Patent Application
20240022037
The present disclosure relates to an apparatus for bending and peeling a connector ribbon applied to a solar battery module.
Generally, a solar battery module is made of a form in which a front glass plate, an encapsulation material (e.g., an ethylene vinyl acetate (EVA) resin, etc.), a solar battery cell, an encapsulation material, and a resin-based back sheet are bonded, and power generation occurs at one side of the module. Meanwhile, a glass-to-glass type solar battery module has improved durability and allows both sides of the solar battery module to contribute to power generation. The glass-to-glass type solar battery module is made of a form in which a first glass plate, an encapsulation material, a solar battery cell, an encapsulation material, and a second glass plate are bonded.
A junction box is disposed on one surface of a back sheet of a solar battery module. The junction box is a device for delivering pre-production power from the solar battery module to the outside. The solar battery module may include a plurality of solar battery cells, and the solar battery cells may be electrically connected through connector ribbons. Some of the connector ribbons are connected to the junction box through the back sheet. Ends of such connector ribbons are bent by almost 90% and connected to the junction box. Also, the bent ends of the connector ribbons are connected to the junction box in a state in which a protective film is removed from the bent ends. Conventionally, the protective film of the bent ends of the connector ribbons is manually peeled using a separate tool (e.g., a knife). However, the task of manually peeling the protective film of the ends of the connector ribbons takes a long time, is repetitive, and is very cumbersome. Also, due to an adhesive for adhering the protective film to an alloy layer, it is very difficult to peel the protective film after laminating, and the peeled protective film sticks to the ends of the connector ribbons and interferes with welding the ends of the connector ribbons to the junction box, thus significantly reducing productivity and quality.
The present disclosure is directed to providing an apparatus for bending and peeling a connector ribbon that can automatically bend an end of a connector ribbon and, simultaneously, peel a protective film thereof.
Objectives to be achieved by the present disclosure are not limited to the above-mentioned objective, and other objectives unmentioned herein should be clearly understood by those of ordinary skill in the art from the description below.
One embodiment provides an apparatus for bending and peeling a connector ribbon on which a protective film is laminated, the apparatus including a clamp configured to fix a second area of the connector ribbon excluding a first area thereof, a peeling cutter disposed at one side of the first area, and a driver configured to move the peeling cutter, wherein the peeling cutter moves to come in contact with the first area and, while pushing and bending the first area, peels the protective film of at least a portion of the first area.
The first area may be disposed in a horizontal direction, the driver may move the peeling cutter in an up-down direction, and the peeling cutter may be disposed to be tilted relative to the first area.
The peeling cutter may include a body connected to the driver and a cutter blade configured to extend from the body, the cutter blade may include a first surface and a second surface configured to form an edge of the cutter blade, and the first surface and the second surface may be disposed in a direction inclined relative to the horizontal direction.
The edge of the cutter blade may be disposed to be spaced apart from the body in the horizontal direction.
The peeling cutter may include a plurality of ribs configured to protrude from the first surface.
The apparatus may further include a brush connected to the driver and configured to move in a left-right direction, and by being disposed so that the cutter blade is positioned on a movement path of the brush, the brush may clean the cutter blade.
The brush may be mounted on a first stage of the driver on which the peeling cutter is mounted and may move along with the peeling cutter in a front-rear direction.
The apparatus may further include a suction unit to which a suction tube is connected, and the suction tube may be disposed adjacent to the cutter blade to allow the suction unit to suction the protective film peeled from the first area.
The suction tube may be mounted on the first stage of the driver on which the peeling cutter is mounted and may move along with the suction tube in a front-rear direction.
The apparatus may further include a vision device disposed behind the clamp to obtain an image of a peeled area of the first area from which the protective film is removed.
The clamp may be connected to the driver and move vertically, the apparatus may further include a groove configured to accommodate the connector ribbon and a base connected to the groove and including a seating portion on which the clamp is seated, and the clamp may fix the connector ribbon in a state in which the clamp is seated on the seating portion.
The clamp may be mounted on the first stage of the driver on which the peeling cutter is mounted and may move along with the peeling cutter in a front-rear direction.
The apparatus may further include a base on which the connector ribbon is placed, a first unit and a second unit each including the clamp, the peeling cutter, and the driver may be provided, the first area may include a first-first area disposed on one side of the base and a first-second area disposed on the other side of the base, the first unit may be disposed at the one side of the base to push and bend the first-first area and, simultaneously, peel a protective film of at least a portion of the first-first area, and the second unit may be disposed at the other side of the base to push and bend the first-second area and, simultaneously, peel a protective film of at least a portion of the first-second area.
According to an embodiment, by automatically bending an end of a connector ribbon that is connected to a junction box and, simultaneously, peeling a protective film, there are advantages that the quality is secured and productivity is enhanced.
According to an embodiment, there is an advantage that the number of workers can be significantly reduced.
According to an embodiment, there is an advantage that a protective film of a bent end of a connector ribbon can be uniformly peeled.
Objectives, specific advantages, and novel features of the present disclosure will become more apparent from the following detailed description and exemplary embodiments associated with the accompanying drawings. Also, terms or words used in the specification and the claims should not be interpreted as being limited to their general or dictionary meanings and should be interpreted to have meanings and concepts consistent with the technical spirit of the present disclosure, based on the principle that the inventor may appropriately define the concepts of terms in order to describe his or her invention in the best possible way. Also, in describing the present disclosure, detailed description of known related art that may unnecessarily obscure the gist of the present disclosure will be omitted.
Also, in describing elements of embodiments of the present disclosure, terms such as first, second, A, B, (a), and (b) may be used. Such terms are only for distinguishing one element from another element, and the essence, sequence, order, or the like of the corresponding element is not limited by the terms.
Hereinafter, in describing an apparatus for bending and peeling a connector ribbon according to an embodiment, in a case in which one element is described as being formed or disposed “on or under” another element, the “on or under” includes not only a case in which the two elements come in direct contact with each other but also a case in which one or more other elements are formed or disposed between the two elements. Also, the “on or under” may indicate a downward direction as well as an upward direction relative to one element.
Also, terms such as first and second may be used, but such terms are only for distinguishing one element from another element, and the essence, sequence, order, or the like of the corresponding element is not limited by the terms.
Referring to
The connector ribbon 10 placed on the base 100 has a protective film F (e.g., a polyimide film) disposed on a surface of a conductor C. The protective film F may be disposed on only one surface of the conductor C or disposed on both surfaces of the conductor C.
Hereinafter, in the drawings, the x-axis indicates a front-rear direction of the apparatus for bending and peeling a connector ribbon, the y-axis indicates a left-right direction of the apparatus for bending and peeling a connector ribbon, and the z-axis indicates an up-down direction of the apparatus for bending and peeling a connector ribbon.
The base 100 is horizontally disposed, and in the front-rear direction, the first unit A may be disposed at one side of the base 100, and the second unit B may be disposed at the other side of the base 100. Each of the first unit A and the second unit B is a device that includes a clamp 200, a peeling cutter 300, and a driver 400 to bend both ends of the connector ribbon 10 and peel the protective film F. Due to the first unit A and the second unit B, both ends of the connector ribbon 10 may be bent and, simultaneously, the protective film F may be peeled.
Hereinafter, a partial area of the connector ribbon 10 that protrudes from the base 100 without being fixed to the clamp 200 and the base 100 will be referred to as a first area 11, and a partial area of the connector ribbon 10 that is fixed by the clamp 200 and the base 100 will be referred to as a second area 12. The first area 11 may be horizontally disposed.
As illustrated in
The clamp 200 serves to move vertically to fix the connector ribbon 10 to the base 100. The clamp 200 may enter the seating portion 120 of the base 100 and press and fix the second area 12 of the connector ribbon 10.
Referring to
In the left-right direction (indicated by the y-axis), a brush 500 may be disposed on the right side in the drawings. The brush 500 moves in the left-right direction (indicated by the y-axis) and serves to, after the protective film F is peeled, clean and remove a residue of the protective film F left on the peeling cutter 300. A cutter blade 320 (see
In the left-right direction (indicated by the y-axis), a suction tube 610 may be disposed on the left side in the drawings. The suction tube 610 is connected to a suction unit 600 and serves to, when the protective film F is being peeled, absorb and remove the peeled protective film F. In a case in which the peeled protective film F sticks to the first area 11 again, the peeled protective film F may interfere with welding to a junction box. When the protective film F is being peeled by the peeling cutter 300, the suction tube 610 immediately absorbs the peeled protective film F, thus fundamentally preventing the peeled protective film F from interfering with welding to the junction box.
The suction unit 600 may operate when the peeling cutter 300 starts to bend the first area 11 and peel the protective film F and may stop operating when the task of bending and peeling the first area 11 is finished.
The driver 400 may include a first stage 410, a second stage 420, a third stage 430, and a fourth stage 440. The first stage 410, the second stage 420, the third stage 430, and the fourth stage 440 may be driven by a motor and a power transmission device configured to transmit a driving force of the motor.
The first stage 410 reciprocates in the front-rear direction. The clamp 200, the peeling cutter 300, the brush 500, and the suction tube 610 may be mounted on the first stage 410. Accordingly, when the first stage 410 moves in the front-rear direction (indicated by the x-axis), the clamp 200, the peeling cutter 300, the brush 500, and the suction tube 610 move together.
The second stage 420 is mounted on the first stage 410 and reciprocates in the up-down direction (indicated by the z-axis). The clamp 200 may be mounted on the second stage 420.
The third stage 430 is mounted on the first stage 410 and reciprocates in the up-down direction (indicated by the z-axis). The peeling cutter 300 may be mounted on the third stage 430.
The fourth stage 440 is mounted on the first stage 410 and reciprocates in the left-right direction (indicated by the y-axis). The brush 500 may be mounted on the fourth stage 440.
Meanwhile, a vision device 700 may be disposed at the first stage 410. The vision device 700 is a device for, after the first area 11 of the connector ribbon 10 is bent and peeled, obtaining image information of the first area 11. The vision device 700 may be disposed behind the peeling cutter 300.
Referring to
The cutter blade 320 may include a first surface S1 and a second surface S2 configured to form an edge E of the cutter blade 320. The first surface S1 and the second surface S2 may be inclined surfaces disposed to be inclined in the horizontal direction. The edge E of the cutter blade 320 may be disposed to be spaced apart from the body 310 in the horizontal direction. In the front-rear direction (indicated by the x-axis), the position of the edge E of the cutter blade 320 may be disposed to be spaced a predetermined distance d apart from a tip of the base 100.
Meanwhile, the first surface S1 may include a first-first surface S1a forming the edge E of the cutter blade 320 and a first-second surface S1b connected to the first-first surface S1a and the body 310. The cutter blade 320 may include a plurality of ribs 330 disposed to protrude from the first-second surface S1b. The ribs 330 serve to increase strength of the cutter blade 320.
The process of bending and peeling the connector ribbon 10 using the peeling cutter 300 is as follows.
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An apparatus for bending and peeling a connector ribbon according to one exemplary embodiment of the present disclosure has been described in detail above with reference to the accompanying drawings.
The above-described embodiment of the present disclosure should be understood as being illustrative, instead of limiting, in all aspects, and the scope of the present disclosure is defined by the claims below rather than by the detailed description given above. Also, the meaning and scope of the claims and all changes or modifications derived from their equivalents should be construed as falling within the scope of the present disclosure.
The present disclosure may be used in the field of manufacturing a solar battery module.
| Number | Date | Country | Kind |
|---|---|---|---|
| 10-2020-0163718 | Nov 2020 | KR | national |
| Filing Document | Filing Date | Country | Kind |
|---|---|---|---|
| PCT/KR2021/016869 | 11/17/2021 | WO |
