Tape edge sealing device

By combining a drive motor and a tension sensor with a magnetic powder clutch, the problem of unstable tape tension control in the tape sealing device was solved, achieving stable tape feeding and receiving, and improving the sealing quality.

CN224329856UActive Publication Date: 2026-06-05苏州德睿联智能装备科技有限公司

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
苏州德睿联智能装备科技有限公司
Filing Date
2025-07-24
Publication Date
2026-06-05

AI Technical Summary

Technical Problem

In the existing technology, it is difficult to control the tension of the tape during the feeding process of the tape sealing device, which causes the tape to be unable to maintain a taut state at all times, thus affecting the sealing effect.

Method used

The feeding tray is driven by a drive motor, and the belt tension is monitored in real time by a tension sensor. Combined with a magnetic powder clutch, the pull force of the take-up tray is controlled to ensure that the belt remains taut throughout the feeding process.

Benefits of technology

This technology enables stable feeding and receiving of the tape, ensuring that the tape remains taut throughout the sealing process, thus improving sealing quality and efficiency.

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Abstract

The application discloses a tape edge sealing device, which comprises a device base, a feeding mechanism, a receiving mechanism, a tension sensor and a tape pasting mechanism. The feeding mechanism comprises a feeding disc and a driving motor, the driving motor is connected with the feeding disc and drives the feeding disc to rotate. The receiving mechanism comprises a receiving disc and a magnetic powder clutch, the driving motor is connected with the input end of the magnetic powder clutch, and the receiving disc is connected with the output end of the magnetic powder clutch. The tape passes through the measuring shaft in the tension sensor. The tape pasting mechanism comprises a pasting and rolling assembly, and the tape is pasted to the side of a glass assembly through the pasting and rolling assembly after being conveyed to the pasting and rolling assembly by the feeding mechanism. The application realizes feeding by the driving motor, and the feeding is more stable. In the feeding process, the tension of the tape can be measured in real time through the tension sensor. According to the measured tension value, the driving motor actively controls the feeding speed, so that the tape always keeps in a tension state. The pulling force of the receiving disc is controlled through the magnetic powder clutch, and the receiving disc always keeps in a slipping state.
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Description

Technical Field

[0001] This application relates to the field of solar cell technology, and more particularly to a tape sealing device. Background Technology

[0002] During long-term use, solar cells may absorb moisture due to inadequate sealing at the edges. This moisture can cause problems such as corrosion of the metal grid lines and EVA delamination. To address these issues, waterproof tape is typically applied around the glass components of the solar cell to prevent moisture ingress.

[0003] Currently, sealing glass components is typically achieved automatically using a tape sealing mechanism. This mechanism is equipped with a feed tray and a take-up tray. The feed tray supplies and conveys the tape, while the take-up tray collects the release paper from the tape. However, during the development of this invention, the inventors discovered the following problem with the existing technology: it is difficult to control the tension of the tape during the feeding process, making it difficult to ensure that the tape remains taut at all times. Summary of the Invention

[0004] This application provides a tape sealing device to solve the problems existing in related technologies. The technical solution is as follows:

[0005] This application provides an adhesive tape sealing device, including:

[0006] Device base;

[0007] The feeding mechanism includes a feeding tray and a drive motor. The drive motor is fixed on the base of the device. The drive motor is connected to the feeding tray and drives the feeding tray to rotate. The roll of tape is fed through the feeding tray.

[0008] The receiving mechanism includes a receiving tray and a magnetic powder clutch. The magnetic powder clutch is mounted on the device base. The drive motor is connected to the input end of the magnetic powder clutch via a synchronous pulley and a synchronous belt. The receiving tray is connected to the output end of the magnetic powder clutch.

[0009] A tension sensor is fixed to the base of the device, and tape passes through the measuring shaft inside the tension sensor;

[0010] A tape-applying mechanism is mounted on the device base. The tape-applying mechanism includes a tape-applying roller assembly. The tape is fed to the tape-applying roller assembly by the feeding mechanism and then applied to the side of the glass assembly by the tape-applying roller assembly.

[0011] In one embodiment, the tape sealing device further includes a bending and rolling mechanism and a shearing mechanism, both of which are disposed on the device base, with the shearing mechanism located between the bending and rolling mechanism and the tape applicator.

[0012] In one embodiment, a corner sealing assembly is also installed on the base of the device. The corner sealing assembly is located between the bending and rolling mechanism and the shearing mechanism. The corner sealing assembly includes an adsorption drive and an adsorption fixing block. The adsorption drive is connected to the adsorption fixing block, and the adsorption fixing block has a vacuum suction head.

[0013] In one embodiment, the bending and rolling mechanism includes a bending and rolling drive, a bending fixing plate, and a bending and rolling assembly. The bending and rolling drive is fixed on the device base and connected to the bending fixing plate. The bending and rolling drive drives the bending fixing plate to move back and forth on the device base. The bending and rolling assembly is disposed on the bending fixing plate.

[0014] In one embodiment, the bending and rolling assembly includes two bending and rolling fixing frames and two bending and rolling rollers. The two bending and rolling fixing frames are arranged vertically and horizontally at intervals on the bending fixing plate, and the two bending and rolling rollers are rotatably connected to the two bending and rolling fixing frames respectively.

[0015] In one embodiment, the shearing mechanism includes a shearing lifting assembly and scissors, the shearing lifting assembly being connected to the scissors and driving the scissors to rise and fall.

[0016] In one embodiment, the adhesive roller assembly includes two adhesive roller fixing seats and adhesive rollers. The two adhesive roller fixing seats are arranged at a distance from each other, and the two adhesive rollers are rotatably connected to the two adhesive roller fixing seats respectively. The adhesive tape passes through the surface of the adhesive rollers. The adhesive tape applicator also includes an adhesive limiting assembly, which includes two limiting pressure plates and a pressure plate opening and closing drive. Both limiting pressure plates are connected to the pressure plate opening and closing drive, and the pressure plate opening and closing drive controls the opening and closing of the two limiting pressure plates. The two limiting pressure plates are located directly in front of the two adhesive rollers.

[0017] In one embodiment, the tape sealing device further includes a tape forming mechanism located on one side of the tape applicator. The tape forming mechanism includes a tape forming drive, a tape forming fixture, and a tape forming wheel assembly. The tape forming drive is connected to the tape forming fixture and drives the tape forming fixture to move back and forth. The tape forming wheel assembly is rotatably connected to the tape forming fixture.

[0018] In one embodiment, the tape sealing device further includes a tape rolling mechanism, and the tape forming mechanism is located between the tape rolling mechanism and the tape applicator. The tape rolling mechanism includes a tape rolling fixing seat, two tape rolling fixing frames and two tape rolling rollers. The two tape rolling fixing frames are arranged vertically on the tape rolling fixing seat, and the two tape rolling rollers are rotatably connected to the two tape rolling fixing frames respectively.

[0019] In one embodiment, a glass support assembly is mounted on the base of the device. The glass support assembly is located in front of the tape application mechanism. The glass support assembly includes a support base and support rollers, and the support rollers are rotatably connected to the support base.

[0020] The advantages or beneficial effects of the above technical solutions include at least the following:

[0021] The tape sealing device of this application includes a base, a feeding mechanism, a receiving mechanism, a tension sensor, and a tape application mechanism. A drive motor drives the feeding disc to rotate. Simultaneously, the drive motor is connected to the input end of a magnetic powder clutch via a synchronous pulley and a synchronous belt. The output end of the magnetic powder clutch is connected to the receiving disc. During feeding, the tape passes through the measuring shaft inside the tension sensor. In use, the tape sealing device feeds the tape through the feeding disc and receives the release paper from the tape through the receiving disc. This application uses a drive motor to drive the feeding, resulting in more stable feeding. During feeding, the tension sensor measures the tape tension in real time. Based on the measured tension value, the drive motor actively controls the feeding speed, ensuring the tape remains taut. The magnetic powder clutch controls the tension of the receiving disc, ensuring it remains slippery.

[0022] The above overview is for illustrative purposes only and is not intended to be limiting in any way. In addition to the illustrative aspects, embodiments, and features described above, further aspects, embodiments, and features of this application will become readily apparent from the accompanying drawings and the following detailed description. Attached Figure Description

[0023] In the accompanying drawings, unless otherwise specified, the same reference numerals throughout the various drawings denote the same or similar parts or elements. These drawings are not necessarily drawn to scale. It should be understood that these drawings depict only some embodiments disclosed in this application and should not be construed as limiting the scope of this application.

[0024] Figure 1 This is a schematic diagram of the first structure of the tape sealing device;

[0025] Figure 2 This is a schematic diagram of the second structure of the tape sealing device;

[0026] Figure 3 This is a schematic diagram of the third structure of the tape sealing device;

[0027] Figure 4 This is a structural diagram of the tape application mechanism;

[0028] Figure 5 This is a schematic diagram of the combination of the shearing mechanism and the corner sealing assembly;

[0029] Figure 6 This is a schematic diagram of the bending and rolling mechanism;

[0030] Figure 7 This is a schematic diagram of the tape forming mechanism;

[0031] Figure 8 This is a schematic diagram of the tape rolling mechanism;

[0032] Explanation of reference numerals in the attached figures:

[0033] 1. Device base; 2. Feeding mechanism; 3. Receiving mechanism; 4. Tension sensor; 5. Tape application mechanism; 21. Feeding tray; 22. Drive motor; 6. Tape; 31. Receiving tray; 32. Magnetic powder clutch; 7. Moving mechanism; 71. Moving base; 72. Moving drive cylinder; 73. Moving slide rail; 23. Reducer; 24. Motor mounting base; 25. Synchronous pulley; 26. Synchronous belt; 27. Guide shaft; 51. Adhesive rolling assembly; 511. Adhesive rolling mounting base; 512. Adhesive rolling roller; 52. Adhesive limiting assembly; 521. Limiting pressure plate; 522. Pressure plate opening and closing drive component; 8. Bending and rolling mechanism; 9. Shearing mechanism; 91. Shearing lifting assembly; 92. Scissors; 93. Connecting plate; 10. Corner sealing assembly; 101. Adsorption drive component; 102. Adsorption fixing block; 103. Vacuum suction head; 81. Bending and rolling drive component; 82. Bending fixing plate; 83. Bending and rolling assembly; 831. Bending and rolling fixing frame; 832. Bending and rolling roller; 833. Linear bearing; 834. Sliding connecting rod; 835. Spring; 11. Tape forming mechanism; 111. Tape forming drive component; 112. Tape forming fixing frame; 113. Tape forming wheel assembly; 1131. Edge sealing wheel one; 1132. Edge sealing wheel two; 1133. Edge sealing wheel three; 1134. Edge sealing wheel four; 12. Tape rolling mechanism; 121. Tape rolling fixing seat; 122. Tape rolling fixing frame; 123. Tape rolling roller; 13. Glass support assembly; 131. Support base; 132. Support roller; 14. Proximity sensor. Detailed Implementation

[0034] In the following description, only certain exemplary embodiments are briefly described. As those skilled in the art will recognize, the described embodiments can be modified in various ways without departing from the spirit or scope of this application. Therefore, the drawings and description are considered to be exemplary in nature and not restrictive.

[0035] like Figures 1 to 3 As shown in the figure, this application provides a tape sealing device, including a device base 1, a feeding mechanism 2, a receiving mechanism 3, a tension sensor 4, and a tape applicator 5. The feeding mechanism 2 includes a feeding tray 21 and a drive motor 22, the drive motor 22 being fixed to the device base 1. The drive motor 22 is connected to the feeding tray 21 and drives the feeding tray 21 to rotate, feeding the rolled tape 6 through the feeding tray 21. The receiving mechanism 3 includes a receiving tray 31 and a magnetic powder clutch 32, the magnetic powder clutch 32 being disposed on the device base 1. The drive motor 22 is connected to the input end of the magnetic powder clutch 32 via a synchronous pulley 25 and a synchronous belt 26, and the receiving tray 31 is connected to the output end of the magnetic powder clutch 32. The tension sensor 4 is fixed to the device base 1, and the tape 6 passes through the measuring shaft inside the tension sensor 4. The tape application mechanism 5 is mounted on the device base 1. The tape application mechanism 5 includes a bonding roller assembly 51. The tape 6 is fed to the bonding roller assembly 51 by the feeding mechanism and then bonded to the side of the glass assembly by the bonding roller assembly 51.

[0036] The tape sealing device of this application embodiment includes a device base 1, a feeding mechanism 2, a receiving mechanism 3, a tension sensor 4, and a tape application mechanism 5. A drive motor 22 drives the feeding tray 21 to rotate. Simultaneously, the drive motor 22 is connected to the input end of a magnetic powder clutch 32 via a synchronous pulley 25 and a synchronous belt 26. The output end of the magnetic powder clutch 32 is connected to the receiving tray 31. During feeding, the tape 6 passes through the measuring shaft inside the tension sensor 4. In use, the tape sealing device feeds the tape 6 through the feeding tray 21 and receives the release paper from the tape 6 through the receiving tray 31. This application uses the drive motor 22 to drive the feeding, resulting in more stable feeding. During feeding, the tension of the tape 6 can be measured in real time by the tension sensor 4. Based on the measured tension value, the drive motor 22 actively controls the feeding speed, ensuring that the tape 6 remains taut. The magnetic powder clutch 32 controls the tension of the receiving tray 31, ensuring that the receiving tray 31 is always in a slippery state.

[0037] In one embodiment, the tape sealing device further includes a moving mechanism 7, which includes a moving base 71 and a moving drive assembly. The moving drive assembly is fixed to the device base 1 and connected to the moving base 71. The moving drive assembly drives the moving base 71 to move back and forth on the device base 1.

[0038] Specifically, the moving drive assembly includes a moving drive cylinder 72 and three moving slide rails 73. Both the moving drive cylinder 72 and the three moving slide rails 73 are bolted to the device base 1, and the three moving slide rails 73 are spaced apart along the width direction of the device base 1. A floating joint is bolted to the piston rod of the moving drive cylinder 72, and the floating joint is bolted to the moving base 71. The moving base 71 is slidably connected to the three moving slide rails 73 via a slider. The moving drive cylinder 72 can push the moving base 71 to move along the moving slide rails 73.

[0039] Tension sensor 4 is fixed to the movable base 71 by bolts; this tension sensor 4 can be existing technology. Feeding mechanism 2 and receiving mechanism 3 are also mounted on the movable base 71. When the movable base 71 moves, it simultaneously drives tension sensor 4, feeding mechanism 2, and receiving mechanism 3 to move. The drive motor 22 is a servo motor. A reducer 23 is connected to the output end of the drive motor 22, and the reducer 23 is fixed to the movable base 71 by a motor mounting bracket 24 and bolts. The output end of the reducer 23 can be connected to the center of the feeding disc 21 via a coupling, etc. The synchronous pulley 25 can be sleeved on the output end of the reducer 23 and fixed by screws, etc. After the drive motor 22 starts, it drives the feeding disc 21 to rotate via the reducer 23, and simultaneously drives the synchronous pulley 25 to rotate.

[0040] To enable the connection between the drive motor 22 and the input end of the magnetic powder clutch 32, a synchronous pulley 25 is also connected to the input end of the magnetic powder clutch 32. Specifically, the input end of the magnetic powder clutch 32 is connected to the center of the synchronous pulley 25, and then the two synchronous pulleys 25 are connected by a synchronous belt 26. After the drive motor 22 starts, the drive motor 22 drives the two synchronous pulleys 25 to rotate simultaneously via the synchronous belt 26. The synchronous pulleys 25 drive the magnetic powder clutch 32 to rotate, which in turn drives the take-up tray 31 to rotate. The roll of adhesive tape 6 is sleeved on the feed tray 21. When the feed tray 21 rotates, the adhesive tape 6 is conveyed, and the release paper on the adhesive tape 6 is collected by the take-up tray 31. In this embodiment, the adhesive tape 6 can be aluminum foil tape or other waterproof tape.

[0041] In one embodiment, to facilitate the conveying of the tape 6, three guide shafts 27 are bolted to the movable base 71. One end of the tape 6 on the feed tray 21 first passes through the measuring shaft inside the tension sensor 4, and then through the first and second guide shafts 27. After the tape 6 passes through the second guide shaft 27, it separates from the release paper. One end of the tape 6 passes through the second and third guide shafts 27 and reaches the tape application mechanism 5, while the other end of the release paper is directly fixed to the take-up tray 31. Therefore, as the drive motor 22 rotates the feed tray 21 and the take-up tray 31, after the tape 6 passes through the second guide shaft 27, the release paper separates from the tape 6 and wraps around the take-up tray 31. The tape 6 after the release paper is removed is then conveyed to the tape application mechanism 5. A proximity sensor 14 can also be provided on one side of the second guide shaft 27 to detect whether the tape 6 is on the guide shaft 27.

[0042] In one embodiment, such as Figure 3 , Figure 4 As shown, the tape application mechanism 5 is also fixed to the movable base 71. To enable the tape application 6 operation, the adhesive roller assembly 51 includes two adhesive roller fixing seats 511 and adhesive rollers 512. The two adhesive roller fixing seats 511 are arranged at intervals relative to each other, and both adhesive roller fixing seats 511 can be fixed to the movable base 71 by bolts. The two adhesive rollers 512 are rotatably connected to the two adhesive roller fixing seats 511 respectively; specifically, the adhesive rollers 512 can be rotatably connected to the adhesive roller fixing seats 511 via a rotating shaft. The tape 6 passes through the surface of the adhesive rollers 512.

[0043] Furthermore, the tape application mechanism 5 also includes an adhesive limiting component 52, which includes two limiting pressure plates 521 and a pressure plate opening and closing drive component 522. Both limiting pressure plates 521 are connected to the pressure plate opening and closing drive component 522, which controls the opening and closing of the two limiting pressure plates 521. The two limiting pressure plates 521 are located directly in front of the two adhesive rollers 512. The pressure plate opening and closing drive component 522 can be a finger cylinder. The pressure plate opening and closing drive component 522 is fixed to the movable base 71 by bolts.

[0044] When applying tape 6 to the glass assembly, a gap is maintained between the two limiting pressure plates 521 to allow the glass assembly to pass through. One side of the glass assembly passes through the gap between the two limiting pressure plates 521, and during the passage, the tape 6 is applied to the side of the glass assembly by the adhesive roller 512.

[0045] In one embodiment, such as Figure 1As shown, the tape sealing device also includes a bending and rolling mechanism 8 and a shearing mechanism 9. The bending and rolling mechanism 8 and the shearing mechanism 9 are both disposed on the device base 1, and the shearing mechanism 9 is located between the bending and rolling mechanism 8 and the tape applicator 5.

[0046] Specifically, such as Figure 5 As shown, the shearing mechanism 9 includes a shearing lifting assembly 91 and scissors 92. The shearing lifting assembly 91 is connected to the scissors 92, and the shearing lifting assembly 91 drives the scissors 92 to rise and fall. The shearing lifting assembly 91 is fixed to the device base 1 by bolts, and the shearing lifting assembly 91 is connected to the scissors 92 through a connecting plate 93. The shearing lifting assembly 91 is a cylinder, which drives the scissors 92 to rise and fall. The scissors 92 can be pneumatic scissors 92, which can cut the tape 6.

[0047] like Figure 1 , Figure 5 As shown, a corner sealing assembly 10 is also provided between the shearing mechanism 9 and the bending and rolling mechanism 8. The corner sealing assembly 10 includes an adsorption drive component 101 and an adsorption fixing block 102. The adsorption drive component 101 is fixed to the device base 1 by bolts, and the adsorption drive component 101 is connected to the adsorption fixing block 102. The adsorption fixing block 102 has a vacuum suction head 103. Preferably, the adsorption drive component 101 is a cylinder. The vacuum suction head 103 can adsorb the tape 6 through vacuum adsorption.

[0048] Before the tape 6 is applied to the glass assembly, one end of the tape 6 passes through the tape application mechanism 5 and reaches the vacuum nozzle 103. After the glass assembly reaches the tape application mechanism 5, the vacuum nozzle 103 picks up the tape 6, and the suction drive 101 drives the suction fixing block 102 to move forward, thereby sticking the tape end of the tape 6 between the vacuum nozzle 103 and the tape application mechanism 5 to the front side of the glass assembly, realizing the application of tape 6 at the corner between the two sides of the glass assembly. After the tape application mechanism 5 applies the tape 6 to the side of the glass assembly, the vacuum nozzle 103 picks up the tape 6, and the tape 6 is cut by the scissors 92. Then, the corner sealing assembly 10 sticks the tape end of the tape 6 to the rear side of the glass assembly.

[0049] like Figure 3 , Figure 6 As shown, the bending and rolling mechanism 8 includes a bending and rolling drive component 81, a bending fixing plate 82, and a bending and rolling assembly 83. The bending and rolling drive component 81 is fixed to the device base 1. Specifically, the bending and rolling drive component 81 can be fixed to the device base 1 by the fixing plate and bolts. The bending and rolling drive component 81 is a cylinder.

[0050] The bending and rolling drive component 81 is connected to the bending fixing plate 82, and the bending and rolling drive component 81 drives the bending fixing plate 82 to move back and forth on the device base 1. The bending and rolling assembly 83 is disposed on the bending fixing plate 82.

[0051] The bending and rolling assembly 83 includes two bending and rolling fixing frames 831 and two bending and rolling rollers 832. The two bending and rolling fixing frames 831 are arranged vertically and horizontally on the bending fixing plate 82, and the two bending and rolling rollers 832 are rotatably connected to the two bending and rolling fixing frames 831 respectively through a rotating shaft.

[0052] To ensure that the two bending and rolling rollers 832 fit snugly against the glass assembly, the bending and rolling fixing frame 831 and the bending fixing plate 82 can be elastically floated vertically. Specifically, a linear bearing 833 can be provided on the bending fixing plate 82, a sliding connecting rod 834 can be inserted into the linear bearing 833, and a spring 835 can be sleeved on the sliding connecting rod 834. One end of the spring 835 is connected to the bending and rolling fixing frame 831, and the other end of the spring 835 is connected to the bending fixing plate 82.

[0053] After the glass assembly passes through the tape applicator 5 and the tape 6 is attached to the side of the glass assembly, the glass assembly continues to be conveyed forward. After the front or rear end of the glass assembly reaches the bending and rolling mechanism 8, the bending and rolling drive 81 drives the bending and rolling assembly 83 to move forward, so that the front or rear end of the glass assembly is placed between two bending and rolling rollers 832, and the tape 6 is rolled by the bending and rolling rollers 832.

[0054] In one embodiment, such as Figure 1 , Figure 3 and Figure 7 As shown, the tape sealing device further includes a tape forming mechanism 11, which is located on one side of the bending and rolling mechanism 8. The tape forming mechanism 11 includes a tape forming drive component 111, a tape forming fixing frame 112, and a tape forming wheel assembly 113. The tape forming drive component 111 is fixed to the device base 1 by bolts and is a cylinder. The tape forming drive component 111 is connected to the tape forming fixing frame 112, and drives the tape forming fixing frame 112 to move back and forth. The tape forming wheel assembly 113 is rotatably connected to the tape forming fixing frame 112.

[0055] Specifically, the tape forming wheel assembly 113 includes a first sealing wheel 1131, a second sealing wheel 1132, a third sealing wheel 1133, and a fourth sealing wheel 1134. The first sealing wheel 1131, the second sealing wheel 1132, the third sealing wheel 1133, and the fourth sealing wheel 1134 are all rotatably connected to the tape forming fixing frame 112 via rotating shafts.

[0056] As the glass assembly passes through the tape forming mechanism 11, the side of the glass assembly sequentially comes into contact with the sealing rollers 1131, 1132, 1133, and 1134, thereby shaping the tape 6 on the side of the glass assembly into a "C" shape, so that the tape 6 adheres to the upper and lower sides of the glass assembly. The structure of the sealing rollers 1131, 1132, 1133, and 1134 in this embodiment can be the same as the structure of the sealing rollers on existing tape 6 sealing mechanisms.

[0057] In one embodiment, such as Figure 1 , Figure 8 As shown, the tape sealing device further includes a tape rolling mechanism 12, and the tape forming mechanism 11 is located between the tape rolling mechanism 12 and the bending rolling mechanism 8. The tape rolling mechanism 12 includes a tape rolling fixing seat 121, two tape rolling fixing frames 122, and two tape rolling rollers 123. The two tape rolling fixing frames 122 are arranged vertically on the tape rolling fixing seat 121, and the two tape rolling rollers 123 are rotatably connected to the two tape rolling fixing frames 122 through rotating shafts.

[0058] Specifically, the tape rolling fixing seat 121 is fixed to the device base 1 by bolts, and the tape rolling fixing frame 122 and the tape rolling fixing seat 121 are also elastically floating vertically, which is the same as the way the bending rolling fixing frame 831 and the bending fixing plate 82 are elastically floating vertically, and will not be described again here.

[0059] After the tape 6 is shaped on the glass assembly, the glass assembly continues to move forward. Then the glass assembly moves between the two tape rolling rollers 123 and rolls the tape 6 through the two tape rolling rollers 123, so that the tape 6 is more firmly attached to the glass assembly.

[0060] In one embodiment, such as Figure 1 , Figure 3 As shown, a glass support assembly 13 is mounted on the base 1 of the device, and the glass support assembly 13 is located in front of the adhesive tape applicator 5. The glass support assembly 13 includes a support base 131 and support rollers 132, and the support rollers 132 are rotatably connected to the support base 131 via a rotating shaft. Preferably, there are two glass support assemblies 13, which are arranged along the direction of movement of the glass assembly. During the movement of the glass assembly, it is supported by the support rollers 132.

[0061] In the description of this specification, the references to terms such as "one embodiment," "some embodiments," "example," "specific example," or "some examples," etc., indicate that a specific feature, structure, material, or characteristic described in connection with that embodiment or example is included in at least one embodiment or example of this application. Furthermore, the specific features, structures, materials, or characteristics described may be combined in any suitable manner in one or more embodiments or examples. Moreover, without contradiction, those skilled in the art can combine and integrate the different embodiments or examples described in this specification, as well as the features of those different embodiments or examples.

[0062] Furthermore, the terms "first" and "second" are used for descriptive purposes only and should not be construed as indicating or implying relative importance or implicitly specifying the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one of that feature. In the description of this application, "a plurality of" means two or more, unless otherwise explicitly specified.

[0063] The above description is merely a specific embodiment of this application, but the scope of protection of this application is not limited thereto. Any person skilled in the art can easily conceive of various variations or substitutions within the technical scope disclosed in this application, and these should all be included within the scope of protection of this application. Therefore, the scope of protection of this application should be determined by the scope of the claims.

Claims

1. A tape sealing device, characterized in that, include: Device base; The feeding mechanism includes a feeding tray and a drive motor. The drive motor is fixed on the base of the device. The drive motor is connected to the feeding tray and drives the feeding tray to rotate. The roll of tape is fed through the feeding tray. The receiving mechanism includes a receiving tray and a magnetic powder clutch. The magnetic powder clutch is mounted on the device base. The drive motor is connected to the input end of the magnetic powder clutch via a synchronous pulley and a synchronous belt. The receiving tray is connected to the output end of the magnetic powder clutch. A tension sensor is fixed to the base of the device, and tape passes through the measuring shaft inside the tension sensor; A tape-applying mechanism is mounted on the device base. The tape-applying mechanism includes a tape-applying roller assembly. The tape is fed to the tape-applying roller assembly by the feeding mechanism and then applied to the side of the glass assembly by the tape-applying roller assembly.

2. The tape sealing device according to claim 1, characterized in that, The tape sealing device also includes a bending and rolling mechanism and a shearing mechanism. Both the bending and rolling mechanism and the shearing mechanism are mounted on the device base, with the shearing mechanism located between the bending and rolling mechanism and the tape applicator.

3. The tape sealing device according to claim 2, characterized in that, The device base is also equipped with a corner sealing assembly, which is located between the bending and rolling mechanism and the shearing mechanism. The corner sealing assembly includes an adsorption drive and an adsorption fixing block. The adsorption drive is connected to the adsorption fixing block, and the adsorption fixing block has a vacuum suction head.

4. The tape sealing device according to claim 2, characterized in that, The bending and rolling mechanism includes a bending and rolling drive, a bending fixing plate, and a bending and rolling assembly. The bending and rolling drive is fixed on the device base and connected to the bending fixing plate. The bending and rolling drive drives the bending fixing plate to move back and forth on the device base. The bending and rolling assembly is disposed on the bending fixing plate.

5. The tape sealing device according to claim 4, characterized in that, The bending and rolling assembly includes two bending and rolling fixing frames and two bending and rolling rollers. The two bending and rolling fixing frames are arranged vertically and horizontally at intervals on the bending fixing plate, and the two bending and rolling rollers are rotatably connected to the two bending and rolling fixing frames respectively.

6. The tape sealing device according to claim 2, characterized in that, The shearing mechanism includes a shearing lifting assembly and scissors. The shearing lifting assembly is connected to the scissors, and the shearing lifting assembly drives the scissors to rise and fall.

7. The tape sealing device according to any one of claims 1 to 6, characterized in that, The adhesive roller assembly includes two adhesive roller fixing seats and adhesive rollers. The two adhesive roller fixing seats are arranged at a distance from each other, and the two adhesive rollers are rotatably connected to the two adhesive roller fixing seats respectively. The adhesive tape passes through the surface of the adhesive rollers. The adhesive tape applicator also includes an adhesive limiting assembly, which includes two limiting pressure plates and a pressure plate opening and closing drive. Both limiting pressure plates are connected to the pressure plate opening and closing drive, and the pressure plate opening and closing drive controls the opening and closing of the two limiting pressure plates. The two limiting pressure plates are located directly in front of the two adhesive rollers.

8. The tape sealing device according to any one of claims 1 to 6, characterized in that, The tape sealing device further includes a tape forming mechanism, which is located on one side of the tape applicator. The tape forming mechanism includes a tape forming drive, a tape forming fixture, and a tape forming wheel assembly. The tape forming drive is connected to the tape forming fixture and drives the tape forming fixture to move back and forth. The tape forming wheel assembly is rotatably connected to the tape forming fixture.

9. The tape sealing device according to claim 8, characterized in that, The tape sealing device further includes a tape rolling mechanism. The tape forming mechanism is located between the tape rolling mechanism and the tape applicator. The tape rolling mechanism includes a tape rolling fixing base, two tape rolling fixing frames, and two tape rolling rollers. The two tape rolling fixing frames are arranged vertically on the tape rolling fixing base, and the two tape rolling rollers are rotatably connected to the two tape rolling fixing frames respectively.

10. The tape sealing device according to any one of claims 1 to 6, characterized in that, A glass support assembly is mounted on the base of the device. The glass support assembly is located in front of the tape application mechanism. The glass support assembly includes a support base and support rollers, and the support rollers are rotatably connected to the support base.