A hand-automatic integrated tape winding device and temperature sensor tape winding machine
By using a manual-automatic integrated winding device, which utilizes the cooperation between an electromagnetic clutch and a gear ring, manual and automatic modes can be switched, solving the problem of the winding machine being unable to wind or unwind when the motor fails, and ensuring the real-time performance and efficiency of the temperature sensor strip.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- REYDER (SHANGHAI) ROBOT TECH CO LTD
- Filing Date
- 2025-09-03
- Publication Date
- 2026-07-14
Smart Images

Figure CN224493336U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of tape winding device technology, specifically a manual and automatic integrated tape winding device and a temperature sensor strip winding machine. Background Technology
[0002] Temperature sensor strips can be distributed to measure the temperature at multiple points. By extending and retracting the temperature sensor strips, the temperature at each location can be measured adaptively, which can enhance the monitoring of point temperature and further improve the accuracy of temperature monitoring.
[0003] In existing technologies, a tape winding machine is typically used to wind and unwind temperature sensor strips. A motor drives gears to rotate, which in turn rotates a pulley to wind and unwind the temperature sensor strip. However, while existing tape winding machines can automatically wind and unwind the temperature sensor strip via a motor, if the motor malfunctions or there is no power supply, the pulley cannot rotate, thus preventing the sensor strip from being wound and unwound. This affects the real-time acquisition of temperature data, reduces the real-time performance of temperature monitoring, and impacts the efficiency of temperature sensor operation. Utility Model Content
[0004] Given that existing technologies only offer automatic drive, when the motor malfunctions or loses power, the sensor strip cannot be wound or unwound, affecting the real-time acquisition of temperature data and the efficiency of the temperature sensor operation. This invention provides a manual / automatic integrated winding device that allows for free switching between manual and automatic modes, ensuring that the winding and unwinding can still be done manually even in the event of a motor failure.
[0005] This utility model provides a manual and automatic integrated tape winding device, including two hollow mounting bases, a rotating mechanism installed between the two hollow mounting bases, and a tape winding placement mechanism installed outside the rotating mechanism, wherein the tape winding placement mechanism is disposed between the two hollow mounting bases.
[0006] The rotating mechanism includes: a rotating shaft rotatably mounted between the two hollow mounting seats; a motor mounted on either of the hollow mounting seats; an electromagnetic clutch mounted in the cavity of the hollow mounting seat and coaxially with the output shaft of the motor; a gear ring fixedly mounted to the rotating shaft; a manual lever mounted on the hollow mounting seat; and a bevel gear disposed at the bottom end of the manual lever and meshing with the gear ring; the gear ring is disposed outside the electromagnetic clutch, and the on / off state of the electromagnetic clutch controls the switching between manual and automatic modes.
[0007] Furthermore, a rotating bearing is provided inside the cavity of both hollow mounting bases; the rotating shaft is rotatably connected to the hollow mounting base through the rotating bearing.
[0008] Furthermore, when the electromagnetic clutch is engaged, the gear ring is attracted to the electromagnetic clutch, the motor drives the gear ring to rotate coaxially, and the tape placement mechanism rotates.
[0009] When the electromagnetic clutch is disengaged, the gear ring separates from the electromagnetic clutch. When the manual lever is rotated manually, the bevel gear drives the gear ring to rotate, and the tape placement mechanism rotates.
[0010] Furthermore, the tape placement mechanism includes: two fixed baffles mounted on the rotating shaft, and a circular placement ring mounted between the two fixed baffles, with the two fixed baffles protruding from the circular placement ring, and the tape wound onto the circular placement ring.
[0011] This utility model also provides a temperature sensor strip winding machine, including: an openable housing, a plurality of mounting brackets installed in the housing, a manual and automatic integrated winding device installed on the plurality of mounting brackets, and a lower unit installed at the center of the housing, wherein the mounting brackets are fixedly installed with the hollow mounting base.
[0012] Furthermore, a temperature sensor strip is wound onto the circular placement ring.
[0013] Furthermore, the lower-level machine is a detachable component, and it is used to receive temperature data from several temperature sensor strips, power the temperature sensor strips, and control the rotation of the motor.
[0014] Furthermore, a conductive slip ring for powering the temperature sensor strip and transmitting detection data is installed at the axial center of the end of the rotating shaft, and the conductive slip ring is electrically connected to the lower-level machine.
[0015] Furthermore, the housing is provided with several threading holes for the temperature sensor strip to pass through.
[0016] Furthermore, the upper side of the box is provided with a through hole for a manual lever.
[0017] Compared with the prior art, the beneficial effects of this utility model are:
[0018] This utility model patent utilizes a manual / automatic switching component to freely switch between manual and automatic modes for winding and unwinding the tape mounted on the tape placement mechanism. This enhances the device's practicality and ensures that if the automatic mode malfunctions, the tape winding and unwinding can be performed manually, guaranteeing timely operation. The switching between automatic and manual modes is controlled by manipulating the engagement and disengagement of the electromagnetic clutch and the gear ring. When the electromagnetic clutch is engaged with the gear ring, the central turntable rotates synchronously with the gear ring, thus driving the tape placement mechanism via a motor for automatic winding and unwinding. When the electromagnetic clutch is disengaged, the gear ring and the electromagnetic clutch operate independently. Rotating the manual lever at this time drives the tape placement mechanism through the meshing of the bevel gear and the gear ring, allowing for manual winding and unwinding. This switching between automatic and manual modes further enhances the controllability of the device and ensures its operational efficiency.
[0019] It should be understood that the description in this utility model description section is not intended to limit the key or essential features of the embodiments of this utility model, nor is it intended to restrict the scope of this utility model. Other features of this utility model will become readily apparent from the following description. Attached Figure Description
[0020] The present invention will now be described in further detail with reference to the accompanying drawings and specific embodiments.
[0021] Figure 1 This is a structural diagram of a manual / automatic integrated tape winding device.
[0022] Figure 2 This is a first-person view structural diagram of the rotating mechanism.
[0023] Figure 3 This is a second-view structural diagram of the rotating mechanism.
[0024] Figure 4 This is a cross-sectional view of the rotating mechanism.
[0025] Figure 5 This is a structural diagram of a temperature sensor strip winding machine.
[0026] Figure 6 This is a diagram of the internal structure of a temperature sensor strip winding machine.
[0027] Figure 7 This is a diagram of the external structure of a temperature sensor strip winding machine.
[0028] The diagram is labeled as follows: 1. Manual / Automatic Integrated Tape Winding Device; 11. Hollow Mounting Base; 12. Rotating Mechanism; 121. Rotating Shaft; 122. Motor; 125. Gear Ring; 126. Manual Lever; 127. Bevel Gear; 128. Electromagnetic Clutch; 129. Rotating Bearing; 1210. Conductive Slip Ring.
[0029] 13. Tape placement mechanism; 131. Fixed baffle; 132. Circular placement ring;
[0030] 2. Housing; 21. Strap hole; 22. Rod hole; 3. Mounting bracket; 4. Lower computer. Detailed Implementation
[0031] The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic diagrams, illustrating only the basic structure of the present invention, and therefore only show the components relevant to the present invention.
[0032] It should be noted that when a component is referred to as being "fixed to" or "set on" another component, it can be directly on or indirectly set on the other component; when a component is referred to as being "connected to" another component, it can be directly connected to or indirectly connected to the other component.
[0033] It should be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", and "outer" indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. They are only for the convenience of describing this application and simplifying the description, and do not indicate or imply that the device or component referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on this application.
[0034] Please refer to Figures 1 to 7 This utility model provides a manual and automatic integrated tape winding device, including two hollow mounting bases 11, a rotating mechanism 12 installed between the two hollow mounting bases 11, and a tape winding placement mechanism 13 installed outside the rotating mechanism 12. The tape winding placement mechanism 13 is disposed between the two hollow mounting bases 11.
[0035] In this embodiment, when the rotating mechanism 12 rotates, it drives the tape placement mechanism 13 to rotate synchronously, thereby causing the tape on the tape placement mechanism 13 to rotate synchronously and loosen. The length and speed of tape loosening are controlled by the rotation speed and number of rotations of the rotating mechanism 12, so that the tape can be loosened or retracted in an adaptive manner, improving the practical performance of the device.
[0036] like Figures 1-4As shown, the rotating mechanism 12 includes: a rotating shaft 121 rotatably mounted between two hollow mounting seats 11; a motor 122 mounted on either hollow mounting seat 11; an electromagnetic clutch 128 mounted in the cavity of the hollow mounting seat 11 and coaxially mounted with the output shaft of the motor 122; a gear ring 125 fixedly mounted with the rotating shaft 121; a manual lever 126 mounted on the hollow mounting seat 11; and a bevel gear 127 disposed at the bottom end of the manual lever 126 and meshing with the gear ring 125; the gear ring 125 is disposed outside the electromagnetic clutch 128, and the on / off state of the electromagnetic clutch 128 is used to control the switching between manual and automatic modes.
[0037] Furthermore, each of the two hollow mounting bases 11 is provided with a rotating bearing 129, and the rotating shaft 121 is rotatably connected to the hollow mounting base 11 through the rotating bearing 129.
[0038] This embodiment uses a manual / automatic switching component to freely switch between manual and automatic modes for winding and unwinding the tape mounted on the tape placement mechanism 13, enhancing the practicality of the device and ensuring that if the automatic mode malfunctions, the tape winding and unwinding can be performed manually, guaranteeing the timeliness of tape winding and unwinding. The switching between automatic and manual modes is controlled by controlling the engagement or disengagement of the electromagnetic clutch 128 and the gear ring 125. When the electromagnetic clutch 128 is engaged with the gear ring 125, the electromagnetic clutch 128 and the gear ring 125... 5. With synchronous rotation, the tape placement mechanism 13 can be driven to rotate by the motor 122, thereby automatically winding and unwinding the tape. When the electromagnetic clutch 128 is disengaged from the gear ring 125, the electromagnetic clutch 128 and the gear ring 125 are in a state of independent operation. At this time, rotating the manual lever 126 drives the tape placement mechanism 13 to rotate through the meshing of the bevel gear 127 and the gear ring 125, thereby manually winding and unwinding the tape. The switching between automatic and manual modes further enhances the controllability of the device and ensures the operating efficiency of the device.
[0039] In this embodiment, the rotation of the rotating shaft 121 can be controlled manually or automatically, thereby controlling the rotation of the tape placement mechanism 13. The manual / automatic component achieves manual and automatic switching through the cooperation of the electromagnetic clutch 128 and the magnetic coil 124. When the motor 122 fails and cannot automatically control the rotation of the tape placement mechanism 13, the rotation of the tape placement mechanism 13 can be manually controlled, so that the tape can be adapted to be wound and unwound, thus enhancing the practicality of the device.
[0040] To further explain, one end of the rotating shaft 121 is fixedly installed with the gear ring 125 inside the cavity of the hollow mounting seat 11 on one side, and the other end of the rotating shaft 121 is installed inside the rotating bearing 129 inside the cavity of the hollow mounting seat 11 on the other side. When the rotating mechanism 12 rotates, the rotating shaft 121 can rotate freely and synchronously with the rotating mechanism 12 between the two hollow mounting seats 11. The tape placement mechanism 13 is fixedly installed with the rotating shaft 121 by screws. Therefore, when the rotating shaft 121 rotates, the tape placement mechanism 13 rotates synchronously.
[0041] To further explain, when the electromagnetic clutch 128 is engaged, the gear ring 125 is attracted to the electromagnetic clutch 128, and the motor 122 drives the gear ring 125 to rotate coaxially, causing the tape winding and placing mechanism 13 to rotate; when the electromagnetic clutch 128 is disengaged, the gear ring 125 is separated from the electromagnetic clutch 128, and the manual lever 126 is manually rotated, causing the bevel gear 127 to drive the gear ring 125 to rotate, causing the tape winding and placing mechanism 13 to rotate.
[0042] To further explain, when it is necessary to automatically control the rotation of the tape placement mechanism 13, the electromagnetic clutch 128 is engaged, causing the electromagnetic clutch 128 to engage with the gear ring 125. At this time, the electromagnetic clutch 128 and the gear ring 125 rotate synchronously. The motor 122 is started, causing the electromagnetic clutch 128, which is coaxially mounted with the output shaft of the motor 122, to rotate, driving the magnetic gear ring 125 to rotate. Furthermore, through the setting of the rotating bearing 129, both the gear ring 125 and the electromagnetic clutch 128 can rotate within the cavity of the hollow mounting base 11, thereby rotating the rotating shaft 12. The tape placement mechanism 13 rotates accordingly to control the winding and unwinding of the tape. In summary, the tape on the tape placement mechanism 13 can be adaptively wound and unwound in automatic mode.
[0043] When it is necessary to manually control the rotation of the tape placement mechanism 13, the electromagnetic clutch 128 is disengaged, so that the electromagnetic clutch 128 and the gear ring 125 are separated. At this time, the gear ring 125 and the electromagnetic clutch 128 are in a state of not affecting each other. Manually rotate the manual lever 126, and the bevel gear 127 located at the end of the manual lever 126 rotates accordingly, and drives the gear ring 125 meshing with it to rotate synchronously. The rotating shaft 121 rotates accordingly, so that the tape placement mechanism 13 rotates synchronously. In summary, the tape on the tape placement mechanism 13 can be adapted to be wound and unwound in manual mode.
[0044] like Figure 1 As shown, the tape placement mechanism 13 includes: two fixed baffles 131 mounted on the rotating shaft 121, and a circular placement ring 132 mounted between the two fixed baffles 131. The two fixed baffles 131 protrude from the circular placement ring 132, and the tape is wound onto the circular placement ring 132.
[0045] In this embodiment, the two fixed baffles 131 can ensure the rotation of the tape on the circular placement ring 132. The two fixed baffles 131 block both ends of the tape, so that the tape will not fall off due to the rotation of the circular placement ring 132, thus ensuring the stability of the tape during winding and unwinding.
[0046] like Figures 1 to 7 As shown, the present invention also provides a temperature sensor strip winding machine, including an openable housing 2, a plurality of mounting brackets 3 installed in the housing 2, the aforementioned manual and automatic integrated winding device 1 installed on the plurality of mounting brackets 3, and a lower unit 4 installed at the center position inside the housing 2, wherein the mounting brackets 3 are fixedly installed with the hollow mounting base 11.
[0047] To further explain, a temperature sensor strip is wound onto the circular placement ring 132.
[0048] In this embodiment, several manual / automatic integrated winding devices 1 are mounted on the mounting bracket 3. The operation of these devices controls the winding and unwinding of the temperature sensor strip wound on them, allowing the strip to be wound to an appropriate length and position for real-time multi-point temperature monitoring. The electromagnetic clutch 128 within the device enables switching between manual and automatic modes, ensuring that if the motor 122 malfunctions and cannot automatically wind and unwind the temperature sensor strip, the automatic mode can be used. Since the temperature sensor needs to reach a specific location at a specific time for temperature monitoring, the winding and unwinding of the temperature sensor strip is time-sensitive. The manual / automatic integrated winding device 1 satisfies this timeliness requirement, ensuring the strip can be adapted and wound to the designated location on time for temperature monitoring.
[0049] To further clarify, the lower-level machine 4 is a detachable component. The lower-level machine 4 is used to collect temperature data from several temperature sensor strips and control the rotation of motor 122.
[0050] Furthermore, a conductive slip ring 1210 for powering the temperature sensor strip and transmitting detection data is installed at the axial center of the end of the rotating shaft 121.
[0051] In this embodiment, the lower-level machine 4 is the processing unit of the temperature sensor, which can analyze and process the temperature data collected by the temperature sensor strip and display it on the screen on its upper surface. In addition, the lower-level machine 4 also supplies power to the motor 122 and the temperature sensor strip, and can control the rotation speed of the motor 122, thereby controlling the winding and unwinding speed of the temperature sensor strip.
[0052] Furthermore, the lower-level machine 4 is a detachable component and can be removed from the housing 2. After removal, the lower-level machine 4 can be used independently as a sensor tester.
[0053] To further explain, the conductive slip ring 1210 serves as the central transmission tool, used to transmit energy between the temperature sensor and the motor 122, and to transmit the temperature sensor's collected data to the lower-level machine 4. The conductive slip ring 1210 prevents twisting or winding of the wire.
[0054] Furthermore, the housing 2 is provided with several threading holes 21 for the temperature sensor strip to pass through; the temperature sensor strip passes through the threading holes 21 to the outside of the housing, and is extended to the position to be detected by the operation of the manual and automatic integrated winding device 1.
[0055] Furthermore, the upper side of the housing 2 is provided with a through hole 22 for the manual lever 126. The manual lever 126 can pass through the through hole 22, so the manual lever 126 can be rotated outside the housing 2 to achieve manual control of the manual-automatic integrated winding device 1, further enhancing the convenience of the winding machine.
[0056] Furthermore, the upper side of the housing 2 is provided with an observation window adapted to the upper surface of the lower computer 4. The staff can read the screen on the upper surface of the lower computer 4 through the observation window, which facilitates the staff to monitor the detected temperature data in real time.
[0057] It should be understood that the specific embodiments described above are only for explaining the present invention and are not intended to limit the present invention. Obvious variations or modifications derived from the spirit of the present invention are still within the protection scope of the present invention.
Claims
1. A manual / automatic integrated tape winding device, characterized in that, It includes two hollow mounting bases (11), a rotating mechanism (12) that passes through and is installed between the two hollow mounting bases (11), and a tape placement mechanism (13) installed on the outside of the rotating mechanism (12), wherein the tape placement mechanism (13) is disposed between the two hollow mounting bases (11); The rotating mechanism (12) includes: a rotating shaft (121) rotatably mounted between the two hollow mounting seats (11), a motor (122) mounted on any of the hollow mounting seats (11), an electromagnetic clutch (128) mounted in the cavity of the hollow mounting seat (11) and coaxially mounted with the output shaft of the motor (122), a gear ring (125) fixedly mounted with the rotating shaft (121), a manual lever (126) mounted on the hollow mounting seat (11), and a bevel gear (127) disposed at the bottom end of the manual lever (126) and meshing with the gear ring (125); the gear ring (125) is disposed on the outside of the electromagnetic clutch (128), and the on / off control of the electromagnetic clutch (128) controls the switching between manual mode and automatic mode.
2. The manual / automatic integrated tape winding device according to claim 1, characterized in that, Both hollow mounting bases (11) are provided with rotating bearings (129) in their cavities; the rotating shaft (121) is rotatably connected to the hollow mounting base (11) through the rotating bearings (129).
3. The manual / automatic integrated tape winding device according to claim 1, characterized in that, When the electromagnetic clutch (128) is engaged, the gear ring (125) is attracted to the electromagnetic clutch (128), the motor (122) drives the gear ring (125) to rotate coaxially, and the tape placement mechanism (13) rotates. When the electromagnetic clutch (128) is disengaged, the gear ring (125) separates from the electromagnetic clutch (128). When the manual lever (126) is manually rotated, the bevel gear (127) drives the gear ring (125) to rotate, and the tape placement mechanism (13) rotates.
4. The manual / automatic integrated tape winding device according to claim 1, characterized in that, The tape placement mechanism (13) includes two fixed baffles (131) mounted on the rotating shaft (121) and a circular placement ring (132) mounted between the two fixed baffles (131). The two fixed baffles (131) protrude from the circular placement ring (132), and the tape is wound on the circular placement ring (132).
5. A temperature sensor strip winding machine, characterized in that, include: The device includes an openable housing (2), a plurality of mounting brackets (3) installed inside the housing (2), a manual and automatic integrated tape winding device (1) as described in any one of claims 1 to 4 installed on the plurality of mounting brackets (3), and a lower-level machine (4) installed at the center position inside the housing (2). The mounting brackets (3) are fixedly installed with the hollow mounting base (11).
6. The temperature sensor strip winding machine according to claim 5, characterized in that, A temperature sensor strip is wound onto the circular placement ring (132).
7. The temperature sensor strip winding machine according to claim 5, characterized in that, The lower-level machine (4) is a detachable component. The lower-level machine (4) is used to receive temperature data from several temperature sensor strips, power the temperature sensor strips, and control the rotation of the motor (122).
8. The temperature sensor strip winding machine according to claim 5, characterized in that, A conductive slip ring (1210) for powering the temperature sensor strip and transmitting detection data is installed at the axial center of the end of the rotating shaft (121). The conductive slip ring (1210) is electrically connected to the lower computer (4).
9. The temperature sensor strip winding machine according to claim 6, characterized in that, The housing (2) is provided with several threading holes (21) for the temperature sensor strip to pass through.
10. The temperature sensor strip winding machine according to claim 5, characterized in that, The upper side of the box (2) is provided with a rod hole (22) adapted to the manual lever (126).