CN212136868U - Flat cable processing equipment - Google Patents

Abstract

A flat cable processing device is used for stripping an insulating layer of a flat cable and combining a reinforcing plate on the flat cable. The flat cable processing equipment comprises a working platform, a wire stripping device, a hot-pressing cutting device and a transfer platform. The wire stripping device comprises a first cutter and a second cutter. The first cutter and the second cutter are arranged oppositely to form a cutting opening, and the insulating layer of the flat cable positioned in the cutting opening is stripped in a clamping mode. The hot-pressing cutting device comprises a hot-pressing platform, a hot-pressing structure and a cutting structure. The hot pressing structure hot presses the reinforcing plate and the flat cable arranged on the hot pressing platform, and the cutting structure cuts the reinforcing plate. The shifting platform is used for bearing the flat cable and moving the flat cable to the wire stripping device and the hot-pressing cutting device in a translation mode.

Description

Flat cable processing equipment

Technical Field

The present invention relates to a processing apparatus, and more particularly to a flat cable processing apparatus capable of reducing cost and specially adapted for flat cable processing.

Background

A Flexible Flat Cable (FFC) is one of the commonly used electronic components. The flexible flat cable has the advantages of flexibility, free bending and folding, thin thickness, small volume, simple connection, convenient disassembly, easy solution to electromagnetic shielding and the like. The flexible flat cable can be applied to connecting circuit boards and connectors, circuit boards and electronic elements in electrical equipment, so that communication or transmission can be carried out among the electronic elements. Therefore, the flexible flat cable is widely used in the electronics industry.

Generally, the process of the flexible flat cable includes a plurality of processes, such as: cutting the flat cable to the required length, stripping the insulating sheath of the flat cable, adhering a reinforcing plate on the flat cable, trimming the size of the reinforcing plate, and the like. However, in the prior art, each process of the flexible flat cable needs to be processed by a plurality of different equipments, and the equipments of each process are separately arranged. After the wire arrangement is completed in one of the processes, the production line personnel need to take out the semi-finished product of the wire arrangement and move the semi-finished product to the equipment in the next process. Therefore, the flat cable manufacturing process in the prior art not only reduces the processing efficiency, but also increases the working hours. Moreover, if the flat cable is damaged due to improper removal or movement of the production line personnel, the yield of the flat cable is reduced, and the cost is further increased. In addition, the conventional wire stripping device can strip the flat cables of only one specification, and when the flat cables are different in specification, the wire stripping position and the wire stripping depth need to be manually adjusted. Therefore, the wire stripping device in the prior art not only increases labor cost, but also reduces processing efficiency.

Therefore, there is a need for a processing apparatus with improved efficiency and reduced cost to solve the problems of the prior art.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model aims at providing a winding displacement processing equipment, its simple structure, operation maintenance is convenient, and it is convenient to dismantle, can solve prior art's problem, raises the efficiency, reduce cost.

In order to achieve the above object, the utility model discloses a winding displacement processing equipment for strip an insulating layer of winding displacement and combine a reinforcing plate on the winding displacement, this winding displacement processing equipment of its characterized in that contains:

a working platform;

the wire stripping device is arranged on the working platform to strip the insulating layer at one end of the flat cable and comprises a first cutter and a second cutter which are arranged oppositely to form a cutting opening, so that the first cutter and the second cutter strip the insulating layer at one end of the flat cable at the cutting opening in a clamping manner when the wire stripping device is started;

a hot-pressing cutting device arranged on the working platform to combine a reinforcing plate on the flat cable with the insulating layer stripped, wherein the hot-pressing cutting device comprises a hot-pressing platform, a hot-pressing structure and a cutting structure, the hot-pressing structure and the cutting structure are arranged above the hot-pressing platform, and the cutting structure is arranged on one side of the hot-pressing structure, so that when the hot-pressing cutting device is started, the hot-pressing structure and the cutting structure are pressed down to the hot-pressing platform to cut the reinforcing plate and fix the reinforcing plate on the flat cable with the insulating layer stripped; and

a shifting platform, which is arranged on the working platform and coupled with the wire stripping device and the hot-pressing cutting device, the shifting platform bears the wire and moves the wire to the cutting opening of the wire stripping device and the hot-pressing platform of the hot-pressing cutting device in a translation mode, wherein the wire stripping device and the hot-pressing cutting device are both positioned on the same side of the shifting platform.

The shifting platform comprises a clamping fixture for fixing the flat cable on the shifting platform.

The wire stripping device comprises a moving structure, wherein the moving structure is connected with the first cut-off knife and the second cut-off knife and moves in a direction perpendicular to the clamping direction of the first cut-off knife and the second cut-off knife when the first cut-off knife and the second cut-off knife are clamped so as to strip the insulating layer of the flat cable.

The wire stripping device comprises a bidirectional screw, the first cut-off knife and the second cut-off knife are respectively arranged at two opposite ends of the bidirectional screw, and the bidirectional screw drives the first cut-off knife and the second cut-off knife to be clamped and separated in a rotating mode.

The wire stripping device comprises a motor, and the motor is connected with the bidirectional screw to control the rotation direction and the number of turns of the bidirectional screw.

The feeding device is arranged on the working platform and is arranged in parallel with the hot-pressing cutting device, the feeding device bears the reinforcing plate and comprises a roller structure to contact the reinforcing plate, and the roller structure pushes and conveys the reinforcing plate to the hot-pressing platform of the hot-pressing cutting device in a rolling mode.

The wire stripping device comprises a first air cylinder and a second air cylinder, the first air cylinder is connected with the first cutter, the second air cylinder is connected with the second cutter, and the first air cylinder and the second air cylinder are arranged in a manner of facing to each other and respectively push the first cutter and the second cutter to clamp the first cutter and the second cutter.

The wire stripping device comprises a cam structure, and the cam structure is connected with the first cutter and the second cutter and pushes the first cutter and the second cutter simultaneously so as to clamp the first cutter and the second cutter mutually.

The device comprises a working platform, a wire stripping device, a hot-pressing cutting device, a transfer platform, a wire stripping device, a hot-pressing cutting device and a hot-pressing cutting device, wherein the working platform is used for stripping wires, the hot-pressing cutting device is used for cutting the wires, the hot-pressing cutting device is used for stripping the wires, the hot-pressing cutting device is.

The adjusting device comprises an adjusting structure corresponding to the clamping fixture of the shifting platform, so that when the shifting platform holding the flat cable moves towards the direction of the adjusting device, the adjusting structure adjusts the relative position between the flat cable and the clamping fixture to enable one end of the flat cable to form a processing distance with the clamping fixture.

To sum up, the utility model discloses a winding displacement processing equipment simple structure, the operation is maintained conveniently, and it is convenient to dismantle, can strip the insulating layer of unidimensional winding displacement according to the wire stripping device to improve the machining efficiency of winding displacement. Moreover, the clamping fixture of the wire stripping device can prevent the flat cable from inclining or skewing, thereby improving the quality of wire stripping. Moreover, the hot-pressing cutting device can simultaneously cut the reinforcing plate and combine the reinforcing plate on the flat cable, so that the efficiency is improved, and the working hours are reduced.

Drawings

FIG. 1: the drawing shows a simple schematic diagram of the flat cable processing equipment according to an embodiment of the present invention.

FIG. 2: fig. 1 is a schematic view of the flat cable processing apparatus without the transfer platform.

FIG. 3: a schematic diagram of the wire stripping apparatus of the embodiment of fig. 1 is shown.

FIG. 4: a schematic view of the wire stripping device and the flat cable of fig. 3 at another angle is shown.

FIG. 5: a schematic diagram of the hot pressing cutting device and the flat cable of the embodiment of fig. 1 is shown.

FIG. 6: a schematic diagram of the hot pressing and cutting device and the feeding device of the embodiment of fig. 1 is shown.

FIG. 7: a schematic diagram of the inspection apparatus of the embodiment of fig. 1 is shown.

FIG. 8: a schematic diagram of the adjustment apparatus of the embodiment of fig. 1 is shown.

FIG. 9: the schematic diagram of the hot-pressing cutting device according to an embodiment of the present invention is shown.

FIG. 10: the schematic diagram of the wire stripping device according to an embodiment of the present invention is shown.

FIG. 11: the schematic diagram of the wire stripping device according to another embodiment of the present invention is shown.

Detailed Description

In order to provide the advantages, spirit and features of the present invention, which will be more readily understood and appreciated, reference will now be made in detail to the preferred embodiments and accompanying drawings. It is noted that these embodiments are merely exemplary embodiments of the present invention, and the particular methods, devices, conditions, materials, etc., that are illustrated are not intended to limit the present invention or the corresponding embodiments. Also, the devices shown in the drawings are merely for relative positional representation and are not drawn to scale as they are actually drawn.

In the description of the present invention, it should be understood that the terms "longitudinal, transverse, upper, lower, front, rear, left, right, top, bottom, inner, outer" and the like refer to the orientation or positional relationship shown in the drawings, which is only for convenience of description and simplification of description, and does not indicate that the device or component in question must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present invention.

In the description of the present invention, unless otherwise specified and limited, it is to be noted that the terms "mounted, connected and assembled" are to be interpreted broadly, for example, directly or indirectly through an intermediate medium, and those skilled in the art can understand the specific meanings of the terms as stated in the specific cases.

Expressions (e.g., first, second, etc.) used in various embodiments of the present disclosure may modify various constituent elements in various embodiments, but may not limit the respective constituent elements. For example, the above description does not limit the order and/or importance of the elements described. The foregoing description is for the purpose of distinguishing one element from another. For example, a first element could be termed a second element, and, similarly, a second element could be termed a first element, without departing from the scope of various embodiments of the present disclosure.

Please refer to fig. 1 and fig. 2. Fig. 1 is a schematic diagram of a flat cable processing apparatus 1 according to an embodiment of the present invention. Fig. 2 is a schematic view of the flat cable processing apparatus 1 in fig. 1 without the transfer platform. The utility model discloses a winding displacement processing equipment 1 is used for stripping the insulating layer of winding displacement and combines the reinforcing plate on the winding displacement. As shown in fig. 1 and 2, the flat cable processing apparatus 1 of the present invention includes a working platform 11, a wire stripping device 12, a hot-pressing cutting device 13, and a transferring platform 14. The wire stripping device 12, the hot-pressing cutting device 13 and the transferring platform 14 are all arranged on the working platform 11. The wire stripping device 12 and the hot-pressing cutting device 13 are arranged in parallel, and the transfer platform 14 is located on the same side of the wire stripping device 12 and the hot-pressing cutting device 13. The wire stripping device 12 is used to dispose a flat cable having an insulating layer thereon and strip part of the insulating layer of the flat cable. The hot-pressing cutting device 13 is used for arranging the stripped row wires and the reinforced plates thereon and combining the reinforced plates on the stripped row wires in a hot-pressing manner. The transfer platform 14 is used for carrying the flat cable and moving the flat cable to the wire stripping device 12 and the hot pressing and cutting device 13 in a translation manner.

In practice, the working platform 11 may be a bottom plate of the apparatus, and the wire stripping device 12, the hot pressing and cutting device 13 and the transferring platform 14 may be locked on the bottom plate respectively. The wire stripping device 12 and the hot-pressing cutting device 13 may be disposed on the same straight line, and the transfer platform 14 may be disposed on the same side of the wire stripping device 12 and the hot-pressing cutting device 13 and parallel to the straight line. Further, the transfer platform 14 can move in a linear direction and can be controlled by a servo motor, so that the transfer platform 14 can accurately move the flat cables carried on the transfer platform 14 to the wire stripping device 12 and the hot pressing cutting device 13 along the linear direction. As shown in fig. 1, transfer platform 14 is movable on the X-axis. The transfer platform 14 may be movable members, such as the slide rail 141 and the slide block 142 in fig. 1, which are matched with each other. The sliding block 142 can be used for carrying the flat cable, and the sliding block 142 moves on the sliding rail 141. Further, the transfer platform 14 may also include a motor connecting slide 142, and the slide 142 may be driven by a motor to move. In addition, the slide block 142 in fig. 1 may further include a clamping fixture 143 for fixing the flat cable on the transfer platform 14 to prevent the flat cable from shifting or skewing. Note that the type of the transfer platform 14 is not limited to the structure type shown in fig. 1, and the transfer platform 14 may be a structure type that moves the flat cable by a moving member such as a screw, an air cylinder, or the like.

Please refer to fig. 3 and fig. 4. Fig. 3 shows a schematic diagram of the wire stripping device 12 of the embodiment of fig. 1. Fig. 4 shows the wire stripping device 12 and the flat cable 2 of fig. 3 at another angle. As shown in fig. 3 and 4, the wire stripping device 12 includes a first cutter 121 and a second cutter 122, and the first cutter 121 and the second cutter 122 include a first cutter 1211 and a second cutter 1221, respectively. The first cutting edge 1211 of the first cutter 121 and the second cutting edge 1221 of the second cutter 122 are disposed opposite to each other, and a cutting opening 123 is formed between the first cutting edge 1211 and the second cutting edge 1221. The first cutter 121 and the second cutter 122 strip the insulating layer 21 on the portion of the flat cable 2 located in the cutting opening 123 in a clamping manner.

In practice, the first cutter 121 and the second cutter 122 may be formed by cutting, grinding, or the like, and the shapes of the first cutter 121 and the second cutter 122 may be the same. The first and second cutting edges 1211 and 1221 are disposed to face each other and may be positioned on the same line. When the flat cable 2 is moved to the wire stripping device 12 by the transfer platform, the portion of the flat cable 2, from which the insulating layer 21 is to be stripped, is moved to the cutting opening 123 and is located on a straight line between the first cutting edge 1211 and the second cutting edge 1221. Then, the first cutter 121 and the second cutter 122 approach each other and clamp the flat cable 2. Further, the first and second cutting edges 1211 and 1221 contact and embed the insulating layers 21 on both sides of the flat cable 2, respectively, and then strip the insulating layers 21 of the flat cable 2. In the present embodiment, the first cutter 121 and the second cutter 122 are used to strip the insulating layer 21 of the flat cable 2 in a vertically clamping manner, as shown in fig. 3, the first cutter 121 and the second cutter 122 can move relatively on the Z axis to clamp or separate each other. However, the clamping direction of the first cutter and the second cutter can be determined according to design or requirement.

In the present embodiment, the wire stripping device 12 includes a bidirectional screw 126, and the first cutter 121 and the second cutter 122 are respectively disposed at two opposite ends of the bidirectional screw 126. The bidirectional screw 126 is rotated to clamp the first cutter 121 and the second cutter 122 to each other. In practice, the first cutter 121 is disposed on one end of the bidirectional screw 126 having the positive thread, and the second cutter 122 is disposed on one end of the bidirectional screw 126 having the reverse thread opposite to the positive thread. Therefore, when the bidirectional screw 126 rotates in one direction, the positive and negative threads on the bidirectional screw 126 simultaneously drive the first cutter 121 and the second cutter 122, and the first cutter 121 and the second cutter 122 are clamped in an opposite manner.

Further, the wire stripping device 12 includes a motor 127 coupled to a bi-directional screw 126. The motor 127 is used for driving the bidirectional screw 126 to rotate so as to drive and control the size of the cutting opening 123 between the first cutter 121 and the second cutter 122. In practice, the motor 127 may be a servo motor, and the shaft of the motor 127 is connected to one end of the bidirectional screw 126. When the motor 127 rotates, the axis of the motor 127 drives the bidirectional screw 126 to rotate, thereby linking the first cutter 121 and the second cutter 122 to clamp. Further, the motor 127 can receive different pulses or signals to adjust the rotation angle of the bidirectional screw 126, that is, the motor 127 can adjust the cutting opening 123 between the first cutter 121 and the second cutter 122. Therefore, the wire stripping device 12 can perform wire stripping processes of different depths according to the size of the insulating layer 21 of the flat cable 2, so as to improve the processing efficiency of the flat cable.

In this embodiment, the wire stripping device 12 includes a moving structure 128, and the moving structure 128 is connected to the first cutter 121 and the second cutter 122. When the first cutter 121 and the second cutter 122 are clamped together, the moving structure 128 moves in a direction perpendicular to the clamping direction of the first cutter 121 and the second cutter 122 to strip the insulating layer 21 of the flat cable 2. In practice, the moving structure 128 may be a plate-shaped or block-shaped workpiece and may be moved by a movable member (e.g., a cylinder, a slide, a screw, etc.), and further, the moving structure 128 may be driven by a servo motor. When the first cutting knife 121 and the second cutting knife 122 are clamped in the up-down direction, the moving structure 128 can move in the backward direction, in other words, the moving structure 128 can move away from the transfer platform, as shown in fig. 4, the moving structure 128 can move relatively on the Y axis. Therefore, after the first cutting knife 121 and the second cutting knife 122 are clamped and embedded in the insulating layer 21 of the flat cable 2 in the vertical and opposite directions (+ Z-axis direction and-Z-axis direction), the moving structure 128 moves in the horizontal direction (Y-axis direction) to separate the insulating layer 21 from the flat cable 2. In the present embodiment, both ends of the bidirectional screw 126 and the motor 127 are fixed to the moving structure 128. Therefore, when the moving structure 128 moves, the bidirectional screw 126 and the motor 127 move accordingly, and the first cutter 121 and the second cutter 122 disposed on the bidirectional screw 126 are also linked together, so as to achieve the wire stripping process.

In one embodiment, the wire stripping device 12 further comprises a fixing mechanism 125 disposed between the cutting opening 123 and the transfer platform 14. The fixing mechanism 125 has a holding position for holding the flat cable 2 at the holding position, and the holding position corresponds to the cutting opening 123. In practice, the fixing mechanism 125 may be a processing workpiece, a matching workpiece or a combination workpiece, and the flat cable 2 may be clamped, locked or the like to be positioned and limited on the fixing mechanism 125. The height of the fixing mechanism 125 may correspond to the cutting opening 123, for example, when the fixing mechanism 125 clamps the flat cable 2, the position of the flat cable 2 is located at the center line of the cutting opening 123. Therefore, the fixing mechanism 125 can support and fix the flat cable 2, so as to improve the accuracy of the first cutter 121 and the second cutter 122 for stripping the insulating layer 21 of the flat cable 2, thereby improving the efficiency and reducing the cost. The positions of the transfer platform 14, the fixing mechanism 125 and the cutting opening 123 can all correspond to each other, and further, the height of the transfer platform 14 and the clamping position of the fixing mechanism 125 can be located on the same plane and at the center position of the cutting opening 123, so that the flat cable 2 can be horizontally arranged on the wire stripping device 12 to avoid the flat cable 2 from inclining or skewing, thereby improving the quality of wire stripping.

Please refer to fig. 1 and fig. 5. Fig. 5 is a schematic diagram of the hot-pressing cutting device 13 and the flat cable 2 according to the embodiment of fig. 1. As shown in fig. 5, the hot-pressing cutting device 13 includes a hot-pressing platform 131, a hot-pressing structure 132, and a cutting structure 133. The hot pressing structure 132 and the trimming structure 133 are disposed above the hot pressing platform 131, and the trimming structure 133 is disposed on one side of the hot pressing structure 132. The thermal pressing structure 132 thermally presses the insulation-stripped flat cable 2 and the reinforcing plate 3 on the thermal pressing platform 131, and the cutting structure 133 cuts the reinforcing plate 3. In practice, the hot pressing structure 132 may be a processed metal block or a heat conductive material, and may be combined with a heating element (e.g., a heating rod) to make the hot pressing structure 132 have a high temperature for hot pressing. The hot pressing structure 132 can be moved in the up-down direction controlled by an air cylinder, and as shown in fig. 5, the hot pressing structure 132 can be moved in the Z-axis. Therefore, when the thermal pressing structure 132 thermally presses the flat cable 2 and the reinforcing plate 3, the thermal pressing structure 132 contacts and melts the reinforcing plate 3 at a high temperature to bond the flat cable 2 and the reinforcing plate 3 to each other. On the other hand, the cutting structure 133 may be a processing element and has a cutting surface with a cutting function. Further, the cutting structure 133 can also be controlled by the air cylinder to move in the up and down direction, as shown in fig. 5, the cutting structure 133 can move on the Z axis. When the transfer platform moves the flat cable 2 with the insulating layer removed to the hot-pressing cutting device 13, the cutting structure 133 can cut the reinforcing plate 3 on the hot-pressing platform 131, so that the hot-pressing structure 132 can combine the reinforcing plate 3 on the flat cable 2. Therefore, the utility model discloses a winding displacement processing equipment can directly cut the reinforcing plate and can combine reinforcing plate and winding displacement in same workstation, and then reduce cost and save man-hour.

Please refer to fig. 1 and fig. 6. Fig. 6 is a schematic diagram of the hot press cutting device 13 and the feeding device 15 of fig. 1. The flat cable processing apparatus 1 further comprises a feeding device 15 disposed on the working platform 11 and arranged in parallel with the hot-pressing cutting device 13. The feeding device is used for carrying the reinforcing plate 3 and comprises a roller structure 151 contacting the reinforcing plate 3. The roller structure 151 pushes and conveys the reinforcing plate 3 to the hot pressing stage 131 of the hot pressing and cutting device 13 in a rolling manner. In practice, the feeding device 15 may include a track structure 152 connected to the hot pressing platform 131 of the hot pressing and cutting device 13. The rail structure 152 may be formed by sheet metal processing, and the roller structure 151 may be a plastic roller. The rail structure 152 can carry the reinforcing plate 3 thereon and can be connected to the hot pressing platform 131 of the hot pressing and cutting device 13, and the roller structure 151 can be disposed above the rail structure 152. The reinforcing plate 3 may be disposed between the rail structure 152 and the roller structure 151, and the roller structure 151 contacts the reinforcing plate 3. The roller structure 151 can be driven by a motor to move the reinforcing plate 3 toward the hot pressing and cutting device 13 and is disposed on the hot pressing platform 131. Therefore, the feeding device 15 can automatically feed the reinforcing plate 3 to the hot press cutting device 13 to combine the flat cable and the reinforcing plate 3 with the hot press cutting device 13.

Please refer to fig. 1 and fig. 7. FIG. 7 is a schematic diagram of the inspection device 16 of the embodiment of FIG. 1. As shown in fig. 7, the flat cable processing apparatus 1 further includes an inspection device 16. The inspection device 16 is disposed on the working platform 11 and located between the wire stripping device 12 and the hot-pressing cutting device 13. The inspection device 16 is used to inspect the flat cable 2 with the insulating layer stripped off or the flat cable 2 with the reinforcing plate attached. In the present embodiment, the inspection device 16 includes a detection platform 161 and a detection unit 162, and the detection unit 162 is located above the detection platform 161. In practice, the inspection device 16 may be located on the same side of the transfer platform 14 as the wire stripping device 12 and the hot press cutting device 13. The detecting unit 162 may be a CCD device or a laser sensor for detecting the processing condition of the flat cable 2. After the flat cable 2 is stripped by the stripping device 12, the transfer platform 14 can move the flat cable 2 with the stripped insulating layer to the inspection device 16 to inspect whether the stripped position is finished and the flat cable 2 is damaged. After the flat cable 2 is bonded with the reinforcing plate by the hot-press cutting device 13, the transfer platform 14 can move the flat cable 2 with the reinforcing plate bonded thereto to the inspection device 16 to inspect the bonding condition. Therefore, the flat cable processing apparatus 1 can ensure the quality of the flat cable by the inspection device 16, thereby improving the efficiency and saving the cost.

Please refer to fig. 1 and fig. 8. Fig. 8 is a schematic diagram of the adjusting device 17 of the embodiment of fig. 1. As shown in fig. 8, the flat cable processing apparatus 1 further includes an adjusting device 17. The adjusting device 17 is disposed on the working platform 11 and coupled to the transferring platform 14. In the present embodiment, the adjusting device 17 includes an adjusting structure 171 corresponding to the clamping fixture 143 of the transfer platform 14. When the transfer platform 14 holding the flat cable 2 moves toward the adjusting device 17 (i.e., the-Y-axis direction), the adjusting structure 171 adjusts the relative position between the flat cable 2 and the holding jig 143, so that a processing distance is formed between one end of the flat cable 2 and the holding jig 143. In practice, the adjusting device 17 may be disposed beside the wire stripping device 12, and may be located on the same side of the transfer platform 14 as the wire stripping device 12. The adjusting structure 171 is a movable fixed block, and further, the adjusting structure 171 can move in the Y-axis direction. When the transfer platform 14 moves in the Y-axis direction toward the adjustment device 17, the flat cable 2 on the transfer platform 14 also moves toward the adjustment device 17. When one end of the flat cable 2 contacts and leans against the adjusting structure 171, the processing distance between the holding jig 143 of the transfer platform 14 and the adjusting structure 171 is the length of the flat cable 2 to be processed. The adjusting structure 171 can adjust the position according to the requirement of the flat cable. In addition, the adjusting structure 171 may have a plane. When one end of the flat cable 2 is attached to the adjusting structure 171, the end surface of the flat cable 2 will be aligned with the surface of the adjusting structure 171, which not only ensures that the flat cable is flat but also can guide the position of the flat cable. Therefore, the utility model discloses an adjusting device 17 can be adjusted and can align the position of winding displacement according to the winding displacement processing length of difference, and then improves machining efficiency and reduces man-hour.

When the flat cable processing equipment processes the flat cable and is combined with the reinforcing plate, the flat cable is firstly fixed on the transfer platform, the transfer platform can move the flat cable to the adjusting device in the X-axis direction to adjust the processing length of the flat cable, and then the transfer platform moves the flat cable to the wire stripping device. At this time, after the fixing structure of the wire stripping device clamps the flat cable to prevent the flat cable from shifting or inclining, the motor drives the bidirectional screw and drives the first cutter and the second cutter to move in the Z-axis direction, so that the first cutter and the second cutter are embedded into the insulating layer of the flat cable. Then, the moving structure of the wire stripping device moves in the Y-axis direction to strip the insulating layer of the flat cable. During the above process, the feeding device can transport the uncut reinforcing plate to the hot pressing platform of the hot pressing and cutting device through the rail structure and the roller structure. And after the insulating layer of the part of the flat cable is stripped, the moving platform moves the flat cable with the stripped insulating layer to a hot pressing platform of a hot pressing cutting device, at the moment, the uncut reinforcing plate is positioned on the hot pressing platform, and the flat cable with the stripped insulating layer is positioned on the reinforcing plate. Then, the cutting structure of the hot-pressing cutting device cuts the reinforcing plate, and the hot-pressing structure hot-presses the flat cable with the insulating layer removed and the cut reinforcing plate, so that the reinforcing plate is combined to the flat cable. After the flat cable strips off the insulating layer and the flat cable is pasted with the reinforcing plate, the moving platform can move the flat cable to the inspection device so as to inspect the processing quality of the flat cable. Therefore, the utility model discloses a winding displacement processing equipment can be removed by the triaxial of each work station of servo motor drive to reach accurate processing operation, and then raise the efficiency and save man-hour.

The hot pressing structure and the cutting structure of the hot pressing and cutting device may be other forms besides the form of the foregoing embodiment. Please refer to fig. 9. Fig. 9 is a schematic diagram of a hot-pressing cutting device 23 according to an embodiment of the present invention. The difference between the present embodiment and the previous embodiment is that the cutting structure 233 of the present embodiment includes a cutting portion 2331, a hot pressing portion 2321 of the hot pressing structure 232, the cutting structure 233 is fixed on one side of the hot pressing structure 232, and the cutting portion 2331 and the hot pressing portion 2321 are located on the same plane. In the present embodiment, the thermal pressing structure 232 thermally presses the flat cable 2 and the reinforcing plate 3 with the thermal pressing portion 2321, and the cutting structure 233 is cut with the cutting portion 2331. In practice, the cutting structure 233 can be fixed on the hot pressing structure 232. Therefore, the cutting structure 233 moves simultaneously with the hot pressing structure 232, that is, the cutting portion 2331 of the cutting structure 233 cuts the reinforcing plate 3 while the hot pressing portion 2321 of the hot pressing structure 232 hot presses the flat cable 2 and the reinforcing plate 3. Further, the cutting structure 233 can be fixed to the hot-pressing structure 232 by screw-locking, but is not limited thereto, and other fixing methods are also possible. When the hot pressing portion 2321 of the hot pressing structure 232 contacts the flat cable 2 and the reinforcing plate 3, the cutting portion 2331 of the cutting structure 233 located on the same plane as the hot pressing portion 2321 also contacts and cuts the reinforcing plate 3. Therefore, the hot-press cutting device 23 can cut the reinforcing plate 3 and combine the reinforcing plate 3 with the flat cable 2 at the same time, which not only improves the efficiency, but also reduces the working hours.

The wire stripping device of the flat cable processing equipment of the present invention can be in other forms except for the manner of clamping the first cutter and the second cutter by the two-way screw and the motor in the foregoing embodiments. Please refer to fig. 10. Fig. 10 is a schematic diagram of a wire stripping device 22 according to an embodiment of the present invention. The present embodiment differs from the previous embodiments in that the wire stripping device 22 includes a first cylinder 226A and a second cylinder 226B. The first cylinder 226A is connected to the first cutter 121, and the second cylinder 226B is connected to the second cutter 122. The first cylinder 226A and the second cylinder 226B are disposed to face each other and respectively push the first cutter 121 and the second cutter 122, so that the first cutter 121 and the second cutter 122 are clamped to each other. In practice, the first cylinder 226A and the second cylinder 226B may be fixed to the moving structure 128, and the first cutter 121 and the second cutter 122 may be respectively disposed on the movable rods of the first cylinder 226A and the second cylinder 226B. The first cylinder 226A and the second cylinder 226B can push the movable rod in opposite directions, so that the first cutter 121 and the second cutter 122 are clamped together. Please note that, the functions of the first cutter, the second cutter and the moving structure in this embodiment are substantially the same as those of the components corresponding to the foregoing embodiment, and are not repeated herein.

Please refer to fig. 11. Fig. 11 is a schematic diagram of a wire stripping device 32 according to an embodiment of the present invention. The present embodiment differs from the previous embodiments in that the wire stripping device 32 includes a cam structure 326. The cam structure 326 is connected to the first cutter 121 and the second cutter 122 and pushes the first cutter 121 and the second cutter 122 simultaneously, so that the first cutter 121 and the second cutter 122 are clamped together. In practice, the cam structure 326 may be fixed to the moving structure 128, and the cam structure 326 may contact the first cutter 121 and the second cutter 122. The cam structure 326 can be designed with a flange according to the requirement so that the first cutter 121 and the second cutter 122 can be clamped together along the shape of the flange. Please note that, the functions of the first cutter, the second cutter and the moving structure in this embodiment are substantially the same as those of the components corresponding to the foregoing embodiment, and are not repeated herein.

To sum up, the utility model discloses a winding displacement processing equipment can strip the insulating layer of not unidimensional winding displacement according to the wire stripping device to improve the machining efficiency of winding displacement. Moreover, the clamping fixture of the wire stripping device can prevent the flat cable from inclining or skewing, thereby improving the quality of wire stripping. Moreover, the hot-pressing cutting device can simultaneously cut the reinforcing plate and combine the reinforcing plate on the flat cable, so that the efficiency is improved, and the working hours are reduced.

The above detailed description of the preferred embodiments is intended to more clearly illustrate the features and spirit of the present invention, and is not intended to limit the scope of the invention by the above disclosed preferred embodiments. On the contrary, the intention is to cover various modifications and equivalent arrangements included within the spirit and scope of the invention. The scope of the claims is thus to be accorded the broadest interpretation so as to encompass all such modifications and equivalent arrangements as is within the scope of the appended claims.

Claims (10)

1. A flat cable processing device for stripping an insulating layer of a flat cable and bonding a reinforcing plate on the flat cable, the flat cable processing device comprising:

a working platform;

the wire stripping device is arranged on the working platform to strip the insulating layer at one end of the flat cable and comprises a first cutter and a second cutter which are arranged oppositely to form a cutting opening, so that the first cutter and the second cutter strip the insulating layer at one end of the flat cable at the cutting opening in a clamping manner when the wire stripping device is started;

a hot-pressing cutting device arranged on the working platform to combine a reinforcing plate on the flat cable with the insulating layer stripped, wherein the hot-pressing cutting device comprises a hot-pressing platform, a hot-pressing structure and a cutting structure, the hot-pressing structure and the cutting structure are arranged above the hot-pressing platform, and the cutting structure is arranged on one side of the hot-pressing structure, so that when the hot-pressing cutting device is started, the hot-pressing structure and the cutting structure are pressed down to the hot-pressing platform to cut the reinforcing plate and fix the reinforcing plate on the flat cable with the insulating layer stripped; and

a shifting platform, which is arranged on the working platform and coupled with the wire stripping device and the hot-pressing cutting device, the shifting platform bears the wire and moves the wire to the cutting opening of the wire stripping device and the hot-pressing platform of the hot-pressing cutting device in a translation mode, wherein the wire stripping device and the hot-pressing cutting device are both positioned on the same side of the shifting platform.

2. The flat cable processing apparatus of claim 1, wherein the transfer platform comprises a clamping fixture for fixing the flat cable on the transfer platform.

3. The flat cable processing apparatus of claim 1, wherein the wire stripping device comprises a moving structure, the moving structure is connected to the first cutter and the second cutter and moves in a direction perpendicular to the direction in which the first cutter and the second cutter are clamped when the first cutter and the second cutter are clamped to strip a portion of the insulation layer of the flat cable.

4. The flat cable processing apparatus of claim 1, wherein the wire stripping device comprises a bi-directional screw, and the first cutter and the second cutter are respectively disposed at opposite ends of the bi-directional screw, and the bi-directional screw rotationally drives the first cutter and the second cutter to clamp and separate from each other.

5. The flat cable processing apparatus of claim 4, wherein the wire stripping device comprises a motor connected to the bidirectional screw for controlling the rotation direction and the number of turns of the bidirectional screw.

6. The flat cable processing apparatus of claim 1, further comprising a feeding device disposed on the working platform and arranged in parallel with the hot pressing and cutting device, the feeding device carrying the stiffener and comprising a roller structure for contacting the stiffener, the roller structure being configured to roll and transport the stiffener to the hot pressing platform of the hot pressing and cutting device.

7. The flat cable processing apparatus of claim 1, wherein the wire stripping device comprises a first cylinder and a second cylinder, the first cylinder is connected to the first cutter and the second cylinder is connected to the second cutter, the first cylinder and the second cylinder are disposed opposite to each other and respectively push the first cutter and the second cutter to clamp the first cutter and the second cutter to each other.

8. The flat cable processing apparatus of claim 1, wherein the wire stripping device comprises a cam structure, the cam structure connects the first cutter and the second cutter and pushes the first cutter and the second cutter simultaneously to clamp the first cutter and the second cutter to each other.

9. The flat cable processing apparatus of claim 1, further comprising an inspection device disposed on the working platform and between the wire stripping device and the hot-pressing cutting device, wherein the inspection device comprises a detection platform and a detection unit, the detection unit is disposed above the detection platform, the transfer platform moves the flat cable to the inspection platform and the detection unit is used to detect the flat cable.

10. The flat cable processing apparatus of claim 2, further comprising an adjusting device disposed on the working platform and coupled to the transfer platform, wherein the adjusting device comprises an adjusting structure corresponding to the clamping fixture of the transfer platform such that when the transfer platform holding the flat cable moves toward the adjusting device, the adjusting structure adjusts a relative position between the flat cable and the clamping fixture to form a processing distance between an end of the flat cable and the clamping fixture.

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