A flip rope lifting and hoisting power supply
By designing a flip-top rope lifting and hoisting power supply, and adopting a disc fixing plate and gear fixing plate structure, combined with motor drive and pulley design, the problems of inconvenient movement and single interface of traditional power supply equipment are solved, realizing convenient movement and multi-interface power supply equipment, and improving the service life and safety of the equipment.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Filing Date
- 2025-08-13
- Publication Date
- 2026-07-14
Smart Images

Figure CN224502196U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of hoisting power supply technology, specifically a flip-top rope lifting hoisting power supply. Background Technology
[0002] In modern industry and daily life, the demand for hoisting and moving power supply equipment is increasing. Traditional power supply equipment is often bulky and heavy, making it inconvenient to move and install. Especially in scenarios where the location of power supplies needs to be frequently adjusted, such as laboratories, factory workshops, or construction sites, the convenience and flexibility of power supplies have become key factors.
[0003] Most existing power supply hoisting equipment has a complex structure and is cumbersome to operate, requiring multiple people to work together to lift and move the power supply. These devices usually lack effective protection measures, and the power supply is easily affected by the external environment during hoisting, such as dust and debris, which may cause damage to the equipment or shorten its service life. Traditional equipment has a relatively simple interface design, which cannot meet the needs of connecting multiple devices at the same time, thus limiting the applicability of the power supply. Therefore, a flip-top rope lifting power supply is needed to meet people's needs. Utility Model Content
[0004] The purpose of this utility model is to provide a power supply for flip-top rope lifting and hoisting, so as to solve the problems mentioned in the background art.
[0005] To achieve the above objectives, this utility model provides the following technical solution: a flip-top rope lifting and hoisting power supply, comprising a sheet metal housing, a disc fixing plate installed inside the sheet metal housing, a gear fixing plate installed at one end of the disc fixing plate, a driven gear installed on the side of the gear fixing plate, a driving gear meshing with the side of the driven gear, a motor installed at one end of the driving gear, a gear bearing installed inside the driven gear, a bearing retainer installed on the side of the gear bearing, a winding disc installed between the disc fixing plate and the gear fixing plate, a cable installed on the side of the winding disc, and a power supply body installed at the bottom of the cable.
[0006] Preferably, two pulleys are installed on the side of the sheet metal housing of the equipment, and the side of the cable is installed between the two pulleys.
[0007] Preferably, the top of the power supply body is equipped with two aluminum alloy flip covers, and one end of each aluminum alloy flip cover has a power interface.
[0008] Preferably, the top of the power supply body has a USB output port, one end of the USB output port has a socket, the side of the socket has a network port, one end of the network port has a socket, and the top of the power supply body has a power panel sticker.
[0009] Preferably, a display screen is mounted on the side of the power supply body, and a power base is mounted on the bottom of the power supply body.
[0010] Preferably, an optocoupler blocking device is installed inside the power supply base, and a spring cover is installed at the bottom of the optocoupler blocking device, with a spring installed inside the spring cover.
[0011] Preferably, the sides of the disc fixing plate and the gear fixing plate are equipped with multiple round-head screws.
[0012] Compared with the prior art, the beneficial effects of this utility model are:
[0013] (1) By setting up a disc fixing plate and a gear fixing plate, when the power supply needs to be moved, the motor drives the driving gear to rotate, which in turn drives the driven gear to rotate. The driven gear drives the winding disc to rotate, so that the cable is wound around the side of the winding disc. The forward or reverse rotation of the driving gear controls the power supply body to rise or fall. The outer side of the disc fixing plate and the gear fixing plate is covered by the sheet metal shell of the equipment to protect the internal structure. The position of the cable is adjusted by two pulleys inside the sheet metal shell of the equipment, which helps the user to better control the power supply body.
[0014] (2) This utility model is equipped with an aluminum alloy flip cover and a power interface. The aluminum alloy flip cover on the power supply body can close all the interfaces inside the power supply body to prevent dust or impurities from entering, which greatly extends the service life of the power supply. The power supply body has a variety of different interfaces to assist operators in using it and improve the overall applicability of the power supply body. Through the optocoupler blocking device in the power base, when the power supply body is in position, it touches the spring. Under the action of the spring force, it will block the optocoupler blocking device. At this time, the optocoupler sends a signal. When the power supply body does not touch the table, the spring device is released, and the optocoupler will also give a signal. This realizes the detection of whether the power supply body is in position. Attached Figure Description
[0015] Figure 1 A three-dimensional structural diagram of a flip-top rope lifting and hoisting power supply proposed in this utility model;
[0016] Figure 2 This is a schematic diagram of the power supply body and aluminum alloy flip cover of a flip-top rope lifting and hoisting power supply proposed in this utility model.
[0017] Figure 3 This is a side view of the power base structure of a flip-top rope lifting and hoisting power supply proposed in this utility model;
[0018] Figure 4This is a side view of the sheet metal housing and gear fixing plate of a flip-top rope lifting and hoisting power supply proposed in this utility model.
[0019] Figure 5 This is a side sectional view of the power base of a flip-top rope lifting and hoisting power supply proposed in this utility model;
[0020] Figure 6 This is an exploded top view of a flip-top rope lifting and hoisting power supply proposed in this utility model;
[0021] Figure 7 for Figure 3 Enlarged view of point A.
[0022] In the diagram: 1. Sheet metal casing of the equipment; 2. Disc fixing plate; 3. Gear fixing plate; 4. Driven gear; 5. Drive gear; 6. Motor; 7. Gear bearing; 8. Bearing retainer; 9. Winding disc; 10. Cable; 11. Pulley; 12. Power supply body; 13. Aluminum alloy flip cover; 14. Power interface; 15. USB output port; 16. Socket; 17. Network port; 18. Socket; 19. Power panel sticker; 20. Display screen; 21. Power base; 22. Optocoupler blocking device; 23. Spring cover; 24. Spring; 25. Round head screw. Detailed Implementation
[0023] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.
[0024] Example 1: Please refer to Figure 1-7This utility model provides a technical solution: a flip-top rope lifting and hoisting power supply, including a sheet metal housing 1, a disc fixing plate 2 installed inside the sheet metal housing 1, a gear fixing plate 3 installed at one end of the disc fixing plate 2, a driven gear 4 installed on the side of the gear fixing plate 3, a driving gear 5 meshing with the side of the driven gear 4, a motor 6 installed at one end of the driving gear 5, a gear bearing 7 installed inside the driven gear 4, a bearing retainer 8 installed on the side of the gear bearing 7, a winding disc 9 installed between the disc fixing plate 2 and the gear fixing plate 3, and a winding disc 9 with a side... A cable 10 is installed on the top, and a power supply unit 12 is installed at the bottom of the cable 10. Two casters 11 are installed on the side of the sheet metal casing 1 of the device, and the side of the cable 10 is installed between the two casters 11. Two aluminum alloy flip covers 13 are installed on the top of the power supply unit 12. A power interface 14 is opened at one end of the aluminum alloy flip cover 13. A USB output port 15 is opened on the top of the power supply unit 12. A socket 16 is provided at one end of the USB output port 15. A network port 17 is installed on the side of the socket 16. A socket 18 is provided at one end of the network port 17. The power supply unit 12... A power panel sticker 19 is installed on the top. Multiple round-head screws 25 are installed on the sides of the disc fixing plate 2 and gear fixing plate 3. When the power supply needs to be moved, the motor 6 on the side of the equipment sheet metal housing 1 is activated. The output of the motor 6 drives the drive gear 5 to rotate, which in turn drives the meshing driven gear 4 to rotate, thereby rotating the winding disc 9. This causes the cable 10 to move around the side of the winding disc 9. Controlling the forward or reverse rotation of the drive gear 5 raises or lowers the power supply body 12. The outer sides of the disc fixing plate 2 and gear fixing plate 3 are entirely covered by the equipment sheet metal housing. The outer casing 1 covers and protects the internal structure. Two pulleys 11 inside the sheet metal casing 1 assist in adjusting the position of the cable 10, helping the user to better control the up and down movement of the power supply body 12. When the power supply body 12 is lowered to the appropriate position, the internal structure of the power supply body 12 can be opened through the aluminum alloy flip cover 13. The operator can use it according to the interface on the power supply body 12. The power supply body 12 has a USB output port 15, a socket 16, a network port 17, a socket 18, and a power panel sticker 19 to meet the connection needs of various devices.
[0025] Example 2: Figure 2 , 3As shown in Figure 7, a display screen 20 is mounted on the side of the power supply body 12, and a power base 21 is mounted on the bottom of the power supply body 12. An optocoupler blocking device 22 is installed inside the power base 21, and a spring cover 23 is installed at the bottom of the optocoupler blocking device 22. A spring 24 is installed inside the spring cover 23. When the power supply body 12 is placed on a flat surface, the spring 24 inside the spring cover 23 is touched. Under the action of the spring 24, the spring cover 23 moves to block the optocoupler blocking device 22. The optocoupler sends a signal. When the power supply body 12 does not touch the table, the spring 24 device is released, and the optocoupler also gives a signal to detect whether the power supply body 12 is in place. The remaining features are the same as in Embodiment 1.
[0026] The working principle is as follows: When the power supply needs to be moved, the motor 6 on the side of the sheet metal housing 1 is activated. The output end of the motor 6 drives the drive gear 5 to rotate, which in turn drives the meshing driven gear 4 to rotate, thereby driving the winding disc 9 to rotate. This causes the cable 10 to move around the side of the winding disc 9. Controlling the forward or reverse rotation of the drive gear 5 raises or lowers the power supply body 12. The outer sides of the disc fixing plate 2 and the gear fixing plate 3 are covered by the sheet metal housing 1 to protect the internal structure. Two pulleys 11 inside the sheet metal housing 1 assist in adjusting the position of the cable 10, helping the user to better control the up and down movement of the power supply body 12. When the power supply body 12 is lowered to the appropriate position, the internal structure of the power supply body 12 can be opened through the aluminum alloy flip cover 13. The operator can then use the power supply body 12 according to the interface on the power supply body 12. The power supply body 12 is equipped with a USB output port 1. 5. The power supply unit 12 is equipped with various connectors such as socket 16, network port 17, socket 18, and power panel sticker 19 to meet the connection needs of various devices. When the power supply unit 12 is placed on a flat surface, the spring 24 inside the spring cover 23 is touched. Under the action of the spring 24, the spring cover 23 moves to block the optocoupler blocking device 22. The optocoupler sends a signal. When the power supply unit 12 does not touch the table, the spring 24 device is released, and the optocoupler also gives a signal to detect whether the power supply unit 12 is in position. The power supply unit 12 is connected to the main control via cable 10 to achieve power supply and communication. When the gear fixing plate 3 is opened to use the power supply unit 12, the power supply unit 12 will not rise after the main control system issues a command to rise. After the power supply cover is opened, the sensor will automatically send a signal to the main control system. The system will assume that the power supply has an external device connected and will not rise, thus ensuring that the experiment can be carried out safely and orderly.
[0027] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.
Claims
1. A flip-top rope lifting and hoisting power supply, comprising a sheet metal housing (1), characterized in that: A disc fixing plate (2) is installed inside the sheet metal shell (1) of the equipment. A gear fixing plate (3) is installed at one end of the disc fixing plate (2). A driven gear (4) is installed on the side of the gear fixing plate (3). A driving gear (5) meshes with the side of the driven gear (4). A motor (6) is installed at one end of the driving gear (5). A gear bearing (7) is installed inside the driven gear (4). A bearing retainer (8) is installed on the side of the gear bearing (7). A winding disc (9) is installed between the disc fixing plate (2) and the gear fixing plate (3). A cable (10) is installed on the side of the winding disc (9). A power supply body (12) is installed at the bottom of the cable (10).
2. The flip-top rope lifting and hoisting power supply according to claim 1, characterized in that: Two pulleys (11) are installed on the side of the sheet metal housing (1) of the equipment, and the side of the cable (10) is installed between the two pulleys (11).
3. The flip-top rope lifting and hoisting power supply according to claim 1, characterized in that: The top of the power supply body (12) is equipped with two aluminum alloy flip covers (13), and a power interface (14) is provided at one end of the aluminum alloy flip cover (13).
4. The power supply for lifting and hoisting a flip-top rope according to claim 1, characterized in that: The power supply unit (12) has a USB output port (15) on its top. One end of the USB output port (15) has a socket (16). A network port (17) is installed on the side of the socket (16). One end of the network port (17) has a socket (18). A power panel sticker (19) is installed on the top of the power supply unit (12).
5. The power supply for lifting and hoisting a flip-top rope according to claim 1, characterized in that: A display screen (20) is mounted on the side of the power supply body (12), and a power base (21) is mounted on the bottom of the power supply body (12).
6. The flip-top rope lifting and hoisting power supply according to claim 5, characterized in that: An optocoupler blocking device (22) is installed inside the power base (21), and a spring cover (23) is installed at the bottom of the optocoupler blocking device (22), and a spring (24) is installed inside the spring cover (23).
7. The power supply for lifting and hoisting a flip-top rope according to claim 1, characterized in that: Multiple round-head screws (25) are installed on the sides of the disc fixing plate (2) and the gear fixing plate (3).