TWM435051U - Solar cell string A cutting device cuts the conductive strip - Google Patents

Description

M435051 V. New description: [New technology field] The present invention relates to the technical field of solar cells, in particular to a conductive strip cutting device for a solar battery string, in particular to automatically cutting a solar battery string using a cutter A device for a conductive strip. _[Prior Art] Solar energy itself has no pollution problems and is easy to obtain, never exhausting, so solar energy has become one of the important alternative energy sources. A solar cell that uses solar energy more often is a photoelectric conversion element that converts light energy into electrical energy after being irradiated by sunlight. A solar cell string is an assembly in which a plurality of solar cells are assembled in series on a flat plate with a conductive strip (Ribbon) to provide a large electric energy. In practical applications, several solar cell strings are connected in parallel or in series with a solar junction box to provide greater electrical energy. The solar cell string is cut into strips that extend beyond the solar cell string before being connected to the solar junction box, cut to the appropriate length, and then connected to the solar junction box. However, traditionally, the work of cutting the wire strips is mostly done by manpower, which is a waste of manpower, time and cost, and the accuracy is not high, and the productivity is difficult to increase. Therefore, how to solve the above-mentioned shortcomings is an important issue for those familiar with the technology. [New content] The purpose of this creation is to guide the conductive M435051 on both sides of the solar cell string. The cutting tool has a cutting edge, and a cutting slit is formed between the knife and the top of the holder, and a protruding end is formed at one end of the cutting edge. a guiding portion, the guiding portion is in sliding contact with the one end side of the holder, so that the guiding portion guides the cutting edge to reciprocately move in the cutting slit; the device body has a chamber, and the receiving chamber is provided with a receiving box The accommodating box is located under the cutting knife to receive the scraping of the conductive strip through the cutting knife; the movable body cover is disposed on the other side of the device body to cover the chamber. In another embodiment, the cutting device further comprises a sliding seat, the sliding φ seat is located under the device body, and the device body forms a horizontal reciprocating displacement on the sliding seat; the cutting device further comprises a fourth a driver that drives the carriage to reciprocate back and forth in a horizontal direction. The conductive strip cutting device of the present invention achieves the purpose of automatically cutting the conductive strip through the cooperation of the components. When the solar battery string enters the top of the holder along the lateral path, the pressing member presses the knife The solar cell string at the top of the seat is cut along the longitudinal path by the cutter on one side above the holder to cut the conductive strip on one end side of the solar cell string, so that the solar cell string can be effectively improved not only by Φ Cutting accuracy and processing yield, and reducing labor costs and productivity. However, in order to clearly and fully disclose the present invention, and to illustrate the preferred embodiment, the detailed description of the embodiments will be described as follows: [Embodiment] FIG. 1 is a first perspective view showing a preferred embodiment of the present invention. And the conductive strip cutting device of the solar cell string of the present invention is described with reference to FIG. 1 to FIG. 7b, wherein the solar cell string 2 includes at least one conductive strip 21 and a plurality of solar cells 22 are assembled in series, and the conductive strip 21 extends to the solar energy. The battery M435051 further includes a third driver 5 that can be displaced in the longitudinal path direction, and the third driver 5 drives the cutter 14 to move up and down. The third driver 5 is a pneumatic cylinder, and the cylinder rod of the pneumatic cylinder is connected to the cutting cylinder. Knife 14 (shown in Figure 3). The cutting blade 14 has a cutting edge 141, and a cutting edge 143 is formed between the cutting edge 141 and the top 121 of the holder. One end of the cutting edge 141 forms a protruding guiding portion 144. The guiding portion 144 and the holder 12 - the end side sliding contact, so that the guiding portion 144 guides the cutting edge 141 to reciprocate the cutting edge 143; the hardness of the cutting edge 141 must be greater than the conductive strip 21 to cut the Lu conductive strip 21 (Fig. 4) No). In another embodiment, the cutting device further comprises a sliding seat 7 which is located below the device body 11. The device body 11 forms a horizontal reciprocating displacement on the sliding seat 7 (as shown in FIG. 5). ). The cutting device further includes a fourth actuator 6 that drives the carriage 7 to reciprocate forward and backward in the horizontal direction (as shown in Fig. 5). According to the above component composition, the present invention can be implemented according to the following steps: first, the first driver 3 is attracted to the sun by a plurality of suction cups 31. The battery string 2 enters the top 121 of the holder along the lateral path 122. At the same time, the uncut wire strip 21 enters one side of the holder 12 through the first passage 123 (as shown in FIG. 1, FIG. 2 and FIG. 6a); when the solar cell string 2 is located at the top of the holder At 121 o'clock, the second driver 4 drives the pressing member 13 to move down to press the holder top 121 to position the solar cell string 2 on the holder top 121, thereby preventing the solar cell string 2 from being cut by the cutter. The touch of 14 causes a slight deviation (shown in Figures 1 and 6b); the third driver 5 drives the cutter 14 to move down to cut the wire strip 21 on the side of the holder 7 M435051 12 1 and FIG. 6c); finally, the third driver 5 drives the cutter 14 to move up, and causes the second driver 4 to drive the pressing member 13 up to disengage from the holder top 121, and at the same time A driver 3 adsorbs the solar cell string 2 along the lateral path 122 The top portion 121 of the holder allows the cut wire strip 21 to exit one side of the holder 12 through the second passage 124 (as shown in FIGS. 1 and 6d). Thus, the cutting device can realize automatic Cutting the solar cell string 2 φ one side of the protruding conductive strip 21. In addition, after the cutting device is automatically cut, the movable cover 17 on the other side of the device body 11 can be pulled, from the chamber The receiving box 16 is taken out to clean the conductive strips 21 contained in the receiving box 16. Generally, two sets of cutting devices can be arranged to cut the solar battery string 2 on both sides. The conductive strip 21 can be cut in two ways, wherein: the first type: two sets of cutting devices respectively cut φ the conductive strips 21 protruding from the two sides of the solar cell string 2 by using the above-mentioned action flow (cooperate FIG. 7a); the second type: wherein a set of cutting devices cuts the conductive strips 21 protruding from the side of the solar cell string 2 by the aforementioned action flow, and another set of cutting devices are arranged on the slides 7 Post-displacement to retain (ie, not cut) the conductive strip 21 protruding from the other side of the solar cell string 2 ( The conductive strip cutting device of the present invention achieves the purpose of automatically cutting the conductive strip 21 through the cooperation of the components, when the solar cell string 2 enters the top of the holder along the lateral path 122. The solar cell string 2 of the holder top 121 is pressed by the pressing member 13, and the solar cell string 2 is cut along the longitudinal path 142 by a cutter 14 on the M435051 side of the holder 12 The conductive strip 21 on one end side can not only effectively improve the cutting precision and the processing yield of the solar cell string 2, but also reduce the labor cost and increase the production capacity. The present invention is not intended to limit the present invention; any equivalent modifications or substitutions made without departing from the spirit of the present invention should be included in the scope of the appended claims. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view of a preferred embodiment of the present invention; Fig. 2 is a schematic view of a first actuator for absorbing a solar cell string; Fig. 3 is a side view of Fig. 1; Figure 5 is a schematic view of the additional sliding seat of Figure 1; Figures 6a to 6d are a state of use of Figure 1; Figures 7a to 7b are schematic views of the two sets of cutting devices cutting the conductive strips on both sides of the solar cell string. . ® [Description of main cake symbol] Device body 11 Tool holder 12 Seat top 121 Transverse path 122 First channel 123 Second channel 124 Pressing member 13 M435051 Cutter 14 Blade 141 Longitudinal path 142 Cutting slit 143 Guide 144 Housing 15容盒16 Mobile cover 17 ® Solar cell string 2 Conductor strip 21 Solar cell 22 First drive 3 Suction cup 31 Second drive 4 Third drive 5 Lu 4 drive 6 Slide 7

Claims (1)

'申申专利范围: The battery string conductive strip cutting device, wherein 肀L 3 to V~ conductive strips are connected in series, the middle side of the sun: electric strips and extending to the two sides of the solar battery string 3 energy batteries, the: Side, the cutting device comprises a device body; I is in a lateral path of the device body, the lateral path-side device body = phase forming - the first channel through which the pre-cut wire strip passes, the transverse path In addition: the device is provided on the uncut body - the device capable of accommodating the passage of the cut wire strip, and the pressing member is movably disposed on the lateral path of the tool holder (holding and disengaging from the top of the blade holder; a cutting blade is disposed on a side of the knife seat, and the longitudinal path of the wire strip on the end side of the cutting blade is 、, 哉 2 2. The solar cell cutting as described in the scope of the patent application The device further includes a stripper that can be displaced in a lateral path direction, the first driver having a plurality of suction cups for adsorbing the Tai drive along the lateral path into the top of the holder. The target battery string 3. i say solar battery cutting And further comprising a stripper that can be displaced in the direction of the longitudinal path, the second driver driving the press member pressure # and disengaging the tool holder 4 as the conductive strip cutting of the solar cell string according to claim 3 of the patent application scope The device, wherein the second actuator is a pneumatic cylinder, and the two rods of the pneumatic cylinder are fastened to the housing member. 5. The conductive strip of the solar battery string according to claim 1