A device for laying heating wires on a silicon cloth
The highly integrated automated wiring device enables high-precision wiring and bonding of heating wires on silicone cloth, solving the problems of complex structure, difficult debugging, and poor compatibility of existing equipment, and significantly improving production efficiency and product quality.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- GUILIN QINGYAN HAOLONG NEW MATERIALS CO LTD
- Filing Date
- 2025-08-12
- Publication Date
- 2026-07-03
AI Technical Summary
Existing silicone cloth heating wire installation equipment is complex in structure, difficult to debug, and has poor compatibility, making it difficult to meet the production needs of heating wires and silicone cloths of different specifications.
A highly integrated automated wiring device was designed, including a main frame, a silicone cloth feeding mechanism, a bonding mechanism, a positioning mechanism, a displacement mechanism, a wiring mechanism, and a wire cutting mechanism. Through the coordinated control of a six-axis servo motor, combined with negative pressure adsorption and hot pressing rollers, high-precision wiring and bonding are achieved.
It improves automation, has excellent positioning accuracy, strong compatibility, and increases efficiency by 5-8 times, with a daily production capacity of 1000-1500㎡ and a product qualification rate of over 98%.
Smart Images

Figure CN224446917U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of heating wire laying equipment, and in particular to a device for laying heating wires on silicone cloth. Background Technology
[0002] Traditional silicone cloth heating wire installation relies heavily on manual operation, resulting in low wiring accuracy, low efficiency, and significant material waste. Existing automated equipment generally suffers from complex structures, difficult debugging, and poor compatibility, making it difficult to meet the production needs of heating wires and silicone cloths of different specifications. Therefore, developing a highly integrated, precise, and easy-to-operate automated wiring device is of great significance. Utility Model Content
[0003] The purpose of this invention is to provide a device for laying heating wires on silicone cloth, which solves the problems of complex structure, difficult debugging, and poor compatibility of existing wiring equipment.
[0004] A device for laying heating wires on silicone cloth includes a main frame, one end of which is equipped with a silicone cloth feeding mechanism, the other end of which is equipped with a bonding mechanism, and a positioning mechanism is provided in the middle. A displacement mechanism is installed on the positioning mechanism, and a wiring mechanism and a wire cutting mechanism are installed on the displacement mechanism. A control cabinet is provided on the outer side of the main frame.
[0005] The carrier silicone cloth feeding mechanism includes a first feeding shaft and a first taking-up shaft. The carrier silicone cloth is wound on the first feeding shaft, and the first taking-up shaft is used to take up the release film on the carrier silicone cloth. After the release film is taken up by the first taking-up shaft, the carrier silicone cloth body moves along the positioning mechanism toward the bonding mechanism.
[0006] Optionally, the bonding mechanism includes a second feeding shaft, a second taking-up shaft, and a hot pressing roller. The second feeding shaft is wound with a bonding silicone cloth, and the second taking-up shaft is used to take up the release film on the bonding silicone cloth. After the release film is taken up by the second taking-up shaft, the bonding silicone cloth body and the carrier silicone cloth body are bonded together at the hot pressing roller.
[0007] The second feeding shaft and the second receiving shaft are both mounted on the main frame, and the hot pressing roller is mounted on the positioning mechanism.
[0008] Optionally, the positioning mechanism includes a wiring table, a feeding roller, a suction fan, and a suction pipe. The wiring table is mounted on the main frame via a support frame. The feeding roller is mounted at the front end of the wiring table, and the hot-pressing roller is mounted at the rear end of the wiring table. The suction fan is mounted on the main frame and connected to the suction pipe, and the suction pipe is mounted at the bottom end of the wiring table. The supporting silicone cloth extends along the wiring table towards the hot-pressing roller after passing through the feeding roller. The suction pipe is used to adsorb the supporting silicone cloth onto the wiring table, thus completing the positioning operation of the supporting silicone cloth.
[0009] Optionally, the displacement mechanism includes a gantry bridge, a first servo motor, a first transmission gear, and a first gear guide rail;
[0010] Moving board, second servo motor, second transmission gear, second gear guide rail;
[0011] Third servo motor, wiring cutter head;
[0012] Two first gear guide rails are provided and symmetrically installed on both sides of the wiring platform. The teeth of the first transmission gear mesh with the upper rail teeth of the first gear guide rail. The output shaft of the first servo motor is connected to the first transmission gear. Two first servo motors are provided and symmetrically installed on both sides of the bottom end of the gantry bridge.
[0013] The second gear guide rail is installed on the gantry bridge and is perpendicular to the first gear guide rail. The gear teeth of the second transmission gear mesh with the guide teeth on the second gear guide rail. The output shaft of the second servo motor is connected to the second transmission gear. The second servo motor is installed on the moving plate.
[0014] The third servo motor is mounted on the bottom end of the moving plate, and the wiring cutter head is connected to the output shaft of the third servo motor via a transmission connection.
[0015] The control cabinet is electrically connected to the first servo motor, the second servo motor, and the third servo motor, respectively.
[0016] Optionally, the wiring mechanism includes a third feeding shaft, a sliding wheel, a first sensor, a second sensor, a fourth servo motor, a transmission wheel, a swing nozzle, a fifth servo motor, a crank rod, and a pressure rod;
[0017] The third feeding shaft is installed at the top of the moving plate, the sliding wheel is slidably connected in the vertically arranged groove at the bottom of the moving plate, the first sensor and the second sensor are both installed on the moving plate and are respectively located on the upper and lower sides of the sliding wheel, the fourth servo motor is installed at the bottom of the moving plate, and the transmission wheel and the output shaft of the fourth servo motor are connected in a transmission manner.
[0018] The oscillating nozzle is installed at the bottom end of the wiring cutter head, the fifth servo motor is installed on the wiring cutter head, one end of the crank is connected to the output shaft of the fifth servo motor, and the other end is connected to the pressure rod.
[0019] A heating wire is wound onto the third feeding shaft. One end of the heating wire passes sequentially around the sliding wheel, the transmission wheel, and the swing nozzle before being connected to the bottom end of the pressure rod. When the pressure rod is pressed down, the bottom end of the pressure rod abuts against the supporting silicone cloth.
[0020] The control cabinet is electrically connected to the fourth servo motor and the fifth servo motor respectively.
[0021] Optionally, the wire cutting mechanism includes a first electronic valve, a first cylinder, a second electronic valve, a second cylinder, and scissors. The first electronic valve, the first cylinder, and the second electronic valve are all mounted on the wire cutting head. The first electronic valve is connected to the first cylinder, and the second electronic valve is connected to the second cylinder. The body of the second cylinder is mounted on the telescopic end of the first cylinder. The scissors are mounted on the second cylinder. When the second cylinder extends or retracts under the control of the second electronic valve, it drives the scissors to complete the opening and closing motion. The scissors are located between the swing nozzle and the pressure rod.
[0022] The control cabinet is electrically connected to the first electronic valve and the second electronic valve, respectively.
[0023] Optionally, the movable plate is also equipped with a laser and a negative pressure dust removal nozzle. The laser is used to cut positioning holes and electrode windows on the supporting silicone cloth. The negative pressure dust removal nozzle is used to remove dust from the supporting silicone cloth and is connected to the suction fan.
[0024] Optionally, the control cabinet is equipped with an emergency stop switch. In the event of mechanical failure or safety accident, the emergency stop switch is used for emergency shutdown / power cutoff to ensure equipment safety and the personal safety of operators.
[0025] Optionally, a computer-controlled labeling and slicing machine is provided on one side of the main frame, which is used to cut the bonded silicone cloth.
[0026] Compared with the prior art, the beneficial technical effects of this utility model are as follows:
[0027] High degree of automation: It integrates the entire process of feeding, positioning, cutting, wiring, wire trimming, bonding, and slicing into one, reducing manual intervention;
[0028] Excellent positioning accuracy: Six-axis servo motors work together to control the heating wires, and negative pressure is used to adhere the silicone cloth to the wiring table, ensuring that the wiring error of the heating wires is ≤ ±0.1mm;
[0029] High compatibility: Supports the production needs of silicone cloths of different widths (50-500mm) and heating wires of different diameters (0.1-2mm);
[0030] Significant efficiency improvement: Compared with manual wiring, efficiency is increased by 5-8 times, and the daily production capacity can reach 1000-1500㎡;
[0031] Stable quality: Closed-loop temperature control of the heating roller (±2℃) ensures consistent bonding strength and increases the product qualification rate to over 98%. Attached Figure Description
[0032] The present invention will be further described below with reference to the accompanying drawings.
[0033] Figure 1 This is a schematic diagram of the device structure for laying heating wires on silicone cloth according to the present invention;
[0034] Figure 2 This is a side view of a device for laying heating wires on silicone cloth according to the present invention.
[0035] Figure 3 This is a schematic diagram of the displacement mechanism of this utility model;
[0036] Figure 4 This is a schematic diagram of the wiring mechanism structure of this utility model;
[0037] Figure 5 This is a schematic diagram of the wire-cutting mechanism of this utility model.
[0038] Explanation of reference numerals in the attached drawings: 1. Main frame; 2. Silicone cloth feeding mechanism for load bearing; 3. Laminating mechanism; 4. Positioning mechanism; 5. Displacement mechanism; 6. Wiring mechanism; 7. Wire cutting mechanism; 8. Control cabinet; 9. Computerized labeling and slicing machine;
[0039] 21. First feeding shaft; 22. First receiving shaft;
[0040] 31. Second feeding shaft; 32. Second receiving shaft; 33. Hot pressing roller;
[0041] 41. Wiring table; 42. Feed roller; 43. Suction fan; 44. Suction pipe;
[0042] 51. Gantry bridge; 52. First servo motor; 53. First transmission gear; 54. First gear guide rail; 55. Moving plate; 56. Second servo motor; 57. Second transmission gear; 58. Second gear guide rail; 59. Third servo motor; 510. Wiring cutter head; 511. Laser; 512. Negative pressure dust removal nozzle;
[0043] 61. Third feeding shaft; 62. Pulley; 63. First sensor; 64. Second sensor; 65. Fourth servo motor; 66. Transmission wheel; 67. Swing nozzle; 68. Fifth servo motor; 69. Crank rod; 610. Pressure rod;
[0044] 71. First electronic valve; 72. First cylinder; 73. Second electronic valve; 74. Second cylinder; 75. Scissors. Detailed Implementation
[0045] To make the technical problem to be solved, the technical solution, and the beneficial effects of this utility model clearer, the present utility model will be further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are only used to explain this utility model and are not intended to limit this utility model.
[0046] like Figure 1-5 As shown, this embodiment provides a device for laying heating wires on silicone cloth, including a main frame 1. One end of the main frame 1 is equipped with a silicone cloth feeding mechanism 2, the other end is equipped with a bonding mechanism 3, a positioning mechanism 4 is provided in the middle, a displacement mechanism 5 is installed on the positioning mechanism 4, and a wiring mechanism 6 and a wire cutting mechanism 7 are installed on the displacement mechanism 5. A control cabinet 8 is provided on the outer side of the main frame 1.
[0047] The silicone cloth feeding mechanism 2 includes a first feeding shaft 21 and a first take-up shaft 22. The first feeding shaft 21 is wound with silicone cloth for bearing, and the first take-up shaft 22 is used to take up the release film on the silicone cloth for bearing. After the release film is taken up by the first take-up shaft 22, the silicone cloth body for bearing moves along the positioning mechanism 4 toward the bonding mechanism 3.
[0048] Specifically, the bonding mechanism 3 includes a second feeding shaft 31, a second taking-up shaft 32, and a hot pressing roller 33. The second feeding shaft 31 is wound with a bonding silicone cloth, and the second taking-up shaft 32 is used to take up the release film on the bonding silicone cloth. After the release film is taken up by the second taking-up shaft 32, the bonding silicone cloth body is bonded together with the carrying silicone cloth body at the hot pressing roller 33.
[0049] The second feeding shaft 31 and the second receiving shaft 32 are both mounted on the main frame 1, and the hot pressing roller 33 is mounted on the positioning mechanism 4.
[0050] Specifically, the positioning mechanism 4 includes a wiring platform 41, a feeding roller 42, a suction fan 43, and a suction pipe 44. The wiring platform 41 is mounted on the main frame 1 via a support frame. The feeding roller 42 is mounted at the front end of the wiring platform 41, and the hot-pressing roller 33 is mounted at the rear end of the wiring platform 41. The suction fan 43 is mounted on the main frame 1 and connected to the suction pipe 44, and the suction pipe 44 is mounted at the bottom end of the wiring platform 41. The supporting silicone cloth extends along the wiring platform 41 towards the hot-pressing roller 33 after passing through the feeding roller 42. The suction pipe 44 is used to adsorb the supporting silicone cloth onto the wiring platform 41, thus completing the positioning operation of the supporting silicone cloth.
[0051] Specifically, the displacement mechanism 5 includes a gantry bridge 51, a first servo motor 52, a first transmission gear 53, and a first gear guide rail 54;
[0052] 55. Movable board; 56. Second servo motor; 57. Second transmission gear; 58. Second gear guide rail;
[0053] Third servo motor 59, wiring cutter head 510;
[0054] Two first gear guide rails 54 are provided and symmetrically installed on both sides of the wiring platform 41. The gear teeth of the first transmission gear 53 mesh with the upper rail teeth of the first gear guide rail 54. The output shaft of the first servo motor 52 is connected to the first transmission gear 53. Two first servo motors 52 are provided and symmetrically installed on both sides of the bottom end of the gantry bridge 51.
[0055] The second gear guide rail 58 is mounted on the gantry bridge 51. The second gear guide rail 58 is perpendicular to the first gear guide rail 54. The gear teeth of the second transmission gear 57 mesh with the guide teeth on the second gear guide rail 58. The output shaft of the second servo motor 56 is connected to the second transmission gear 57. The second servo motor 56 is mounted on the moving plate 55.
[0056] The third servo motor 59 is mounted on the bottom end of the moving plate 55, and the wiring head 510 is connected to the output shaft of the third servo motor 59 via a transmission connection.
[0057] The control cabinet 8 is electrically connected to the first servo motor 52, the second servo motor 56, and the third servo motor 59, respectively.
[0058] Specifically, the wiring mechanism 6 includes a third feeding shaft 61, a sliding wheel 62, a first sensor 63, a second sensor 64, a fourth servo motor 65, a transmission wheel 66, a swing nozzle 67, a fifth servo motor 68, a crank rod 69, and a pressure rod 610.
[0059] The third feeding shaft 61 is installed at the top of the moving plate 55, the sliding wheel 62 is slidably connected in the vertically arranged groove at the bottom of the moving plate 55, the first sensor 63 and the second sensor 64 are both installed on the moving plate 55 and are respectively located on the upper and lower sides of the sliding wheel 62, the fourth servo motor 65 is installed at the bottom of the moving plate 55, and the transmission wheel 66 is connected to the output shaft of the fourth servo motor 65.
[0060] The swing nozzle 67 is installed at the bottom end of the wiring cutter head 510, the fifth servo motor 68 is installed on the wiring cutter head 510, one end of the crank rod 69 is connected to the output shaft of the fifth servo motor 68, and the other end is connected to the pressure rod 610.
[0061] A heating wire is wound onto the third feeding shaft 61. One end of the heating wire passes through the sliding wheel 62, the transmission wheel 66, and the swing nozzle 67 in sequence and is then connected to the bottom end of the pressure rod 610. When the pressure rod 610 is pressed down, the bottom end of the pressure rod 610 abuts against the supporting silicone cloth.
[0062] The control cabinet 8 is electrically connected to the fourth servo motor 65 and the fifth servo motor 68, respectively.
[0063] Specifically, the wire cutting mechanism 7 includes a first electronic valve 71, a first cylinder 72, a second electronic valve 73, a second cylinder 74, and scissors 75. The first electronic valve 71, the first cylinder 72, and the second electronic valve 73 are all mounted on the wire cutting head 510. The first electronic valve 71 is connected to the first cylinder 72, and the second electronic valve 73 is connected to the second cylinder 74. The body of the second cylinder 74 is mounted on the telescopic end of the first cylinder 72. The scissors 75 are mounted on the second cylinder 74. When the second cylinder 74 extends or retracts under the control of the second electronic valve 73, it drives the scissors 75 to complete the opening and closing motion. The scissors 75 are located between the swing nozzle 67 and the pressure rod 610.
[0064] The control cabinet 8 is electrically connected to the first electronic valve 71 and the second electronic valve 73 respectively.
[0065] Specifically, the movable plate 55 is also equipped with a laser 511 and a negative pressure dust removal nozzle 512. The laser 511 is used to cut positioning holes and electrode windows on the supporting silicone cloth. The negative pressure dust removal nozzle 512 is used to remove dust from the supporting silicone cloth. The negative pressure dust removal nozzle 512 is connected to the suction fan 43.
[0066] Specifically, the control cabinet 8 is equipped with an emergency stop switch. In the event of mechanical failure or safety accident, the emergency stop switch is used for emergency shutdown / power cutoff to ensure equipment safety and the personal safety of operators.
[0067] Specifically, a computer-controlled labeling and slicing machine 9 is provided on one side of the main frame 1. The computer-controlled labeling and slicing machine 9 is used to cut the bonded silicone cloth.
[0068] The working process of this utility model is as follows:
[0069] Step 1: Turn on the power, open control cabinet 8, and input the required wiring diagram;
[0070] Step 2: The supporting silicone cloth is placed on the first feeding shaft 21 and passes through the feeding roller 42. The release film on the supporting silicone cloth is taken away by the first receiving shaft 22. The main body of the supporting silicone cloth enters the wiring table 41. The suction fan 43 is started to make the supporting silicone cloth firmly adhere to the wiring table 41.
[0071] Step 3: Set the starting position of laser 511, and start laser machine 511 to cut out the positioning hole and electrode window;
[0072] Step 4: The heating wire on the third feeding shaft 61 passes through the sliding wheel 62, the transmission wheel 66, the through hole on the wiring cutter head 510, and the swing nozzle 67 to connect to the bottom end of the pressure rod 610.
[0073] When the sliding wheel 62 is sensed by the first sensor 63, the third feeding shaft 61 starts feeding; when the sliding wheel 62 is sensed by the second sensor 64, the third feeding shaft 61 stops feeding.
[0074] Step 5: The wiring machine begins wiring according to the pattern on the drawing. After wiring one product pattern, the control cabinet 8 sends a signal to the first electronic valve 71. The first cylinder 72 pushes the scissors 75 down to a height where they can cut the heating wire. The second electronic valve 73 controls the second cylinder 74 to push the scissors 75 to close, cutting the heating wire. After cutting the wire, the first electronic valve 71 controls the first cylinder 72 to reset the scissors 75, and the second electronic valve 73 controls the scissors 75 to open. The wiring machine then wires the next product. This process is repeated.
[0075] Step Six: The first servo motor 52 controls the gantry bridge 51 to move along the first gear guide rail 54; the second servo motor 56 controls the moving plate 55 to move along the second gear guide rail 58; the third servo motor 59 controls the rotation of the wiring cutter head 510; the fourth servo motor 65 controls the transmission wheel 66 to feed the heating wire; and the fifth servo motor 68 controls the up and down movement of the pressure rod 610 to fix the heating wire, ensuring the dimensional accuracy of the heating wire. The six servo motors work together under the control of the control cabinet 8 to accurately lay the heating wire on the supporting silicone cloth.
[0076] Step 7: After laying out a set of products, the silicone cloth for carrying the laid lines and the silicone cloth for bonding on the second feeding shaft 31 are fed into the hot pressing roller 33. The temperature of the hot pressing roller 33 can be adjusted according to the material characteristics. After the hot pressing roller 33 is heated and a set of products are run, the silicone cloth for carrying the lines and the silicone cloth for bonding are fed into the computer-controlled labeling and slicing machine 9 for slicing, and then punched and shaped in the next process.
[0077] It should be noted that, in this document, relational terms such as "first" and "second" are used only to distinguish one entity or operation from another, and do not necessarily require or imply any such actual relationship or order between these entities or operations. Furthermore, the terms "comprising," "including," or any other variations thereof are intended to cover non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such process, method, article, or apparatus.
[0078] The embodiments described above are merely preferred embodiments of the present utility model and are not intended to limit the scope of the present utility model. Various modifications and improvements made to the technical solutions of the present utility model by those skilled in the art without departing from the spirit of the present utility model should fall within the protection scope defined by the claims of the present utility model.
Claims
1. An apparatus for laying a heating wire on a silicone cloth, characterized by: Includes a main frame (1), one end of which is equipped with a silicone cloth feeding mechanism (2) for bearing, and the other end is equipped with a bonding mechanism (3). A positioning mechanism (4) is provided in the middle, and a displacement mechanism (5) is installed on the positioning mechanism (4). A wiring mechanism (6) and a wire cutting mechanism (7) are installed on the displacement mechanism (5). A control cabinet (8) is provided on the outer side of the main frame (1).
2. The apparatus for laying a heating wire on a silicone cloth according to claim 1, wherein: The silicone cloth feeding mechanism (2) includes a first feeding shaft (21) and a first taking-up shaft (22). The silicone cloth for carrying the carrier is wound on the first feeding shaft (21), and the first taking-up shaft (22) is used to take up the release film on the silicone cloth for carrying the carrier. After the release film is taken up by the first taking-up shaft (22), the silicone cloth body for carrying the carrier moves along the positioning mechanism (4) toward the bonding mechanism (3).
3. The apparatus for laying a heating wire on a silicone cloth according to claim 2, wherein: The bonding mechanism (3) includes a second feeding shaft (31), a second taking-up shaft (32), and a hot pressing roller (33). The second feeding shaft (31) is wound with a bonding silicone cloth, and the second taking-up shaft (32) is used to take up the release film on the bonding silicone cloth. After the release film is taken up by the second taking-up shaft (32), the bonding silicone cloth body is bonded together with the carrying silicone cloth body at the hot pressing roller (33). The second feeding shaft (31) and the second receiving shaft (32) are both mounted on the main frame (1), and the hot pressing roller (33) is mounted on the positioning mechanism (4).
4. The apparatus for laying a heating wire on a silicone cloth according to claim 3, wherein: The positioning mechanism (4) includes a wiring table (41), a feeding roller (42), a suction fan (43), and a suction pipe (44). The wiring table (41) is mounted on the main frame (1) via a support frame. The feeding roller (42) is mounted at the front end of the wiring table (41). The hot pressing roller (33) is mounted at the rear end of the wiring table (41). The suction fan (43) is mounted on the main frame (1) and connected to the suction pipe (44). The suction pipe (44) is mounted at the bottom end of the wiring table (41). The carrying silicone cloth extends along the wiring table (41) towards the hot pressing roller (33) after passing through the feeding roller (42). The suction pipe (44) is used to adsorb the carrying silicone cloth body onto the wiring table (41) to complete the positioning operation of the carrying silicone cloth.
5. The apparatus for laying a heating wire on a silicone cloth according to claim 4, wherein: The displacement mechanism (5) includes a gantry bridge (51), a first servo motor (52), a first transmission gear (53), and a first gear guide rail (54); Movable plate (55), second servo motor (56), second transmission gear (57), second gear guide rail (58); Third servo motor (59), wiring cutter head (510); Two first gear guide rails (54) are provided and symmetrically installed on both sides of the wiring platform (41). The gear teeth of the first transmission gear (53) mesh with the upper rail teeth of the first gear guide rail (54). The output shaft of the first servo motor (52) is connected to the first transmission gear (53). Two first servo motors (52) are provided and symmetrically installed on both sides of the bottom end of the gantry bridge (51). The second gear guide rail (58) is mounted on the gantry bridge (51), the second gear guide rail (58) is perpendicular to the first gear guide rail (54), the gear teeth of the second transmission gear (57) mesh with the rail teeth on the second gear guide rail (58), the output shaft of the second servo motor (56) is connected to the second transmission gear (57), and the second servo motor (56) is mounted on the moving plate (55); The third servo motor (59) is mounted on the bottom end of the moving plate (55), and the wiring cutter head (510) and the output shaft of the third servo motor (59) are connected by a transmission. The control cabinet (8) is electrically connected to the first servo motor (52), the second servo motor (56), and the third servo motor (59), respectively.
6. The apparatus for laying a heating wire on a silicone cloth according to claim 5, wherein: The wiring mechanism (6) includes a third feeding shaft (61), a sliding wheel (62), a first sensor (63), a second sensor (64), a fourth servo motor (65), a transmission wheel (66), a swing nozzle (67), a fifth servo motor (68), a crank rod (69), and a pressure rod (610); The third feeding shaft (61) is installed on the top of the moving plate (55), the sliding wheel (62) is slidably connected in the vertically arranged groove at the bottom of the moving plate (55), the first sensor (63) and the second sensor (64) are both installed on the moving plate (55) and are respectively located on the upper and lower sides of the sliding wheel (62), the fourth servo motor (65) is installed at the bottom of the moving plate (55), and the transmission wheel (66) and the output shaft of the fourth servo motor (65) are connected by transmission. The swing nozzle (67) is installed at the bottom end of the wiring cutter head (510), the fifth servo motor (68) is installed on the wiring cutter head (510), one end of the crank rod (69) is connected to the output shaft of the fifth servo motor (68) and the other end is connected to the pressure rod (610). A heating wire is wound on the third feeding shaft (61). One end of the heating wire passes through the sliding wheel (62), the transmission wheel (66), and the swing nozzle (67) in sequence and is connected to the bottom end of the pressure rod (610). When the pressure rod (610) is pressed down, the bottom end of the pressure rod (610) abuts against the bearing silicone cloth. The control cabinet (8) is electrically connected to the fourth servo motor (65) and the fifth servo motor (68) respectively.
7. The apparatus for laying a heating wire on a silicon cloth according to claim 6, wherein: The wire cutting mechanism (7) includes a first electronic valve (71), a first cylinder (72), a second electronic valve (73), a second cylinder (74), and scissors (75). The first electronic valve (71), the first cylinder (72), and the second electronic valve (73) are all mounted on the wiring cutter head (510). The first electronic valve (71) is connected to the first cylinder (72), and the second electronic valve (73) is connected to the second cylinder (74). The body of the second cylinder (74) is mounted on the extension end of the first cylinder (72). The scissors (75) are mounted on the second cylinder (74). When the second cylinder (74) extends and retracts under the control of the second electronic valve (73), it drives the scissors (75) to complete the opening and closing motion. The scissors (75) are located between the swing nozzle (67) and the pressure rod (610). The control cabinet (8) is electrically connected to the first electronic valve (71) and the second electronic valve (73) respectively.
8. The apparatus for laying a heating wire on a silicone cloth according to claim 5, wherein: The movable plate (55) is also equipped with a laser (511) and a negative pressure dust removal nozzle (512). The laser (511) is used to cut positioning holes and electrode skylights on the supporting silicone cloth. The negative pressure dust removal nozzle (512) is used to remove dust from the supporting silicone cloth. The negative pressure dust removal nozzle (512) is connected to the suction fan (43).
9. The apparatus for laying a heating wire on a silicone cloth according to claim 5, wherein: An emergency stop switch is installed on the control cabinet (8).
10. The apparatus for laying a heating wire on a silicone cloth according to claim 1, wherein: A computer-controlled labeling and slicing machine (9) is provided on one side of the main frame (1), which is used to cut the silicone cloth after it has been bonded.