CN112872538B

CN112872538B - Tin supplementing device and tin supplementing method for junction box

Info

Publication number: CN112872538B
Application number: CN202110023296.9A
Authority: CN
Inventors: 晋世森; 赵佳; 张超
Original assignee: JA Xingtai Solar Co Ltd
Current assignee: JA Xingtai Solar Co Ltd
Priority date: 2021-01-08
Filing date: 2021-01-08
Publication date: 2023-11-17
Anticipated expiration: 2041-01-08
Also published as: CN112872538A

Abstract

The application relates to a tin supplementing device and a tin supplementing method for a junction box, belongs to the technical field of tin supplementing equipment in photovoltaic production, and solves the problem of lead hole blockage caused by tin flow due to manual tin supplementing in the prior art. The application relates to a junction box tin supplementing device, which comprises a base, an anti-blocking tin die and a tin soldering guiding assembly, wherein the anti-blocking tin die is arranged on the base and is used for preventing a lead hole of the junction box from being blocked in the tin supplementing process; the soldering tin guiding component is arranged on the base and used for fixing the solder roll and adjusting the position of the soldering wire. The application improves the working efficiency of tin supplementing of the junction box and reduces the probability of quality abnormality in the process.

Description

Tin supplementing device and tin supplementing method for junction box

Technical Field

The application relates to the technical field of tin supplementing equipment in photovoltaic production, in particular to a tin supplementing device and a tin supplementing method for a junction box.

Background

With the increasing emphasis of environmental protection in China, in new energy, photovoltaic power generation has the advantages of no pollution and low cost, so that more photovoltaic power stations emerge. In the photovoltaic production process, a junction box device is needed, and the thickness of a tin layer of the junction box is not up to standard due to the fact that the thickness of the tin layer of a welding area is not up to standard, and the tin layer of the junction box needs to be increased by offline tin supplementing operation, so that the tensile force is in a standard range when the junction box is welded with a lead.

However, the existing junction box is not provided with a device in the tin supplementing process, and only the tin coil can be manually held for welding tin supplementing, so that the problem that the lead holes are blocked due to tin flow in the process, meanwhile, the manual handling of the tin coil is inconvenient, and the working efficiency of personnel is low is solved.

Disclosure of Invention

In view of the above analysis, the embodiment of the application aims to provide a tin supplementing device and a tin supplementing method for a junction box, which are used for solving the problem of lead hole blockage caused by tin flow due to the existing artificial tin supplementing.

The application provides a junction box tin supplementing device which comprises a base, an anti-blocking tin die and a tin soldering guiding assembly, wherein the anti-blocking tin die is arranged on the base and is used for preventing a lead hole of the junction box from being blocked in a tin supplementing process; the soldering tin guiding component is installed on the base and used for fixing the solder roll and adjusting the position of the soldering wire.

Further, the anti-blocking tin mold comprises an anti-blocking tin plug, and the anti-blocking tin plug is inserted into the terminal box lead hole.

Further, the base comprises a through mold hole, and the through mold hole is used for placing the anti-blocking tin mold.

Further, the soldering tin direction subassembly includes the support base, the support base includes dull and stereotyped and cylinder sleeve, wherein dull and stereotyped with cylinder sleeve vertical connection, dull and stereotyped with the base passes through bolt fixed connection.

Further, the solder guiding assembly further comprises a vertical support for placing the solder roll.

Further, the soldering tin guiding component further comprises a first cushion block, and the first cushion block is fixedly connected with the top end of the vertical support.

Further, the soldering tin guiding component further comprises a bidirectional adjusting lock, and the bidirectional adjusting lock is mounted on the vertical support.

Further, the solder guiding assembly further comprises a horizontal adjustment lock.

Further, the soldering tin guiding component further comprises a horizontal support, one end of the horizontal support is provided with the two-way adjusting lock, and the other end of the horizontal support is provided with the horizontal adjusting lock.

Further, the base also comprises a first threaded hole, the anti-blocking tin die also comprises a second threaded hole, and the bolt penetrates through the first threaded hole and the second threaded hole to be fixedly connected with the base and the anti-blocking tin die.

Further, the bidirectional regulating lock comprises a first horizontal lock head, a vertical through hole and a first horizontal through hole, wherein the vertical bracket penetrates through the vertical through hole, and the vertical lock head can be rotated to regulate the position of the main body of the bidirectional regulating lock in the vertical bracket; the horizontal bracket passes through the first horizontal through hole, and the first horizontal lock head can be rotated to control the position of the main body of the bidirectional regulating lock in the horizontal bracket.

Further, the horizontal adjusting lock comprises a second horizontal lock head and a second horizontal through hole, the horizontal bracket penetrates through the second horizontal through hole of the horizontal adjusting lock, and the horizontal adjusting lock can move along the horizontal bracket; the position of the main body of the horizontal adjusting lock on the horizontal bracket can be adjusted by rotating the second horizontal lock head.

Further, the soldering tin guiding assembly further comprises a self-locking discharging head and a second cushion block, and the second cushion block is connected with the horizontal adjusting lock through a bolt; the self-locking material outlet head is fixedly connected with the second cushion block through bolts.

Further, the self-locking discharging head comprises a mounting part and a discharging part, wherein the mounting part is fixedly connected with the second cushion block; the discharge part is conical, the inner diameter of the discharge hole is larger than the outer diameter of the tin wire, and the discharge hole is in interference fit with the tin wire.

The application also provides a tin supplementing method of the junction box, which comprises the following steps:

step 1: assembling a tin supplementing device of the junction box;

step 2: placing a tin coil and tin wires;

step 3: melting tin wire to supplement tin.

Compared with the prior art, the application has at least one of the following beneficial effects:

1. according to the tin supplementing device for the junction box, the tin coil is fixed through the support, so that the tin coil is prevented from being held by a hand, the working efficiency is improved, and time and labor are saved;

2. according to the application, the lead hole of the junction box is blocked by using the anti-blocking tin die, so that the problem that the lead hole of the junction box is easy to block due to tin flow in the tin supplementing process is avoided;

3. according to the application, the positions of the tin wires can be adjusted according to the heights and positions of tin supplementing operators through the bidirectional adjusting lock and the horizontal adjusting lock, so that the tin supplementing operation process is facilitated.

In the application, the technical schemes can be mutually combined to realize more preferable combination schemes. Additional features and advantages of the application will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the application. The objectives and other advantages of the application may be realized and attained by the structure particularly pointed out in the written description and drawings.

Drawings

The drawings are only for purposes of illustrating particular embodiments and are not to be construed as limiting the application, like reference numerals being used to refer to like parts throughout the several views.

FIG. 1 is an exploded view of a tin-supplementing device for a junction box;

fig. 2 is an assembly view of the tin-filling device of the junction box.

Reference numerals:

1-a base; 11-a die through hole; 12-a first threaded hole; 2-anti-blocking tin mould; 21-an anti-blocking tin plug; 22-a second threaded hole; 3-a solder guiding assembly; 31-a bracket base; 311-plates; 312-a cylindrical sleeve; 32-vertical supports; 33-a two-way adjustment lock; 331-a first horizontal lock; 332-vertical lock; 333-vertical through holes; 334-first horizontal through holes; 34-horizontal brackets; 35-horizontal adjustment lock; 351-a second horizontal lock; 352-second horizontal through holes; 36-self-locking a discharge head; 361-mounting part; 362-a discharge part; 37-a first pad; 38-a second spacer.

Detailed Description

The following detailed description of preferred embodiments of the application is made in connection with the accompanying drawings, which form a part hereof, and together with the description of the embodiments of the application, are used to explain the principles of the application and are not intended to limit the scope of the application.

Example 1

The application discloses a tin supplementing device for a junction box, which comprises a base 1, an anti-blocking tin die 2 and a tin soldering guiding component 3, wherein the anti-blocking tin die 2 is arranged on the base 1, and the anti-blocking tin die 2 is used for preventing a lead hole of the junction box from being blocked in the tin supplementing process; the soldering tin guiding component 3 is arranged on the base 1 and is used for fixing the solder roll and adjusting the position of the soldering wire.

In the using process of the junction box, as the thickness of the tin layer does not reach the standard, the tin supplementing of the junction box is needed to be carried out offline to increase the thickness of the tin layer, so that the tensile force is in a standard range when the junction box is welded with a lead, specifically, the anti-blocking tin die 2 is arranged in a lead hole of the junction box, the anti-blocking tin die 2 is consistent with the tin block of the junction box in height, and the tin supplementing operation at other positions can be effectively prevented from being blocked in the lead hole of the junction box and not influenced; the soldering tin guiding component 3 can adjust the position of the soldering wire according to the height and the position distance of a tin supplementing operator, so that the operator can conveniently pull the soldering wire in the tin supplementing process.

It should be noted that the base 1 includes a mold through hole 11, and the mold through hole 11 is a through hole between the upper surface and the lower surface of the base 1, and is used for placing the anti-blocking tin mold 2.

Specifically, the size of the through-mold hole 11 is adapted to the size of the anti-clogging tin mold 2.

The anti-blocking tin mold 2 comprises an anti-blocking tin plug 21, wherein the anti-blocking tin plug 21 is inserted into a lead hole of the junction box to prevent the lead hole of the junction box from being blocked; the size of the anti-blocking tin plug 21 is matched with the lead hole of the junction box; the number of the anti-blocking tin plugs 21 is 2 or more, and is not limited in any way here, depending on the number of the terminal block lead holes.

Further, the size of the anti-blocking tin die 2 is configured according to the type of the junction box, so that the use requirements of junction boxes of different types are met.

It should be noted that, the base 1 further includes a first threaded hole 12, the anti-tin-blocking mold 2 further includes a second threaded hole 22, and the bolts penetrate through the first threaded hole 12 and the second threaded hole 22 to fixedly connect the base 1 and the anti-tin-blocking mold 2.

It should be noted that, the solder guiding assembly 3 includes a support base 31, and the support base 31 includes a flat plate 311 and a cylindrical sleeve 312, wherein the flat plate 311 is vertically connected with the cylindrical sleeve 312, and the flat plate 311 is fixedly connected with the base 1 through bolts.

Further, threaded holes can be formed in different positions of the base 1, and fixed positions can be selected according to actual requirements; the base 1 and the flat plate 311 are respectively provided with a positioning component, such as a positioning protrusion and a positioning groove, when the bolts are fixed, the flat plate 311 and the threaded holes on the base 1 can be accurately aligned according to the matching of the positioning protrusion and the positioning groove, and the quick connection is performed.

Further, the cylindrical sleeve 312 comprises an inner diameter hole, and the soldering tin guiding component 3 further comprises a vertical bracket 32, wherein the vertical bracket 32 penetrates through the inner diameter hole of the cylindrical sleeve 312, and the vertical bracket 32 is fixedly connected with the cylindrical sleeve 312 through bolts; the tin coil is placed on the vertical support 32, and can be fixed, so that the problems of low working efficiency, inconvenient operation and large manual demand caused by manually holding the tin coil in the prior art are solved.

Further, the vertical supports 32 may be provided as multi-stage supports which are screwed and fixed, and when the size of the solder roll is small, the redundant supports may be removed; when the size of the tin coil is large, the multi-section support can be installed, so that the tin coil is suitable for tin coils with different sizes.

Further, the solder guiding assembly 3 further comprises a first cushion block 37, the first cushion block 37 is placed at the top end of the vertical support 32 and fixedly connected with the vertical support 32 through bolts, and the diameter of the first cushion block 37 is larger than that of the vertical support 32 and larger than the inner diameter of the solder roll; the inner diameter of the tin coil passes through the vertical support 32, and the first cushion block 37 prevents the tin coil from being separated from the vertical support 32 in the tin supplementing process, so that the tin coil is prevented from being separated.

It should be noted that, the solder guiding assembly 3 further includes a bidirectional adjusting lock 33, and the bidirectional adjusting lock 33 can adjust the height in the vertical direction to adapt to the height of the solder roll, and can also adjust the position in the horizontal direction, and can rotate 360 ° to adapt to the position of the solder replenishment operator. The bidirectional regulating lock 33 is mounted on the vertical bracket 32, and the bidirectional regulating lock 33 can move along the vertical bracket 32; the bidirectional regulating lock 33 is used for regulating the position according to the height of the tin coil and can be fixed at any position of the vertical support 32.

It should be noted that the solder guiding assembly 3 further includes a horizontal bracket 34, and the horizontal bracket 34 may be a multi-stage bracket to adapt to the height, position, etc. of the operator.

Further, the bidirectional regulating lock 33 includes a first horizontal locking head 331, a vertical locking head 332, a vertical through hole 333, and a first horizontal through hole 334, wherein the vertical bracket 32 passes through the vertical through hole 333, and the vertical locking head 332 is rotatable to regulate the position of the body of the bidirectional regulating lock 33 in the vertical bracket 32, specifically, the shape of the vertical through hole 333 is designed according to the shape of the vertical bracket 32; the horizontal bracket 34 passes through the first horizontal through hole 334, and the first horizontal locking head 331 is rotatable to control the position of the body of the bidirectional regulating lock 33 in the horizontal bracket 34, and specifically, the shape of the first horizontal through hole 334 is designed according to the shape of the horizontal bracket 34.

Further, the first horizontal through hole 334 and the vertical through hole 333 are both circular holes; the horizontal bracket 34 and the vertical bracket 32 are both cylindrical, when the horizontal bracket 34 passes through the first horizontal through hole 334 and rotates the first horizontal lock head 331, the first horizontal through hole 334 is in circular surface contact with the horizontal bracket 34, so that friction can be reduced, and the service lives of the bidirectional adjusting lock 33 and the horizontal bracket 34 can be prolonged; also when the vertical bracket 32 passes through the vertical through hole 333, and the vertical through hole 333 contacts with the vertical bracket 32 in a circular surface when the vertical lock head 332 is rotated, the friction is less, and the service lives of the bidirectional regulating book 33 and the vertical bracket 32 are prolonged.

Further, the bidirectional adjusting lock 33 can adjust the height in the vertical direction, and also can fix and adjust the horizontal bracket 34, and the device has simple structure and convenient operation.

It should be noted that, the solder guiding assembly 3 further includes a horizontal adjustment lock 35, the horizontal adjustment lock 35 includes a second horizontal lock 351 and a second horizontal through hole 352, the horizontal bracket 34 passes through the second horizontal through hole 352 of the horizontal adjustment lock 35, and the horizontal adjustment lock 35 can move along the horizontal bracket 34; the position of the horizontal adjustment lock 35 on the horizontal bracket 34 can be adjusted by rotating the second horizontal lock 351.

Further, the second horizontal through hole 352 is a circular hole, the horizontal bracket 34 is a cylinder, and when the horizontal bracket 34 passes through the second horizontal through hole 352 and rotates the second horizontal lock 351, the second horizontal through hole 352 contacts with the horizontal bracket 34 in a circular surface, so that friction is reduced, and the service lives of the horizontal adjustment book 35 and the horizontal bracket 34 are prolonged.

It should be noted that, the solder guiding assembly 3 further includes a self-locking material outlet head 36 and a second cushion block 38, and the second cushion block 38 is fixedly connected with the horizontal adjusting lock 35 through a bolt; the self-locking material outlet head 36 is fixedly connected with the second cushion block 38 through bolts; when the position of the horizontal adjusting lock 35 is adjusted, the position of the self-locking discharging head 36 can be changed, so that the position can be adjusted according to the height and the position distance of a tin supplementing operator of the junction box, and a user can conveniently pull tin wires in the tin supplementing process.

Further, the second block 38 is sized to match the size of the self-locking stub bar 36.

Further, the self-locking discharging head 36 comprises a mounting part 361 and a discharging part 362, wherein the mounting part 361 is fixedly connected with the second cushion block 38 through bolts; the discharge part 362 is conical, the inner diameter of the discharge hole is larger than the outer diameter of the tin wire, and the discharge hole is in interference fit with the tin wire, so that the tin wire is prevented from being automatically discharged under the condition of no external force, the tin wire is fixed, and meanwhile, an operator can conveniently pull the tin wire.

Illustratively, when the tin coil is placed in the vertical support 32, the tin wire is pulled through the self-locking dispensing head 362 for use.

Example 2

step 1: assembling the junction box tin supplementing device of the embodiment 1;

step 2: placing a tin coil and tin wires;

step 3: melting tin wire to supplement tin.

The method comprises the following steps:

in the step 1, assembling a base 1, an anti-blocking tin die 2 and a soldering tin guiding assembly 3, wherein the anti-blocking tin die 2 is arranged in a die through hole 11 of the base 1, and the anti-blocking tin die 2 is fixedly connected with the base 1 through bolts; the bracket base 31 of the soldering tin guiding component 3 is fixedly connected with the base 1, the bidirectional regulating lock 33 is arranged in the vertical bracket 32 and the horizontal bracket 34, the vertical bracket 32 passes through the vertical through hole 333, and the horizontal bracket 34 passes through the first horizontal through hole 334; a horizontal adjustment lock 35 is mounted in the horizontal bracket 34; the second cushion block 38 is connected with the self-locking material outlet head 36 and the horizontal adjusting lock 35; the first pad 37 is mounted on top of the vertical support 32.

In step 2, the tin coil is sleeved in the vertical bracket 32, and the tin wire is pulled out from the tin coil and passes through the self-locking discharging head 36 for standby.

And 3, a tin supplementing operator of the junction box takes the electric soldering iron to melt the tin wire, and puts the melted tin wire into a position of the junction box, which needs tin supplementation, for tin supplementation operation.

According to the tin supplementing device for the junction box, the tin coil is fixed through the support, so that the tin coil is prevented from being held by a hand, the working efficiency is improved, and time and labor are saved; the lead hole of the junction box is blocked by using the anti-blocking tin die 2, so that the problem that the lead hole of the junction box is easy to block due to tin flow in the tin supplementing process is avoided; the position of the tin wire can be adjusted according to the height and the position of an operator by adjusting and unlocking, so that the tin supplementing operation process is facilitated.

In summary, the application is a mode of combining the welding wire fixing and leading-out structure and the anti-blocking tin structure to assist manual tin supplementing, and the process has the advantages of simple operation, improved working efficiency and reduced personnel number.

The present application is not limited to the above-mentioned embodiments, and any changes or substitutions that can be easily understood by those skilled in the art within the technical scope of the present application are intended to be included in the scope of the present application.

Claims

1. The tin supplementing method for the junction box is characterized by comprising the following steps of:

step 1: assembling a tin supplementing device of the junction box;

step 2: placing a tin coil and tin wires;

step 3: melting tin wires for tin supplementing;

the junction box tin supplementing device comprises a base (1), an anti-blocking tin die (2) and a tin soldering guiding assembly (3), wherein the anti-blocking tin die (2) is arranged on the base (1), the anti-blocking tin die (2) is consistent with the tin layer of the junction box in height, and the anti-blocking tin die (2) is used for preventing a lead hole of the junction box from being blocked in the tin supplementing process; the soldering tin guiding component (3) is arranged on the base (1) and is used for fixing a soldering tin roll and adjusting the position of a soldering wire;

the soldering tin guiding assembly (3) comprises a vertical bracket (32), a bidirectional adjusting lock (33), a horizontal bracket (34) and a horizontal adjusting lock (35); the bidirectional adjusting lock (33) is mounted on the vertical support (32), the bidirectional adjusting lock (33) can move along the vertical support (32), and the bidirectional adjusting lock (33) can adjust the height in the vertical direction and can rotate by 360 degrees; one end of the horizontal bracket (34) is provided with the bidirectional adjusting lock (33), the other end is provided with the horizontal adjusting lock (35), and the horizontal adjusting lock (35) can move along the horizontal bracket (34);

the bidirectional regulating lock (33) comprises a first horizontal lock head (331), a vertical lock head (332), a vertical through hole (333) and a first horizontal through hole (334), the vertical bracket (32) passes through the vertical through hole (333), and the position of the main body of the bidirectional regulating lock (33) in the vertical bracket (32) is regulated by rotating the vertical lock head (332); the horizontal bracket (34) passes through the first horizontal through hole (334), and the main body of the bidirectional regulating lock (33) is controlled to be positioned in the horizontal bracket (34) by rotating the first horizontal lock head (331); the first horizontal through holes (334) and the vertical through holes (333) are circular holes; the horizontal bracket (34) and the vertical bracket (32) are both cylindrical;

the soldering tin guiding assembly (3) further comprises a self-locking discharging head (36), the self-locking discharging head (36) comprises a discharging part (362), the discharging part (362) is conical, the inner diameter of a discharging hole of the discharging part (362) is larger than the outer diameter of the tin wire, and the discharging hole is in interference fit with the tin wire;

the soldering tin guiding assembly (3) comprises a bracket base (31), wherein the bracket base (31) comprises a flat plate (311) and a cylindrical sleeve (312), the flat plate (311) is vertically connected with the cylindrical sleeve (312), and the flat plate (311) is fixedly connected with the base (1); positioning components are respectively arranged on the base (1) and the flat plate (311), and comprise positioning protrusions and positioning grooves which are matched with each other;

the soldering tin guiding assembly (3) further comprises a first cushion block (37), the first cushion block (37) is fixedly connected with the top end of the vertical support (32), and the diameter of the first cushion block (37) is larger than that of the vertical support (32) and larger than the inner diameter of a tin coil;

the horizontal adjusting lock (35) comprises a second horizontal tapered end (351) and a second horizontal through hole (352), the horizontal bracket (34) penetrates through the second horizontal through hole (352) of the horizontal adjusting lock (35), and the horizontal adjusting lock (35) moves along the horizontal bracket (34); the position of the horizontal adjusting lock (35) on the horizontal bracket (34) is adjusted by rotating the second horizontal lock head (351);

the second horizontal through hole (352) is a circular hole, the horizontal bracket (34) is a cylinder, and when the horizontal bracket (34) passes through the second horizontal through hole (352) and rotates the second horizontal lock head (351), the second horizontal through hole (352) and the horizontal bracket (34) are in circular surface contact;

in the step 1, a base (1), an anti-blocking tin die (2) and a soldering tin guiding assembly (3) are assembled, the anti-blocking tin die (2) is arranged in a die through hole (11) of the base (1), and the anti-blocking tin die (2) is fixedly connected with the base (1) through bolts; the support base (31) of the soldering tin guiding assembly (3) is fixedly connected with the base (1), the bidirectional regulating lock (33) is arranged in the vertical support (32) and the horizontal support (34), the vertical support (32) penetrates through the vertical through hole (333), and the horizontal support (34) penetrates through the first horizontal through hole (334); the horizontal adjusting lock (35) is arranged in the horizontal bracket (34); the second cushion block (38) is connected with the self-locking discharging head (36) and the horizontal adjusting lock (35); the first cushion block (37) is arranged at the top end of the vertical bracket (32);

in the step 2, the tin coil is sleeved in a vertical bracket (32), tin wires are pulled out from the tin coil and pass through a self-locking discharging head (36) for standby;

in the step 3, the tin supplementing operator of the junction box takes the electric soldering iron to melt the tin wire, and puts the melted tin wire into the position of the junction box, which needs tin supplementing, to conduct tin supplementing operation.

2. A terminal block tin filling method according to claim 1, characterized in that the anti-blocking tin mould (2) comprises an anti-blocking tin plug (21), the anti-blocking tin plug (21) being inserted into a terminal block lead hole.