Electrical equipment installation transfer trolley

By designing an electrical equipment installation and transfer vehicle with support, control, movement, lifting, protection, and binding mechanisms, the problems of laborious manual handling and equipment swaying and tipping have been solved, realizing automated equipment transfer and safety protection.

CN224491165UActive Publication Date: 2026-07-14

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Filing Date
2025-09-26
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

Existing electrical equipment installation and transport vehicles require manual handling, which is laborious, and lack protection during movement, making them prone to shaking and tipping over.

Method used

An electrical equipment installation and transfer vehicle was designed, comprising a support mechanism, a control mechanism, a moving mechanism, a lifting mechanism, a protective mechanism, and a binding mechanism. The control mechanism moves the support mechanism, the moving mechanism drives the lifting mechanism to lift the equipment and move it onto the support mechanism, the protective mechanism protects the sides of the equipment, and the binding mechanism secures the equipment to prevent it from falling.

Benefits of technology

This eliminates the need for manual handling, improving the safety and stability of the equipment and ensuring safety and efficiency during the transfer process.

✦ Generated by Eureka AI based on patent content.

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    Figure CN224491165U_ABST
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Abstract

The utility model relates to the technical field of electrical equipment assembly, especially to an electrical equipment installation transfer trolley, which not only saves the trouble of manually carrying electrical equipment, can directly move the electrical equipment from the ground to the transfer trolley, then places the electrical equipment to the working position, and can protect the two sides of the electrical equipment, bind the electrical equipment and ensure the safety of transfer, comprising a supporting mechanism, further comprising a control mechanism, a moving mechanism, a lifting mechanism, two groups of protection mechanisms and two groups of binding mechanisms, the control mechanism is installed on the supporting mechanism and controls the transfer trolley to move, the moving mechanism is installed on the supporting mechanism and drives the lifting mechanism to move, the lifting mechanism is installed on the moving mechanism and drives the electrical equipment to lift, the two groups of protection mechanisms are both installed on the lifting mechanism and protect the two sides of the electrical equipment, and the two groups of binding mechanisms are respectively installed on the two groups of protection mechanisms.
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Description

Technical Field

[0001] This utility model relates to the technical field of electrical equipment assembly, and in particular to an electrical equipment installation and transfer vehicle. Background Technology

[0002] In the industrial production and assembly of electrical equipment, installation and transfer vehicles are a very important tool, especially in the assembly and transfer of electrical mounting plates and distribution boxes, where they play an indispensable role. Installation and transfer vehicles with performance that meets the usage requirements can greatly improve the work efficiency of workers.

[0003] Existing electrical equipment installation and transfer vehicles, such as the installation and transfer vehicle disclosed in utility model patent application number 202422555825.1, mainly include a base with multiple rollers at the bottom and a horizontally arranged worktable at the top, as well as a stand extending upward on one side of the base. In particular, the base also includes at least one stop bar arranged across the worktable. In use, by setting the stop bar and the load-bearing bar on the horizontal worktable and the stand respectively, a support plane that is inclined upward relative to the worktable is defined.

[0004] However, most existing installation and transport vehicles require manual labor to move the equipment onto the vehicle, which is very laborious. Moreover, they lack adequate side protection and require workers to support them during movement, otherwise they are prone to swaying and tipping over. Utility Model Content

[0005] To solve the above-mentioned technical problems, this utility model provides an electrical equipment installation and transfer vehicle that not only eliminates the trouble of manually moving electrical equipment, allowing the electrical equipment to be directly moved from the ground to the transfer vehicle and then placed in the work position, but also provides protection on both sides of the electrical equipment and secures the electrical equipment to ensure safe transportation.

[0006] This utility model discloses an electrical equipment installation and transfer vehicle, including a support mechanism; it also includes a control mechanism, a moving mechanism, a lifting mechanism, two sets of protective mechanisms, and two sets of binding mechanisms. The control mechanism is installed on the support mechanism and controls the movement of the transfer vehicle. The moving mechanism is installed on the support mechanism and drives the lifting mechanism to move. The lifting mechanism is installed on the moving mechanism and drives the electrical equipment to rise and fall. Both sets of protective mechanisms are installed on the lifting mechanism and protect both sides of the electrical equipment. The two sets of binding mechanisms are respectively installed on the two sets of protective mechanisms. The operator moves the support mechanism to the side of the electrical equipment through the control mechanism. The moving mechanism drives the lifting mechanism to move, so that the lifting mechanism is inserted under the electrical equipment. Then, the lifting mechanism lifts the electrical equipment. The moving mechanism drives the lifting mechanism and the electrical equipment to move to the support mechanism. The two sets of protective mechanisms are rotated to protect both sides of the electrical equipment. The two sets of binding mechanisms are connected to fix the electrical equipment and prevent it from falling during the transfer process.

[0007] Preferably, the support mechanism includes a base, four sets of wheels, and two sets of rubber strips. All four sets of wheels are rotatably mounted on the base, and both sets of rubber strips are mounted on the base. The operator controls the rotation of the four types of wheels through the control mechanism, thereby driving the base to move. The two sets of rubber strips prevent the electrical equipment from rubbing against the base.

[0008] Preferably, the control mechanism includes a back plate, a push rod, and a controller. The bottom end of the back plate is connected to the top end of the base. The push rod is mounted on the back plate, and the controller is mounted on the back plate. The operator operates the push rod to control the direction of movement of the base, controls the moving mechanism and lifting mechanism to drive the electrical equipment to move through the controller, and controls the rotation of four sets of wheels through the controller.

[0009] Preferably, the moving mechanism includes a dual-head motor, two sets of right-angle steering gears, two sets of lead screws, and a moving bracket. Two sets of sliding grooves are provided on the base. The dual-head motor is mounted on the back plate, and its output ends are connected to the input ends of the two sets of right-angle steering gears. The output ends of the two sets of right-angle steering gears are connected to the input ends of the two sets of lead screws. The moving bracket is slidably mounted in the two sets of sliding grooves on the base, and is connected to the two sets of lead screws via threaded transmission. When the dual-head motor is started, it drives the two sets of lead screws to rotate through the two sets of right-angle steering gears, and the two sets of lead screws drive the moving bracket to move.

[0010] Preferably, the lifting mechanism includes two sets of hydraulic cylinders, a lifting plate, and two sets of insert plates. The movable support has two sets of positioning slots. The two sets of hydraulic cylinders are respectively installed in the two sets of positioning slots. The lifting plate is slidably installed in the two sets of positioning slots. The top of the lifting plate is connected to the bottom of the two sets of hydraulic cylinders. Both sets of insert plates are installed on the lifting plate. The dual-head motor is started. The dual-head motor drives the two sets of lead screws to rotate through two sets of right-angle steering gears. The two sets of lead screws drive the movable support to move.

[0011] Preferably, the two sets of sockets are also covered with anti-slip pads on their upper surfaces; by laying anti-slip pads, electrical equipment is prevented from sliding off the two sets of sockets.

[0012] Preferably, the protective mechanism includes a protective plate, a handle, and a magnetic block. The protective plate is rotatably mounted on the back plate, the handle is mounted on the protective plate, and the magnetic block is mounted on the movable bracket. When the operator operates the handle, the protective plate is rotated upward by 90° to make the protective plate horizontal. The magnetic block attracts the protective plate to maintain its horizontal state, thus protecting the side of the electrical equipment.

[0013] Preferably, the binding mechanism includes a winding box, binding straps, and connectors. The winding box is installed on the protective plate, the binding straps are wound inside the winding box, and the connectors are installed on the binding straps. When the worker pulls the two sets of binding straps around the electrical equipment, the two sets of connectors are plugged together to facilitate the fixing of the electrical equipment. After the two sets of connectors are separated, the two sets of binding straps are automatically wound back into the winding box.

[0014] Compared with the prior art, the beneficial effects of this utility model are as follows: the operator moves the support mechanism to the side of the electrical equipment through the control mechanism, the moving mechanism drives the lifting mechanism to move, so that the lifting mechanism is inserted under the electrical equipment, and then the lifting mechanism drives the electrical equipment to lift, the moving mechanism drives the lifting mechanism and the electrical equipment to move onto the support mechanism, the two sets of protective mechanisms rotate to protect the two sides of the electrical equipment, and the two sets of binding mechanisms are connected to fix the electrical equipment to prevent the electrical equipment from falling off during the transfer process. Attached Figure Description

[0015] Figure 1 This is a schematic diagram of the isometric structure of this utility model;

[0016] Figure 2 This is an isometric structural diagram of the support mechanism and control mechanism of this utility model;

[0017] Figure 3 This is a cross-sectional isometric structural diagram of the moving mechanism and lifting mechanism of this utility model;

[0018] Figure 4 This is a front view structural diagram of the protective mechanism and the binding mechanism of this utility model.

[0019] The attached diagram is labeled as follows: 01, Support mechanism; 11, Base; 12, Wheel; 13, Rubber strip; 02, Control mechanism; 21, Back plate; 22, Push rod; 23, Controller; 03, Moving mechanism; 31, Dual-head motor; 32, Right-angle steering gear; 33, Lead screw; 34, Moving bracket; 04, Lifting mechanism; 41, Hydraulic cylinder; 42, Lifting plate; 43, Insert plate; 05, Protective mechanism; 51, Protective plate; 52, Handle; 53, Magnetic block; 06, Binding mechanism; 61, Rewind box; 62, Strap; 63, Connector. Detailed Implementation

[0020] To facilitate understanding of this utility model, a more complete description will be given below with reference to the accompanying drawings. This utility model can be implemented in many different forms and is not limited to the embodiments described herein. Rather, these embodiments are provided to make the disclosure of this utility model more thorough and complete.

[0021] Example 1

[0022] This utility model discloses an electrical equipment installation and transfer vehicle, including a support mechanism 01; it also includes a control mechanism 02, a moving mechanism 03, a lifting mechanism 04, two sets of protective mechanisms 05, and two sets of binding mechanisms 06. The control mechanism 02 is mounted on the support mechanism 01 and controls the movement of the transfer vehicle. The moving mechanism 03 is mounted on the support mechanism 01 and drives the lifting mechanism 04 to move. The lifting mechanism 04 is mounted on the moving mechanism 03 and drives the electrical equipment to rise and fall. Both sets of protective mechanisms 05 are mounted on the lifting mechanism 04 and protect both sides of the electrical equipment. The two sets of binding mechanisms 06 are respectively mounted on the two sets of protective mechanisms 05. The support mechanism 01 includes a base 11 and four sets of wheels. Four sets of wheels 12 and two sets of rubber strips 13 are rotatably mounted on the base 11, and two sets of rubber strips 13 are also mounted on the base 11; the control mechanism 02 includes a back plate 21, a push rod 22, and a controller 23. The bottom end of the back plate 21 is connected to the top end of the base 11, the push rod 22 is mounted on the back plate 21, and the controller 23 is mounted on the back plate 21; the moving mechanism 03 includes a dual-head motor 31, two sets of right-angle steering gears 32, two sets of lead screws 33, and a moving bracket 34. Two sets of sliding grooves are opened on the base 11. The dual-head motor 31 is mounted on the back plate 21, and the output end of the dual-head motor 31 is connected to the input end of the two sets of right-angle steering gears 32 respectively. The output ends are respectively connected to the input ends of the two sets of lead screws 33. The movable bracket 34 is slidably installed in the two sets of sliding grooves of the base 11, and the movable bracket 34 is connected to the two sets of lead screws 33 through threaded transmission. The lifting mechanism 04 includes two sets of hydraulic cylinders 41, a lifting plate 42 and two sets of insert plates 43. The movable bracket 34 has two sets of positioning grooves. The two sets of hydraulic cylinders 41 are respectively installed in the two sets of positioning grooves. The lifting plate 42 is slidably installed in the two sets of positioning grooves. The top end of the lifting plate 42 is connected to the bottom end of the two sets of hydraulic cylinders 41. The two sets of insert plates 43 are both installed on the lifting plate 42. When it is working, firstly, the controller 23 controls the movable mechanism 03 and the lifting mechanism 04 to drive the electrical equipment. The two sets of hydraulic cylinders 41 push the lifting plate 42 down to the lowest end. The base 11 moves so that the two sets of insert plates 43 are inserted into the bottom of the electrical equipment. Then, the two sets of hydraulic cylinders 41 are started to drive the lifting plate 42 to rise. The two sets of insert plates 43 drive the electrical equipment to rise. The double-head motor 31 is started. The double-head motor 31 drives the two sets of lead screws 33 to rotate through the two sets of right-angle steering gears 32. The two sets of lead screws 33 drive the moving bracket 34 to move, moving the electrical equipment above the base 11. The two sets of rubber strips 13 prevent the electrical equipment from rubbing against the base 11. The operator operates the push rod 22 to control the movement direction of the base 11. The controller 23 controls the rotation of the four sets of wheels 12.

[0023] Example 2

[0024] like Figures 1 to 4As shown, this utility model provides an electrical equipment installation and transfer vehicle, based on embodiment 1; it also includes two sets of insert plates 43 with anti-slip pads affixed to their upper surfaces; the protective mechanism 05 includes a protective plate 51, a handle 52, and a magnetic block 53, with the protective plate 51 rotatably mounted on the back plate 21, the handle 52 mounted on the protective plate 51, and the magnetic block 53 mounted on the movable bracket 34; the binding mechanism 06 includes a winding box 61, a binding strap 62, and a connector 63, with the winding box 61 mounted on the protective plate 51, the binding strap 62 wound inside the winding box 61, and the connector 63 mounted on the binding strap 62; during operation, firstly, the controller 23 controls the moving mechanism 03 and the lifting mechanism 04 to move the electrical equipment, the two sets of hydraulic cylinders 41 push the lifting plate 42 down to the lowest point, the base 11 moves so that the two sets of insert plates 43 are inserted into the bottom of the electrical equipment, and then the two sets of hydraulic cylinders 41 are activated to lift the lifting plate 42. The electrical equipment is lifted by two sets of plug plates 43, and the double-head motor 31 is started. The double-head motor 31 drives two sets of lead screws 33 to rotate through two sets of right-angle steering gears 32. The two sets of lead screws 33 drive the moving bracket 34 to move, moving the electrical equipment above the base 11. Two sets of rubber strips 13 prevent the electrical equipment from rubbing against the base 11. The operator operates the push rod 22 to control the direction of movement of the base 11. The controller 23 controls the rotation of four sets of wheels 12. The operator operates the handle 52 to rotate the protective plate 51 upward by 90°, making the protective plate 51 horizontal. The magnetic block 53 attracts the protective plate 51 to maintain its horizontal state, protecting the side of the electrical equipment. The operator pulls two sets of straps 62 around the electrical equipment and plugs the two sets of connectors 63 together to facilitate the fixation of the electrical equipment. After the two sets of connectors 63 are separated, the two sets of straps 62 are automatically wound into the winding box 61.

[0025] The dual-head motor 31 and right-angle steering gear 32 of this utility model are commercially available. Technical personnel in this industry only need to install and operate them according to the accompanying instruction manual, without requiring any creative work from those skilled in the art.

[0026] The above description is only a preferred embodiment of the present utility model. It should be noted that for those skilled in the art, several improvements and modifications can be made without departing from the technical principles of the present utility model, and these improvements and modifications should also be considered within the protection scope of the present utility model.

Claims

1. An electrical equipment installation and transfer vehicle, comprising a support mechanism (01); characterized in that, It also includes a control mechanism (02), a moving mechanism (03), a lifting mechanism (04), two sets of protective mechanisms (05) and two sets of binding mechanisms (06). The control mechanism (02) is installed on the support mechanism (01) and controls the movement of the transfer vehicle. The moving mechanism (03) is installed on the support mechanism (01) and drives the lifting mechanism (04) to move. The lifting mechanism (04) is installed on the moving mechanism (03) and drives the electrical equipment to rise and fall. The two sets of protective mechanisms (05) are both installed on the lifting mechanism (04) and protect both sides of the electrical equipment. The two sets of binding mechanisms (06) are respectively installed on the two sets of protective mechanisms (05).

2. The electrical equipment installation and transfer vehicle as described in claim 1, characterized in that, The support mechanism (01) includes a base (11), four sets of wheels (12) and two sets of rubber strips (13). The four sets of wheels (12) are rotatably mounted on the base (11), and the two sets of rubber strips (13) are mounted on the base (11).

3. The electrical equipment installation and transfer vehicle as described in claim 2, characterized in that, The control mechanism (02) includes a back plate (21), a push rod (22) and a controller (23). The bottom end of the back plate (21) is connected to the top end of the base (11). The push rod (22) is mounted on the back plate (21) and the controller (23) is mounted on the back plate (21).

4. The electrical equipment installation and transfer vehicle as described in claim 3, characterized in that, The moving mechanism (03) includes a dual-head motor (31), two sets of right-angle steering gears (32), two sets of lead screws (33) and a moving bracket (34). The base (11) has two sets of sliding grooves. The dual-head motor (31) is mounted on the back plate (21). The output end of the dual-head motor (31) is connected to the input end of the two sets of right-angle steering gears (32) respectively. The output end of the two sets of right-angle steering gears (32) is connected to the input end of the two sets of lead screws (33) respectively. The moving bracket (34) is slidably mounted in the two sets of sliding grooves of the base (11), and the moving bracket (34) is connected to the two sets of lead screws (33) through threaded transmission.

5. An electrical equipment installation and transfer vehicle as described in claim 4, characterized in that, The lifting mechanism (04) includes two sets of hydraulic cylinders (41), a lifting plate (42) and two sets of insert plates (43). The movable support (34) has two sets of positioning slots. The two sets of hydraulic cylinders (41) are installed in the two sets of positioning slots respectively. The lifting plate (42) is slidably installed in the two sets of positioning slots. The top of the lifting plate (42) is connected to the bottom of the two sets of hydraulic cylinders (41). The two sets of insert plates (43) are installed on the lifting plate (42).

6. The electrical equipment installation and transfer vehicle as described in claim 5, characterized in that, It also includes two sets of insert plates (43) with anti-slip pads attached to their upper surfaces.

7. An electrical equipment installation and transfer vehicle as described in claim 4, characterized in that, The protective mechanism (05) includes a protective plate (51), a handle (52) and a magnetic block (53). The protective plate (51) is rotatably mounted on the back plate (21), the handle (52) is mounted on the protective plate (51), and the magnetic block (53) is mounted on the movable bracket (34).

8. An electrical equipment installation and transfer vehicle as described in claim 7, characterized in that, The binding mechanism (06) includes a winding box (61), a binding strap (62) and a connector (63). The winding box (61) is mounted on the protective plate (51), the binding strap (62) is wound inside the winding box (61), and the connector (63) is mounted on the binding strap (62).