TWM430353U - Cutting device for hard plate soft redundant margin (I) - Google Patents

Description

M430353 V. New description: [New technical field] This creation involves the technical field of cutting a hard plate, especially the cutting device (1) for a soft edge of a hard plate, especially the application The knife automatically cuts the soft edge of the hard plate. [Prior Art] The present invention relates to a hard plate member having a soft edge, which is a plate member surrounded by a plurality of end edges, and the plate member is covered or composited with a soft material. Extending to the periphery of the end edge forms a soft rim. The hard material means that the hardness of the plate member is significantly harder than that of the soft material or the soft side, but it does not mean that the hardness of the plate member is similar to that of a rigid body. The above-mentioned hard plate member with soft edged edge can be seen in the solar panel of the sealing machine at the current stage, and at least the double end faces are respectively combined with a layer of vinyl oxime copolymer (Ethy|ene A as , EVA) as a soft material for protection: and a back sheet for layer protection. In the complex σ $ ^ to ensure that the above soft material can be fully adhered to the entire solar panel separately: the surface will generally make the bonding area of the soft material beyond the solar energy = = the surface of the end surface, resulting in the solar panel At least one end of the second surface is formed to form a soft side, and the at least one end side means that the soft head is formed on the periphery of the plurality of end sides of one or four sides of the solar panel. However, due to the above-mentioned solar panels (or hard boards) that have been compounded with soft materials, the β-factory side outer garden has been covered with a soft edge. In the current stage of technology, the large-scale 裁 is cut by j work. This soft side is wasteful of manpower and accuracy, and it cannot be integrated into In Line, which makes the productivity 3 M430353 greatly reduced. Therefore, how to solve the above-mentioned shortcomings is an important issue for those who are familiar with the art. [New content] The purpose of this creation is to solve the problem that the soft panel has a soft edge and cuts the soft edge by manual operation, which leads to the problem that the productivity cannot be improved, and thus provides a soft edge of the hard plate. Cutting device (1). This device can reduce labor costs and increase production capacity. The device is not limited by whether the hard plate member is a solar panel. If the end edge of the hard plate member has been covered with a soft material to form a soft edged object, the device technology of the present invention can be applied to automatically cut the device. Cut the soft edge of the hard plate. The technical means of the creation comprises: a cutting knife positioned on an arm member; a sliding seat, sliding group on a linear sliding rail in a second direction, the arm member is disposed on the sliding seat; a hard plate member At least one end has a soft side; a first driver is disposed on a machine table, and the hard plate member is driven to be relatively close to the cutter in a first direction, so that the cutter contacts and implants the soft edge Stopping and stopping the end of the hard plate member; and a second driver disposed on the linear slide rail driving the cutter on the slide along the hard plate member in the second direction The edge is displaced to remove the soft edge. In a further implementation, the device further includes: a third driver, the arm member is disposed on the 4 M430353 sliding seat via the third driver, the third driver driving the cutter on the arm member to rotate a specific rotation angle; And a fourth driver, driving the hard plate member to rotate a change angle. The first direction is perpendicular to an end edge of the hard plate member, and the first direction and the second direction are perpendicular to each other. The arm member is pivotally disposed on the sliding seat via a magazine, the arm member provides the cutting blade to be contacted at an oblique angle and implanted in the soft bead edge, the bevel angle is located in the first direction and the Between the end edges of the hard plate. The arm member is an oblique swing arm which is formed by the oblique swing arm Φ or the cutting edge angle of the cutter. The particular corner includes providing the cutter with an oblique contact and implantation into the soft rim. 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] In view of the implementation of the present invention, please refer to FIG. 1 to FIG. 1 is a schematic view of a hard plate, FIG. 2 is a schematic view of a cutter and a hard plate, FIG. 3a to FIG. 3i respectively disclose an action diagram of the creation, and FIG. 4 is a schematic diagram of the cutter. As shown in FIG. 1 and FIG. 2, the creation must have a cutter 1 and a rigid plate member 2 having a blade 10 at one end; the double end faces of the rigid plate member 2 are respectively covered with a soft material 21a. 21b, the soft materials 21a, 21b form a soft bead edge 21 on at least one end 20 of the hard plate member 2, and the end edge 20 is wrapped and stored in the soft crotch edge 21. The blade 10 of the cutter 1 must have a hardness greater than the soft edge 21, so that the blade 10 can be used to cut the soft edge 21; the blade 10 has a hardness of preferably less than the rigid plate 2, so that the blade 10 When the soft side 21 is cut, the end edge 2 of the hard plate 5 M430353 2 is not damaged. The δ hai cutter 1 can be made of a metal alloy, a non-ferrous alloy or a non-metal. The hard plate member 2 may be a solar panel, which is generally made of glass 'but does not exclude the use of a material other than glass to make the hard plate member 2. When the hard plate member 2 is a solar panel, the double end faces thereof are at least combined with the EVA soft materials 21a and 21ba for protection and the back sheet soft materials 21a and 21b. In the case of recombination, in order to ensure that the above-mentioned soft materials 21a, 2bb can be sufficiently adhered to the double end faces of the entire hard plate member 2, it is generally

The bonding area of the soft materials 21a, 21b exceeds the area of the double end faces of the hard plate member 2, so that at least one end edge 2 of the hard plate member 2 is covered to form the soft bead edge 21, the at least one end The side edge 2 means that the soft side edge 21 also includes a plurality of end edges 2 that are distributed over one or four sides of the hard plate member 2. Among them, EVA refers to ethylene vinyl acetate copolymer, and the back sheet is the back sheet. Based on the above, the creation can be implemented by the following steps 1 to 2 (as shown in Figures 3a to 3i):

Step 1: driving the cutter 1 to be relatively close to the hard plate member 2 in a direction perpendicular to the end edge 20 of the hard plate member 2; or driving the hard plate member to be perpendicular to the hard plate member 2 End edge 2. The -first direction is relatively close to the cutter 1 (as shown in Figure 3a). And. Straight to the first direction relatively close to the hard plate 20 1 so that the knife 1Q of the 4-knife 1 is damaged when the end edge 20 of the hard plate member 2 is touched, so in the more specific silver # μ θ ffr. On the yoke yoke, the cymbal drives the cutter 1 to rotate a specific corner Θ 2' so that the cutter 1 is relatively close to the rigid plate member 2 from the manner of the slanting angle 七1 of the ii, (as shown in Fig. 3b) . 6 M430353 The cutter 1 contacts the soft crotch edge 21 by the oblique angle θ ,, wherein the oblique angle θ ΐ refers to the angle of the cutter blade 1 with respect to the first direction, and the oblique angle Θ 1 is located in the first direction Between the end edge 20 of the hard plate member 2. In general, the optimum angle of the bevel Θ 1 is 45 degrees. (as shown in Fig. 3c), the cutting edge 10 of the cutting blade 1 then cuts the soft bead 21 so that the cutting blade 1 is implanted in the soft cuff 21 of the hard plate member 2, and the cutting blade 1 continues The end edge 20 of the hard plate member 2 is stopped and stopped (as shown in Fig. 3d). The bevel may be formed by the blade angle of the cutter 1 (as shown in Fig. 4), and the cutter 1 may contact the rigid plate member 2 by means of a load spring. Step 2: driving the cutter 1 to be displaced along the end edge 20 of the hard plate member 2 in a second direction perpendicular to the first direction (as shown in FIG. 3f), and cutting the blade 10 of the cutter 1 and The soft rim 21 of the end edge 20 is stripped (as shown in Figure 3e). This completes the cutting to cut the soft side 21 of the hard plate member 2. Since the end edge 20 still has an uncut soft edge 21, the cutter 1 is required to rotate a specific corner Θ2 so that the blade 10 of the cutter 1 faces the uncut soft edge 21, so that the cutting edge The knife 1 again touches the end edge 20 of the hard plate member 2 and stops (as shown in Fig. 3g). After the cutter 1 touches the end edge 20 of the hard plate member 2, the cutter blade 1 is driven to be displaced along the end edge 20 of the hard plate member 2 in the second direction, so that the blade edge 10 of the cutter blade 1 is cut off and The soft rim 21 of the end edge 20 is stripped (as shown in Figure 3h). Since more than one end edge 20 of the hard plate member 2 has the soft edge 21, it is necessary to drive the rigid plate member 2 to rotate a change edge angle Θ3, so that the other side of the soft edge 21 is adjacent to the cutter 1, and then sequentially Steps 1 through 2 above are used to cut the soft edges 21 of the other side edges 20 (as shown in Figure 3i). In order to facilitate the description of the sensing device of the present invention, please refer to FIG. 5 to FIG. 7 M430353 7, wherein FIG. 5 is a perspective view of the cutting device of the present invention, FIG. 6 is a partial schematic view of FIG. 5, and FIG. 7 is a partial view of FIG. Use the state diagram. The cutting device comprises the above-mentioned hard plate member 2, a cutter 1, a carriage 3, a first driver 41, a second driver 42, a third driver 43, and a fourth driver 44. Wherein: the hard plate member 2 is placed on a machine table 45 such that a side edge 20 of the hard plate member 2 is spaced from the cutting blade 1 (as shown in FIG. 5). The cutter 1 can be positioned on an arm member 11, and the arm member 11 can be pivotally disposed on the carriage 3 via a spring 13, so that the cutter 1 is adjacent to one side of the soft side 21, and the arm member 11 The cutting blade 1 is provided in contact with and implanted in the soft bead 21 by a bevel angle 1 which is located between a first direction and the end edge 20 of the hard plate member 2 (Fig. 6 And Figure 7). The carriage 3 is a slide group on a linear slide 31 in a second direction such that the cutter 1 on the arm member 11 is displaceable in the second direction. The first direction is perpendicular to the end edge 20 of the hard plate member 2, and the second direction is perpendicular to the first direction. The first driver 41 is disposed on the machine table 45 to drive the rigid plate member 2 relatively close to the cutting blade 1 in the first direction, and the cutting blade 1 contacts and is implanted into the soft edge 21, the cutting blade 1牴 Stops the end edge 20 of the hard plate member 2 and stops. The second driver 42 is disposed on the linear slider 31 to drive the cutter 1 on the carriage 3 to be displaced along the end edge 20 of the hard plate member 2 in the second direction to cut the soft edge 21 . In a further implementation, the arm member 12 can be an oblique swing arm, so that the third driver 43 drives the oblique swing arm, thereby driving the cutter 1 to contact and implant the soft body at 8 M430353. Inside the edge of the 21st. The oblique angle 01 is constituted by the oblique swing arm or by the blade angle of the cutter 1 (as shown in FIG. 4). The arm member 11 is disposed on the slide by the third actuator 43. 3, the second driver 43 drives the cutter 上 on the arm member u to rotate a specific corner Θ2, the specific corner includes contacting the cutter 1 at the oblique angle 01 and implanting the soft rim 21 The oblique angle 01 is located between the first direction and the end edge 20 of the hard plate member 2 (as shown in FIG. 7). The fourth driver 44 is disposed on the machine π to drive the machine. The hard plate member 2 on the 45 is rotated - the edge changing angle θ3 (as shown in Fig. 7), so that the cutting blade 1 is cut adjacent to the soft side U of the other side. Through the detailed description of the cutting device, It is not difficult to understand that the above-described cutting method of the present invention can be embodied. In general, for the hard plate member 2 having a soft edge 2, the cutting method is performed by the above-described cutting device, and it is indeed provided. An effective technical solution capable of automatically cutting the soft f-edge 21 of the hard plate member 2 and not because the 5H hard plate member 2 is the sun The panel is limited. Because: 'When the edge of the hard plate 2 is 2〇, the edge of the soft edge 21 is already present, the softness of the hard plate 2 can be automatically cut by applying the creation. The device technology of the present invention and the cutting method using the hard plate of the device can be implemented according to the method. However, the above poor embodiment is only a few embodiments expressing the creation, but Therefore, it should not be construed as limiting the scope of the patent application. It should be noted that for the present invention; the technical field towel has the usual knowledge, and can be made without departing from the 9 M430353 creative concept. Complex deformation and improvement, these are the scope of protection of this creation. Therefore, this creation should be based on the content of the request defined in the scope of patent application. [Simplified illustration] Figure 1 is a schematic diagram of a hard plate; Figure 3a to Figure 3i are schematic views of the action of the present invention; Figure 4 is a schematic view of the cutting blade; Figure 5 is a perspective view of the cutting device of the present invention; Figure 6 is a portion of Figure 5 Show Fig. 7 is a schematic view of the state of use of Fig. 5. [Main component symbol description] 1 cutter 10 blade 11 arm member 13 spring 2 hard plate member 20 end edge 21 soft edge 21a, 21b soft material Θ 1 bevel angle Θ 2 specific corner Θ3 Changing angle M430353 3 Slide 31 Linear slip 41 First drive 42 Second drive 43 Third drive 44 Fourth drive 45 Machine

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Claims (1)

M430353 VI. Scope of Application for Patenting·· 1. A soft edge cutting device (1) for hard plates, comprising: a cutter positioned on an arm; a slide, a slide in a second direction On the linear slide rail, the arm member is disposed on the sliding seat; a hard plate member having at least one end having a soft side; a first driver disposed on a machine table to drive the hard plate member a second direction is relatively close to the cutter, the cutter is contacted and implanted in the soft edge, and the end of the hard plate is continuously touched to stop; and a second driver is disposed on the linear slider. The cutter on the carriage is displaced in the second direction along the end edge of the hard plate member to cut off the soft crotch. 2. The cutting device (1) of the soft side of the hard plate member according to claim 1, wherein the first direction is perpendicular to an end edge of the hard plate member. 3. The cutting device (1) of the soft side of the hard plate member according to claim 1, wherein the second direction is perpendicular to the first direction. 4. The cutting device (1) of the soft side of the hard plate member according to claim 1, 2 or 3, wherein the arm member is disposed on the sliding seat via a spring, the arm member provides The cutter is contacted and implanted at an oblique angle between the first direction and the end edge of the hard plate member. 5. The cutting device (1) of the soft side of the hard plate member according to claim 4, wherein the arm member is an oblique swing arm, and the oblique angle is constituted by the oblique swing arm. 12 M430353 6. The soft edge cutting device (1) of the hard plate member according to claim 4, wherein the bevel angle is constituted by a blade edge angle of the cutter. 7. The cutting device (1) of the soft edge of the hard plate member according to the first aspect of the invention, further comprising a third driver, the arm member being disposed on the sliding seat via the third driver, The third actuator drives the cutter on the arm member to rotate a particular corner. 8. The soft edge cutting device (1) of the hard plate member according to claim 7, wherein the specific corner comprises providing the cutter at an oblique angle and implanting the soft edge, The bevel is located between the first direction and the end edge of the hard plate member. 9. The soft edge cutting device (1) of the hard plate member according to claim 1 or 7, further comprising a fourth actuator for driving the rigid plate member to rotate a change angle. 13