a welding strip group 2 to the material receiving station of the conveying part 1; the battery piece feeding part and the welding strip feeding part stack the welding strip group 2 and the battery pieces to a material receiving station on the conveying part 1 according to a preset rule, and the welding strips in the welding strip group 2 and the glue point rows on the battery pieces are placed in a one-to-one correspondence mode; the conveying part 1 conveys the stacked welding strip group 2 and the battery plate to an irradiation part at a welding station; the irradiating section is used to irradiate the row of adhesive dots to fix the solder ribbon group 2 to the battery sheet.

The glue applying part is arranged to form glue dot rows on the surfaces of the battery pieces, the battery piece feeding part and the welding strip feeding part are used for feeding and stacking the welding strip group 2 and the battery pieces, the conveying part 1 is used for conveying the battery pieces and the welding strip group 2, and the irradiating part is used for fixing the welding strips on the glue dot rows of the battery pieces, so that the production of battery strings is completed.

In one implementation mode, the glue applying part can directly spray photosensitive glue dots between the preset negative grid lines of the cell by using a spray head, or apply the photosensitive glue dots by using a spray head glue dispensing mode, and of course, the photosensitive glue dots can also be applied by using a screen printing mode.

When the photosensitive adhesive dots are coated, the photosensitive adhesive dots can be applied between every two adjacent secondary grid lines, or one photosensitive adhesive dot can be applied to two non-spaced secondary grid lines, or the photosensitive adhesive dots can be applied by adjusting the secondary grid lines with more spaces according to the requirement. The photosensitive adhesive dots are arranged in adhesive dot rows along the direction perpendicular to the secondary grid lines of the cell pieces, and a plurality of groups of adhesive dot rows which are parallel to each other can be applied to one cell piece.

The battery piece is including the manipulator, and the sucking disc that is used for adsorbing the battery piece is installed to the drive end of manipulator, and the manipulator realizes the battery piece through driving the sucking disc and adsorbs and place.

The welding strip feeding portion comprises a welding strip feeding moving device and a welding strip chuck, the welding strip chuck is used for clamping a welding strip group 2, the welding strip moving device is used for driving the welding strip chuck to clamp a welding strip and place the welding strip on a battery piece, and the welding strip in the welding strip group 2 is placed in one-to-one correspondence with the glue point rows. In order to prevent the glue spots from fouling the conveying part 1 when the battery piece is placed on the conveying part 1, the thickness of the glue spots is smaller than the diameter of the welding strips in the welding strip group 2.

The conveying part 1 conveys the stacked welding strip group 2 and the battery piece to an irradiation part, and the irradiation part irradiates the glue dot row of the battery piece to cure the glue dots, so that the welding strips and the battery piece are adhered together to form a battery string.

In one implementation manner, if the electrodes of the battery pieces are respectively arranged on two surfaces of the battery piece, when the battery piece and the welding strips are stacked, a first group of welding strips need to be placed first, then the first battery piece is placed on the rear half section of the first welding strip group, so that the back glue point rows of the first battery piece correspond to the welding strips one by one, then the second group of welding strips is placed, so that the front half section of the second group of welding strips is placed on the front side of the first battery piece and corresponds to the glue point rows on the front side of the first battery piece one by one, then the second battery piece is placed on the rear half section of the second group of welding strips, so that the glue point rows on the back side of the second battery piece correspond to the second group of welding strips one by one, and the above-mentioned steps are repeated until the tail battery piece is placed, and then the tail welding strip group is placed on the tail battery piece, so that the front half section of the tail welding strip group is placed corresponding to the glue point rows on the tail battery piece one by one.

If the battery piece is a back contact battery piece, namely the positive and negative electrodes of the welding strip are on the back of the battery piece, the glue dot row formed by glue dots applied between the negative secondary grid lines on the back of the battery piece is a secondary electrode glue dot row, the glue dot row applied between the positive secondary grid lines of the battery piece is a positive electrode glue dot row, when the glue dot row is arranged, the back of the battery piece needs to be arranged on the conveying part 1 upwards, then the welding strip group is placed on the battery piece, one section of the welding strip group is connected with the secondary electrode glue dot row of the battery piece adjacent to the welding strip group, and the other section of the welding strip group is connected with the positive electrode glue dot row of the other battery piece adjacent to the welding strip group. Of course, the solder strips may be arranged on the conveying part 1, and then the back surfaces of the battery pieces are placed on the solder strips downwards, so that one section of the solder strip group is connected with the row of the secondary electrode adhesive dots of the battery piece adjacent to the one section of the solder strip group, and the other section of the solder strip group is connected with the row of the positive electrode adhesive dots of the other battery piece adjacent to the one section of the solder strip group.

Then the conveying part 1 drives the stacked welding strip group 2 and the stacked battery pieces to be conveyed to an irradiation part, the irradiation part is arranged on the side edge of the conveying direction of the conveying part 1, the irradiation part irradiates the battery pieces conveyed by the conveying part 1, so that glue spots on the battery pieces are cured after being irradiated, and the welding strip group 2 and the battery pieces are connected together to form a battery string.

In one implementation, the photosensitive adhesive is an ultraviolet light curing adhesive, and the irradiation light of the irradiation part is ultraviolet light. Through the arrangement of the irradiation part, the battery piece and the welding strip group are connected into a string at low temperature, so that the energy loss is reduced, and meanwhile, the damage to the battery piece caused by high temperature is avoided.

In an implementation mode, in order to realize better fitting of the welding strip with the battery piece and avoid displacement of the welding strip relative to the battery piece in the conveying process, the battery string welding machine further comprises a pressing positioning part 3, wherein the pressing positioning part 3 is used for pressing the stacked welding strip group 2 and the battery piece, and meanwhile, in order to avoid shading of the pressing positioning part 3, the pressing position of the pressing positioning part 3 and the position of the photosensitive adhesive point are arranged in a staggered mode.

In an implementation manner, the pressing and positioning portion 3 is a tool which can be recycled, the pressing and positioning portion 3 is arranged at the first section of the conveying portion 1, the battery piece feeding portion can also comprise a pressing and positioning gripper, and the pressing and positioning gripper is used for simultaneously gripping the battery piece and pressing the positioning portion 3, so that feeding of the pressing and positioning portion 3 is achieved. The pressing and positioning part 3 moves to the irradiation part under the conveying of the conveying part 1 in synchronization with the welding strip group 2 and the battery piece.

The compression positioning of the stacked welding strips and the stacked battery pieces is realized through the compression positioning part, and the deviation of the welding strips in the conveying process is avoided.

In one implementation, the conveying section 1 includes a conveying bearing section and a conveying driving section; the driving end of the conveying driving part is connected with the conveying bearing part, the conveying driving part is used for driving the conveying bearing part to convey the welding strip group 2 and the battery piece, and the conveying bearing part is made of light-transmitting materials.

Specifically, the transparent material of the conveying and carrying part at least can transmit ultraviolet light. The material of carrying the portion can be glass or ya keli material.

The welding strip group 2 and the battery piece are borne by the conveying bearing part, the conveying driving part is used for driving the conveying bearing part to convey, and the irradiation of the glue dot row on one side, facing the bearing part, of the battery piece is realized through the light transmission arrangement of the bearing part.

In one implementation, the illumination section comprises at least one of a first illumination branch 4 and a second illumination branch 5; the first irradiation subsection 4 is arranged above the conveying surface of the conveying bearing part at the welding station, and the first irradiation subsection 4 is used for irradiating the glue dot row on the front surface of the battery piece; the second irradiation branch 5 is arranged below the conveying surface of the conveying bearing part at the welding station, and the second irradiation branch 5 is used for irradiating the glue dot row on the back surface of the cell piece.

When it is desired to irradiate both sides of the cell, the irradiation section comprises a first irradiation branch 4 and a second irradiation branch 5, and when it is desired to irradiate the upper side or the lower side of the cell, the first irradiation branch 4 or the second irradiation branch 5 may be used as desired.

The first and second illumination branches 4, 5 are uv lamps.

The irradiation of the rows of glue spots above the cell is realized by the arrangement of the first irradiation branch 4, and the irradiation of the rows of glue spots on the back of the cell is realized by the arrangement of the second irradiation branch 5.

In one implementation, the conveying bearing part comprises a conveying belt 6 and a conveying bottom plate 7, and the conveying driving part comprises a first driving device and a supporting roller group; the driving end of the first driving device is connected with the supporting roller set, the first driving device is used for driving the supporting roller set to rotate, the conveying belt 6 is sleeved on the supporting roller set, and the conveying belt 6 rotates along with the supporting roller set; the conveying bottom plate 7 is arranged below the conveying surface of the conveying belt 6, and the conveying bottom plate 7 is used for supporting the conveying belt 6; the conveying belt 6 is a light-transmitting belt, and the conveying bottom plate 7 is a light-transmitting plate.

In one implementation, the conveyor belt 6 is a teflon belt that is transparent to ultraviolet light.

The battery piece and the welding strip group 2 are connected through the conveying belt 6, the conveying bottom plate 7 is arranged to support the conveying belt 6 in the conveying process, the conveying belt 6 is supported and conveyed through the first driving device and the supporting roller group, and the conveying belt 6 is a light-transmitting belt and the conveying bottom plate 7 is a light-transmitting plate, so that the irradiation part can irradiate light rays.

In one implementation, the conveyer belt 6 is provided with a first through hole, the conveying bottom plate 7 is provided with a negative pressure adsorption hole, and the negative pressure adsorption hole on the conveying bottom plate 7 absorbs the battery piece on the conveyer belt 6 through the first through hole on the conveyer belt 6.

The negative pressure adsorption hole is adsorbed the battery piece and is pasted tightly on conveyer belt 6 on having realized adsorbing the bottom plate through setting up of first through-hole on the conveyer belt 6.

In one implementation, as shown in fig. 3 and 4, the transport carrier comprises a support plate 8 and the transport drive comprises a second drive; the driving end of the second driving device is connected with the bearing plate 8, and the second driving device is used for driving the bearing plate 8 to move from the material receiving station to the welding station; the supporting plate 8 is used for bearing the welding strip group 2 and the battery piece; the support plate 8 is a light-transmitting plate.

The bearing plate 8 is arranged to realize bearing of the welding strip group 2 and the battery piece, the driving part is arranged to realize movement of the bearing plate, the welding strip group 2 and the battery piece are conveyed, and the bearing part is arranged to realize transmission of irradiation light of the irradiation part for the light-transmitting plate.

In one implementation, as shown in fig. 4, the conveying part 1 further includes a tightening device 9, and the supporting plate 8 is provided with a second through hole 10 through which the tightening device 9 passes; and the jacking device 9 is used for jacking the welding strip group 2 conveyed by the supporting plate 8 and positioned below the battery piece on the back surface of the battery piece.

In an implementation mode, the jacking device 9 is an elastic thimble, the elastic thimble is installed on the lifting device, the lifting device drives the elastic thimble to descend when the work is not needed, when the welding is required to be irradiated, the lifting device drives the elastic thimble to ascend, and the thimble elastically compresses the welding strip on the back of the battery piece, so that the tight adhesion of the welding strip and the battery piece is ensured when the welding is irradiated, and the welding quality of the battery string is improved.

The welding strip group 2 below the battery piece can be tightly attached to the battery piece when the irradiation part irradiates through the arrangement of the jacking device 9, and the welding effect is improved.

In one implementation, the pressing and positioning portion 3 includes a mounting frame and a pressing pin row 11 mounted on the mounting frame, the pressing pin row 11 is disposed corresponding to the welding strip group 2, and each pressing pin row 11 is used for pressing one welding strip.

At least two elastic press pins are contained in each press pin row 11.

The arrangement of the presser foot bar 11 achieves better positioning of the solder strip.

A welding method for welding a battery string by using the battery string welding machine comprises the following steps:

applying photosensitive glue between preset secondary grid lines of the battery piece to form at least one glue point row vertical to the length direction of the secondary grid lines of the battery piece on the surface of the battery piece; providing a welding strip group 2, wherein the number of welding strips in the welding strip group 2 is the same as the number of glue dot rows; stacking the welding strip group 2 and the battery piece according to a preset rule, so that the welding strips in the stacked welding strip group 2 correspond to the glue point rows on the battery piece one by one; and illuminating the stacked battery plates and the welding strip group 2 to enable the welding strip group 2 and the glue point rows on the battery plates to be adhered together to form a battery string.

In one implementation, the photosensitive adhesive used in the method is an ultraviolet light curing adhesive, and the illumination is ultraviolet light. The battery piece and the welding strip group are welded and adhered into a battery string at low temperature through the ultraviolet light telephone fixing glue and the ultraviolet light, so that the energy loss is reduced, and the damage of the battery piece caused by the temperature during high-temperature welding can be effectively avoided. The quality of the produced battery string is effectively improved.

Through making battery piece rubberizing point arrange with weld and take 2 staps, then carry out illumination to weld taking 2 and battery pieces to the welding that stack together and taken 2 and realize welding and take 2 and battery piece welding position together, and then accomplished the production of battery cluster.

In one implementation, the stacking of the solder strip groups 2 and the battery plates according to a predetermined rule includes:

and stacking the ith battery piece on the back half section of the ith welding strip group 2, and stacking the front half section of the (i + 1) th welding strip group 2 on the ith battery piece, wherein i is any natural number greater than 0.

In order to ensure the pressing effect, pressing positioning parts can be placed above the stacked welding strip group and the stacked battery piece so as to press the welding strip group and the battery piece together. The pressing positioning part comprises a frame and a pressing pin row arranged on the frame, and the pressing pin row and the welding strips in the welding strip group are arranged in a one-to-one corresponding mode.

In one implementation, the stacking of the solder strip groups 2 and the battery plates according to a predetermined rule includes: the battery piece is a back contact battery piece, and because the battery piece is a back contact battery piece, the positive electrode and the negative electrode of the battery piece are integrated on the back surface of the battery piece, so that when the photosensitive glue is applied, only the positive electrode glue dot row is applied between the negative grid lines corresponding to the positive electrode on the back surface of the battery piece, and the negative electrode glue dot row is applied between the auxiliary grid lines corresponding to the negative electrode on the back surface of the battery piece.

When the welding band group and the back contact battery piece are stacked, the welding band group can be placed firstly, then the battery piece is placed, and finally the pressing positioning part is placed above the battery piece to press and position the welding band group and the battery piece together; or the battery piece is placed first and then the welding strip group is placed, and then the pressing positioning part is placed to press the welding strip group and the battery piece together.

The pressing positioning part comprises a frame and a pressing pin row arranged on the frame, and the pressing pin row and the welding strips in the welding strip group are arranged in a one-to-one corresponding mode.

The process of stacking the back contact battery plate and the welding strip group comprises the following steps: connecting the front half section of the group I welding strip with a positive electrode glue point row on the back surface of the I-1 th cell piece, connecting the rear half section of the group I welding strip with a negative electrode glue point row on the back surface of the I-1 th cell piece, connecting the front half section of the group I +1 welding strip with the positive electrode glue point row on the back surface of the I-1 th cell piece, connecting the rear half section of the group I +1 welding strip with the negative electrode glue point row on the back surface of the I +1 th cell piece, wherein I is any odd number greater than 0; or, the first half section of the group I welding strip is connected with the negative electrode glue point row on the back surface of the I-1 th cell piece, the second half section of the group I welding strip is connected with the positive electrode glue point row on the back surface of the I-1 th cell piece, the first half section of the group I +1 welding strip is connected with the negative electrode glue point row on the back surface of the I-1 th cell piece, the second half section of the group I +1 welding strip is connected with the positive electrode glue point row on the back surface of the I +1 th cell piece, and I is any odd number larger than 0.

The application provides a battery string welding machine has realized forming glue point row on the surface of battery piece through setting up of gluey portion, has realized the material loading of solder strip group 2 and battery piece and has stacked through battery piece material loading portion and solder strip material loading portion, has realized the transport of battery piece and solder strip group 2 through conveying part 1, has realized arranging the glue point of taking fixedly to the battery piece through the portion of shining to the production of battery string has been accomplished. On the other hand, according to the battery string welding method provided by the application, the photosensitive adhesive is applied to the surface of the battery piece, then the welding strip is overlapped, and string welding production of the battery piece is achieved in an illumination mode.

The invention has been described above with a certain degree of particularity and detail. It will be understood by those of ordinary skill in the art that the description of the embodiments is merely exemplary and that all changes that may be made without departing from the true spirit and scope of the present invention are intended to be within the scope of the present invention. The scope of the invention is defined by the appended claims rather than by the foregoing description of the embodiments.

Claims (9)

1. A battery string welding machine is characterized by comprising a glue application part, a battery piece feeding part, a welding strip feeding part, a conveying part and an irradiation part;

the glue applying part is used for applying photosensitive glue dots between preset secondary grid lines of the battery piece so as to form at least one row of glue dot rows vertical to the length direction of the secondary grid lines of the battery piece on the surface of the battery piece;

the battery piece feeding part is used for conveying the battery pieces with the glue dot rows to a material receiving station of the conveying part;

the welding strip feeding part is used for providing a welding strip group to the material receiving station of the conveying part;

the battery piece feeding part and the welding strip feeding part stack the welding strip group and the battery piece to the material receiving station on the conveying part according to a preset rule, and the welding strips in the welding strip group and the glue point rows on the battery piece are correspondingly placed one by one;

the conveying part conveys the stacked welding strip group and the battery plate to the irradiation part at the welding station;

the irradiation part is used for irradiating the glue dot row so as to fix the solder strip group on the battery piece.

2. The battery string welding machine of claim 1, further comprising a compression positioning portion,

the pressing and positioning part is used for pressing the stacked welding strip group and the battery piece,

and the pressing position of the pressing and positioning part and the position of the photosensitive adhesive point are arranged in a staggered manner.

3. The battery string welding machine of claim 1, wherein the conveying portion includes a conveying bearing portion and a conveying driving portion;

the driving end of the conveying driving part is connected with the conveying bearing part, the conveying driving part is used for driving the conveying bearing part to convey the welding strip group and the battery piece,

the conveying bearing part is made of light-transmitting materials.

4. The battery string welding machine of claim 3, wherein the irradiation portion comprises at least one of a first irradiation subsection and a second irradiation subsection;

the first irradiation subsection is arranged above the conveying surface of the conveying bearing part at the welding station and is used for irradiating the glue dot row on the front surface of the battery piece;

the second irradiation branch is arranged below the conveying surface of the conveying bearing part at the welding station and is used for irradiating the glue dot rows on the back surface of the battery piece.

5. The battery string welding machine according to claim 3, wherein the transport carrier includes a transport belt and a transport base plate, and the transport drive includes a first drive device and a set of support rollers;

the driving end of the first driving device is connected with the supporting roller set, the first driving device is used for driving the supporting roller set to rotate,

the conveying belt is sleeved on the supporting roller group and rotates along with the supporting roller group;

the conveying bottom plate is arranged below the conveying surface of the conveying belt and is used for supporting the conveying belt;

the conveyer belt is the printing opacity area, the conveying bottom plate is the light-passing board.

6. The battery string welding machine of claim 5,

the battery plate conveying device is characterized in that a first through hole is formed in the conveying belt, a negative pressure adsorption hole is formed in the conveying bottom plate, the negative pressure adsorption hole in the conveying bottom plate penetrates through the first through hole in the conveying belt, and the battery plate is adsorbed on the conveying belt.

7. The battery string welding machine of claim 3, wherein the transport carrier comprises a support plate, and the transport drive comprises a second drive;

the driving end of the second driving device is connected with the bearing plate, and the second driving device is used for driving the bearing plate to move from the material receiving station to the welding station;

the supporting plate is used for bearing the welding strip group and the battery piece;

the supporting plate is a light-transmitting plate.

8. The battery string welding machine according to claim 7, wherein the conveying part further comprises a tightening device, and a second through hole for the tightening device to pass through is formed in the supporting plate;

the jacking device is used for jacking the welding strip group which is conveyed by the supporting plate and is positioned below the battery piece at the back of the battery piece.

9. The battery string welding machine according to claim 2, wherein the press positioning portion includes a mounting frame and a press pin row mounted on the mounting frame,

the pressing pin rows are arranged corresponding to the welding strip groups, and each pressing pin row is used for pressing one welding strip.

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