CN220306790U - Integrated power distribution cabinet mounting structure - Google Patents

Abstract

The utility model relates to the technical field of power distribution cabinet installation, and discloses an integrated power distribution cabinet installation structure, which includes a support base. Two grates are symmetrically installed on the left and right sides of the support base, and the inside of the support base A proximity switch is installed on the upper surface. A buoyancy plate is installed inside the support base below the proximity switch. Limiting mechanisms are provided on both left and right ends of the upper surface of the support base, and a rear end position of the upper surface of the support base is provided. There is an adjustment mechanism; this utility model controls the start of the motor by sensing the induction piece through the proximity switch. When the motor starts, it drives the adjustment rod to rotate through the synchronous belt, thereby driving the integrated power distribution cabinet to rise through the connecting plate. Integration can be realized through one motor. The overall cost of the integrated power distribution cabinet is lower, and the integrated power distribution cabinet can be raised to a higher height by rotating the motor-driven adjustment rod, allowing managers to have enough time to transfer and integrate the integrated power distribution cabinet. .

Description

An integrated distribution cabinet installation structure

Technical field

The utility model relates to the technical field of power distribution cabinet installation, specifically an integrated power distribution cabinet installation structure.

Background technique

The power distribution cabinet is the final equipment of the power distribution system. When installing the power distribution cabinet, it is necessary to use the corresponding installation structure to install it. However, the existing installation structure cannot be installed in time when the water level around the power distribution cabinet rises. Raising the height of the power distribution cabinet will cause water to enter the interior of the power distribution cabinet and cause a safety accident.

A Chinese patent discloses an integrated power distribution cabinet installation structure (Authorization Announcement No. CN216251692U). This patented technology uses a water level switch to detect the water level around the power distribution cabinet. When the water level around the base rises to a certain height, it will Trigger the water level switch, and the water level switch controls several electric push rods to be energized and start to work. Through several electric push rods, the fixed plate is pushed upward at the same time, thereby raising the height of the distribution cabinet to prevent the water level from being too high, causing water to enter the power distribution. The inside of the cabinet will cause safety accidents; however, there are some problems: the mechanism that drives the distribution cabinet to rise, that is, the electric push rod is installed inside the base and located below the distribution cabinet. In order to stably drive the distribution cabinet to rise, use Multiple electric push rods are installed, which increases the cost, and the rising height of the distribution cabinet is limited to the stroke of the electric push rod. If the stroke of the electric push rod is short, when the water level gets higher and higher, the manager does not have enough time. To transfer the distribution cabinet, if the stroke of the electric push rod is longer, the height of the entire base will also increase, which is inconvenient for the installation and daily maintenance of the distribution cabinet. Therefore, those skilled in the art provide an integrated power distribution cabinet installation structure to solve the problems raised in the above background art.

Utility model content

The purpose of this utility model is to provide an integrated distribution cabinet installation structure to solve the problems raised in the above background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

An integrated power distribution cabinet installation structure includes a support base. Two grates are symmetrically installed on the left and right surfaces of the support base, and a proximity switch is installed on the inner upper surface of the support base. The inner surface of the support base is A buoyancy plate is installed below the proximity switch. A sensing piece is installed on the upper surface of the buoyancy plate. Thin rods are movably connected to the four corners of the buoyancy plate. Limiting mechanisms are provided on the left and right ends of the upper surface of the support base. , and an adjustment mechanism is provided at the rear end of the upper surface of the support base.

As a further solution of the present invention: the limiting mechanism includes a fixed plate, two sliding sleeves are installed symmetrically through the interior of the fixed plate, and a sliding rod is slidably connected to the interior of the sliding sleeve. The two sliding sleeves are The upper ends of the rods are jointly installed with baffles.

As a further solution of the present invention: the adjustment mechanism includes a mounting base, a motor is installed on the upper surface of the mounting base, a first synchronizing wheel is installed on the lower end of the motor, and a first synchronizing wheel is installed on the outside. Synchronous belt, the inside of the mounting base is located on the right side of the motor, and is connected with an adjusting rod through and rotationally connected. A second synchronizing wheel is installed on the lower end of the adjusting rod, and a connecting plate is threadedly connected to the outside of the adjusting rod.

As a further solution of the present invention: the density of the buoyancy plate is less than the density of water, the proximity switch is facing the sensing piece, and the thin rod is installed on the upper and lower sides of the inner surface of the support base.

As a further solution of the present invention: the lower end of the sliding rod is installed on the upper surface of the support seat.

As a further solution of the present invention: the mounting seat is installed on the upper surface of the support seat, the right end of the synchronous belt is installed on the outside of the second synchronizing wheel, and the connecting plate is located above the mounting seat.

Compared with the existing technology, the beneficial effects of this utility model are:

This utility model controls the starting of the motor by sensing the induction piece through the proximity switch. When the motor starts, the synchronous belt drives the adjusting rod to rotate, thereby driving the integrated power distribution cabinet to rise through the connecting plate. The integrated power distribution cabinet can be realized through one motor. The overall cost is low, and the integrated power distribution cabinet can be raised to a higher height by rotating the motor-driven adjustment rod, giving managers enough time to transfer and integrate the power distribution cabinet.

Description of drawings

Figure 1 is a schematic structural diagram of an integrated distribution cabinet installation structure;

Figure 2 is a cross-sectional view of the support base in an integrated distribution cabinet installation structure;

Figure 3 is a schematic structural diagram of the limiting mechanism in an integrated distribution cabinet installation structure;

Figure 4 is a schematic structural diagram of the adjustment mechanism in an integrated distribution cabinet installation structure;

Figure 5 is a partial front view of the adjustment mechanism in an integrated distribution cabinet installation structure.

In the picture: 1. Support base; 2. Grate net; 3. Proximity switch; 4. Buoyancy plate; 5. Induction piece; 6. Thin rod; 7. Limiting mechanism; 8. Adjustment mechanism; 9. Fixed plate; 10 , sliding sleeve; 11. sliding rod; 12. baffle; 13. mounting base; 14. motor; 15. first synchronous wheel; 16. synchronous belt; 17. adjusting rod; 18. second synchronous wheel; 19. connection board; 20. Integrated power distribution cabinet.

Detailed ways

Please refer to Figures 1 to 5. In the embodiment of the present invention, an integrated power distribution cabinet installation structure includes a support base 1. Two grates 2 are symmetrically installed on the left and right sides of the support base 1, and the support base A proximity switch 3 is installed on the inner upper surface of 1. A buoyancy plate 4 is installed inside the support base 1 below the proximity switch 3. The density of the buoyancy plate 4 is smaller than the density of water. A sensing piece 5 is installed on the upper surface of the buoyancy plate 4. The proximity switch 3 is facing the induction piece 5, and the four corners of the buoyancy plate 4 are movably connected with thin rods 6. The thin rods 6 are installed on the upper and lower surfaces of the support base 1; the integrated power distribution cabinet 20 is installed on the support base 1. On the upper surface, the grate 2 can block debris and allow water to pass through normally. The buoyancy plate 4 can float on the water. When the sensor sheet 5 rises to a certain level, the proximity switch 3 can detect it and transmit the signal to the external control. The system takes corresponding actions through the external control system.

In Figures 1 to 5: limiting mechanisms 7 are provided on both left and right ends of the upper surface of the support base 1, and an adjustment mechanism 8 is provided at the rear end of the upper surface of the support base 1. The limiting mechanism 7 includes a fixed plate 9, which is fixed Two sliding sleeves 10 are installed symmetrically through the interior of the plate 9. A sliding rod 11 is slidingly connected to the interior of the sliding sleeve 10. The lower end of the sliding rod 11 is installed on the upper surface of the support base 1. The upper ends of the two sliding rods 11 are installed together. There is a baffle 12, and the adjustment mechanism 8 includes a mounting base 13. The mounting base 13 is installed on the upper surface of the support base 1. A motor 14 is installed on the upper surface of the mounting base 13. A first synchronizing wheel 15 is installed at the lower end of the motor 14. A synchronous belt 16 is installed on the outside of a synchronizing wheel 15. The right end of the synchronous belt 16 is installed on the outside of the second synchronizing wheel 18. The inside of the mounting base 13 is located on the right side of the motor 14 and is connected with an adjusting rod 17. The adjusting rod 17 The lower end of the second synchronization wheel 18 is installed, and the external thread of the adjustment rod 17 is connected with a connecting plate 19. The connecting plate 19 is located above the mounting base 13; one end of the fixed plate 9 is installed on one side surface of the integrated power distribution cabinet 20 On the top, one end of the connecting plate 19 is installed on the rear surface of the integrated power distribution cabinet 20. The motor 14 can drive the adjusting rod 17 to rotate through the synchronous belt 16, so that the connecting plate 19 drives the integrated power distribution cabinet 20 to rise. The motor 14 passes through An external control system controls the operation.

The working principle of the utility model is: first, the staff installs the integrated power distribution cabinet 20 on the upper surface of the support base 1, and makes the integrated power distribution cabinet 20 located between the two limiting mechanisms 7 and between the adjusting In front of the mechanism 8, fix the fixed plate 9 and the integrated power distribution cabinet 20 together, and connect the connecting plate 19 with the integrated power distribution cabinet 20; when water accumulates around the integrated power distribution cabinet 20 and the water level exceeds When it comes higher and higher, the buoyancy plate 4 will rise as the water level rises. When the proximity switch 3 detects the induction piece 5, the external control system starts the motor 14, and the motor 14 drives the adjustment rod 17 to rotate through the synchronous belt 16, and the adjustment rod 17 rotates. The connecting plate 19 threadedly connected to the rod 17 will drive the integrated power distribution cabinet 20 to rise to a higher height.

The above are only preferred specific implementations of the present utility model, but the protection scope of the present utility model is not limited thereto. Any person familiar with the technical field shall, within the technical scope disclosed by the present utility model, according to the present utility model Any equivalent substitution or change of the technical solution of the utility model and the concept of the utility model shall be covered by the protection scope of the utility model.

Claims (6)

1. The utility model provides an integrated form switch board mounting structure, includes supporting seat (1), two comb nets (2) are all symmetrically installed on the left and right sides surface of supporting seat (1), and the inside upper surface mounting of supporting seat (1) has proximity switch (3), buoyancy board (4) are installed to the below that is located proximity switch (3) of inside of supporting seat (1), the upper surface mounting of buoyancy board (4) has response piece (5), and the equal swing joint in four corners of buoyancy board (4) has thin pole (6), a serial communication port, both ends all are provided with stop gear (7) about the upper surface of supporting seat (1), and the upper surface rear end position department of supporting seat (1) is provided with adjustment mechanism (8).

2. An integrated power distribution cabinet mounting structure according to claim 1, wherein the limiting mechanism (7) comprises a fixed plate (9), two sliding sleeves (10) are symmetrically arranged in the fixed plate (9) in a penetrating mode, sliding rods (11) are connected in the sliding sleeves (10) in a sliding mode, and a baffle (12) is arranged at the upper ends of the two sliding rods (11) in a common mode.

3. An integrated power distribution cabinet mounting structure according to claim 1, characterized in that the adjusting mechanism (8) comprises a mounting seat (13), a motor (14) is mounted on the upper surface of the mounting seat (13), a first synchronous wheel (15) is mounted at the lower end of the motor (14), a synchronous belt (16) is mounted on the outer portion of the first synchronous wheel (15), an adjusting rod (17) penetrates through the inner portion of the mounting seat (13) on the right side of the motor (14) and is rotationally connected with the right side, a second synchronous wheel (18) is mounted at the lower end of the adjusting rod (17), and a connecting plate (19) is connected with the outer thread of the adjusting rod (17).

4. An integrated power distribution cabinet mounting structure according to claim 1, wherein the density of the buoyancy plate (4) is smaller than that of water, the proximity switch (3) is opposite to the induction piece (5), and the thin rods (6) are mounted on the upper and lower side surfaces of the inside of the supporting seat (1).

5. An integrated power distribution cabinet mounting structure according to claim 2, characterized in that the lower end of the slide bar (11) is mounted on the upper surface of the support base (1).

6. An integrated power distribution cabinet mounting structure according to claim 3, characterized in that the mounting base (13) is mounted on the upper surface of the supporting base (1), the right end of the synchronous belt (16) is mounted outside the second synchronous wheel (18), and the connecting plate (19) is located above the mounting base (13).