CN116895984B

CN116895984B - Power cabinet power distribution device

Info

Publication number: CN116895984B
Application number: CN202311160735.6A
Authority: CN
Inventors: 张神锋
Original assignee: Nantong Lailong Electrical Equipment Co ltd
Current assignee: Nantong Lailong Electrical Equipment Co ltd
Priority date: 2023-09-11
Filing date: 2023-09-11
Publication date: 2023-11-21
Anticipated expiration: 2043-09-11
Also published as: CN116895984A

Abstract

The invention belongs to the technical field of power distribution, in particular to a power distribution device of an electric cabinet, aiming at the problem that the current power distribution device cannot adjust the thickness of an internal lead along with the change of load power, the power distribution device comprises a fixed frame, one side of the fixed frame is clamped and provided with a socket body, the top of the fixed frame is provided with a frame live wire binding post, the bottom of the fixed frame is provided with a frame zero wire binding post, the top of the socket body is provided with a socket live wire binding groove, the interior of the socket live wire binding groove is fixedly provided with a live wire conductive clamping piece through a bolt, and the bottom of the socket body is provided with a socket zero wire binding groove. The invention increases the wire thickness of the conductive column group to improve the conductive power, so that the socket body has the effect of high-power load, the power supply of the socket body can realize the effect of distributing the conductive column group according to the power, and the conductive efficiency is improved.

Description

Power cabinet power distribution device

Technical Field

The invention relates to the technical field of power distribution, in particular to a power distribution device of an electric cabinet.

Background

The power distribution device of the power cabinet can reasonably distribute incoming wires in the power cabinet, external equipment can be directly plugged into the power distribution device to obtain electricity, and wiring harnesses inside the power cabinet can be arranged through the power distribution device, so that a complex wiring process is avoided, and the power distribution device is commonly used in line planning in hospitals and large public places.

The following problems exist in the existing power cabinet power supply distribution device: the wire harness of the power cabinet is generally thicker and can bear the equipment load with larger total power, but the wire harness inside the socket is thick and fixed in the power distribution device, in the power transmission process, thicker wires are adopted for transmission when the load power is low, the transmission efficiency is low, the impedance of the wire body is larger, therefore, thinner wires are adopted for conducting wires in low power, thicker wires are adopted for conducting wires in high power load to achieve the optimal state, but the current power distribution device cannot adjust the thickness of the internal wires along with the change of the load power, and the prior art cannot solve the problems, so that the power cabinet power distribution device is needed to solve the problems.

Disclosure of Invention

Based on the technical problem that the current power distribution device cannot adjust the thickness of an internal wire along with the change of load power, the invention provides a power distribution device of an electric cabinet.

The invention provides a power cabinet power supply distribution device which comprises a fixed frame, wherein a socket body is clamped at one side of the fixed frame, a frame live wire binding post is arranged at the top of the fixed frame, a frame neutral wire binding post is arranged at the bottom of the fixed frame, a socket live wire wiring groove is formed at the top of the socket body, a live wire conducting clamping piece is fixed in the socket live wire wiring groove through a bolt, a socket neutral wire wiring groove is formed at the bottom of the socket body, a neutral wire conducting clamping piece is fixed in the socket neutral wire wiring groove through a bolt, a live wire conducting groove is formed at the top of one side of the fixed frame, a live wire conducting strip is fixed at the bottom of one side of the live wire conducting groove through a bolt, a neutral wire conducting groove is formed at the bottom of one side of the fixed frame, a conducting block adjusting mechanism is arranged at the top of the live wire conducting groove, and a ground wire binding post is fixed at the middle position of one side of the fixed frame.

Preferably, the inside of socket live wire wiring groove is fixed with the live wire through the electrically conductive clamping piece centre gripping of live wire, and the other end and the frame live wire terminal of live wire are fixed mutually, the inside of socket zero line wiring groove is fixed with the zero line wire through the electrically conductive clamping piece centre gripping of zero line, and the one end and the frame zero line terminal of zero line wire are fixed mutually.

Preferably, a wire inlet slot hole is formed in one end position of the fixed frame, a wire inlet connection block is fixed at one side position of the wire inlet slot hole, a live wire inlet slot is formed in the top position of the wire inlet connection block, one end of a live wire conducting strip extends to the inside of the live wire inlet slot, a zero wire inlet slot is formed in the bottom position of the wire inlet connection block, and one end of the zero wire conducting strip extends to the inside of the zero wire inlet slot.

Preferably, the conductive block adjusting mechanism comprises a conductive sliding seat and an insulating sliding seat which are fixed at the top of a live wire conductive groove through bolts, the conductive sliding seat and the insulating sliding seat are fixed mutually through bolts, a penetrating top sliding groove is formed in the bottoms of the conductive sliding seat and the insulating sliding seat, the insulating sliding seat is made of insulating rubber materials, a motor end box is fixed at the bottom of the insulating sliding seat through bolts, a driving motor is fixed on the inner wall of one end of the motor end box through bolts, a conductive column lead screw extending to the outside is fixed at an output shaft of the driving motor, a top sliding groove end cover is fixed at one end position of the top sliding groove through bolts, and one end of the conductive column lead screw is sleeved with the top sliding groove end cover through a bearing.

Preferably, the top of live wire conducting strip has seted up the end spout that the level runs through, the live wire conducting strip is located the both ends position of end spout and has sealed end cover of end spout through the bolt fastening, two have same electric conduction post slide bar through the bolt fastening between the end cover of end spout, and electric conduction post slide bar is located the inside of end spout.

Preferably, a vertical conductive column group is slidably arranged between the bottoms of the conductive sliding seat and the insulating sliding seat and the top of the bottom sliding groove, the top of the conductive column group is slidably clamped with the top sliding groove, the bottom of the conductive column group is slidably clamped with the bottom sliding groove, the top of the conductive sliding seat is fixed with a frame fire wire binding post, and the top and the bottom of the conductive column group are respectively in electrical contact with the conductive sliding seat and a fire wire conductive strip.

Preferably, the middle positions of the top and the bottom of the conductive column group are respectively embedded and fixed with a penetrating insulating block, the insulating blocks are positioned at the top, the circumferential inner wall of the insulating blocks is sleeved and fixed with the conductive column screw rod through threads, the insulating blocks are positioned at the bottom, the insulating blocks are fixedly clamped with the circumferential outer wall of the conductive column sliding rod in a sliding manner, and the conductive column group comprises a first conductive column, a second conductive column and a third conductive column.

Preferably, the upper clamping groove is formed in the top of the fixing frame, the lower clamping groove is formed in the bottom of the fixing frame, the lower clamping block is fixed on the inner wall of the bottom of the socket body, the lower clamping block is fixedly connected with the lower clamping groove in a clamping manner, the upper clamping block sliding groove is formed in the inner wall of the top of the socket body, the upper clamping block is fixedly connected with the inner sliding groove of the upper clamping block in a clamping manner, two adjusting bolts are fixed at the top of the socket body, and the two adjusting bolts are fixed with the top of the upper clamping block.

Preferably, a current sensor is embedded and fixed on the inner wall of one side of the fixed frame, the top of the current sensor is electrically connected with one side of the first conductive column, the bottom of the current sensor is electrically connected with one side of the live wire conductive strip, a voltage sensor is embedded and fixed on the inner wall of one side of the fixed frame, and the top and the bottom of the voltage sensor are respectively electrically connected with one sides of the live wire conductive strip and the zero wire conductive strip.

The beneficial effects of the invention are as follows:

1. this electric power rack power distribution device monitors the circulation current of this socket body through current sensor, detect the voltage on this socket body through voltage sensor, detect the use power of this socket body through current sensor and voltage sensor's detection, when low power operation, rotate the conducting column lead screw through the driving motor in the motor end box and rotate, it is electrically conductive to remove the conducting column group to one end only to remain first conducting column, obtain better power transmission effect, reduce the loss, when detecting power is great, make the conducting column lead screw through driving motor drive first conducting column, second conducting column and the third conducting column of conducting column group all be located and all realize electrically conductive effect between electrically conductive slide and the live wire conducting strip, increase the thick electrically conductive power that improves of conducting column group, make this socket body have the effect of high-power load, make the power of this socket body can realize distributing the effect of conducting column group according to the power, improve electrically conductive efficiency.

2. This electric power rack power distribution device, clamping block and lower draw-in groove joint under the bottom with socket body, in the last draw-in groove at fixed frame top is gone into to the top card with socket body, go up the fixture block through adjusting bolt and descend, make socket body fixed stable after with last draw-in groove joint, top and frame live wire terminal electric connection with socket body through the live wire, bottom and the zero line terminal electric connection with socket body through the zero line wire, through this joint mode, can realize the combination of modularization with socket body, the effect of the distribution use of improvement socket.

Drawings

Fig. 1 is a schematic diagram of the overall structure of a power distribution device of an electric power cabinet according to the present invention;

fig. 2 is a schematic diagram of a socket body of a power distribution device of an electric power cabinet according to the present invention;

fig. 3 is a schematic diagram illustrating the overall structure of a power distribution device of an electric power cabinet according to the present invention;

fig. 4 is a schematic diagram illustrating a front view of a power distribution device of an electric power cabinet according to the present invention;

fig. 5 is a schematic diagram of an internal conductive structure of a power distribution device of an electric power cabinet according to the present invention;

fig. 6 is a schematic structural diagram of a conductive block adjusting mechanism of a power distribution device of an electric power cabinet according to the present invention;

fig. 7 is a schematic structural diagram of a detection mechanism of a power distribution device of an electric power cabinet according to the present invention;

fig. 8 is a schematic diagram of an insulation block structure of a power distribution device of an electric power cabinet according to the present invention.

In the figure: 1. a fixed frame; 2. an upper clamping groove; 3. a live wire conductor; 4. a wire inlet slot; 5. a power-in wiring block; 6. a lower clamping groove; 7. a zero line conductive line; 8. a socket body; 9. a lower clamping block; 10. a clamping block is arranged; 11. an upper clamping block chute; 12. a live wire conductive clamping piece; 13. socket live wire wiring groove; 14. the frame live wire binding post; 15. a ground wire binding post; 16. zero line inlet slot; 17. a live wire inlet slot; 18. a zero line conducting bar; 19. a live wire conducting bar; 20. a zero line conductive slot; 21. a zero line conductive post; 22. a live wire conductive groove; 23. a first conductive pillar; 24. a conductive slider; 25. an insulating slider; 26. a second conductive post; 27. a third conductive post; 28. a bottom chute; 29. a bottom chute end cap; 30. a top chute end cover; 31. a top chute; 32. a conductive column lead screw; 33. a motor end box; 34. a conductive column slide bar; 35. a current sensor; 36. a voltage sensor; 37. an insulating block.

Detailed Description

Referring to fig. 1-8, a power cabinet power supply distribution device comprises a fixed frame 1, wherein a socket body 8 is arranged at one side position of the fixed frame 1 in a clamping manner, a frame live wire binding post 14 is arranged at the top of the fixed frame 1, a frame neutral wire binding post is arranged at the bottom of the fixed frame 1, a socket live wire wiring groove 13 is arranged at the top of the socket body 8, a live wire conducting clamping piece 12 is fixed in the socket live wire wiring groove 13 through a bolt, a socket neutral wire wiring groove is arranged at the bottom of the socket body 8, a neutral wire conducting clamping piece is fixed in the socket neutral wire wiring groove through a bolt, a live wire conducting groove 22 is arranged at one side top of the fixed frame 1, a live wire conducting strip 19 is fixed at the bottom of the live wire conducting groove 22 through a bolt, a neutral wire conducting groove 20 is arranged at one side bottom of the fixed frame 1, a neutral wire conducting strip 18 is fixed at the top of the neutral wire conducting groove 20 through a bolt, a conducting block adjusting mechanism is arranged at the top of the live wire conducting groove 22, and a binding post 15 is fixed at one side middle position of the fixed frame 1;

further, the live wire conducting wire 3 is clamped and fixed in the socket live wire wiring groove 13 through the live wire conducting clamping piece 12, the other end of the live wire conducting wire 3 is fixed with the frame live wire binding post 14, the zero wire conducting wire 7 is clamped and fixed in the socket zero wire wiring groove through the zero wire conducting clamping piece, and one end of the zero wire conducting wire 7 is fixed with the frame zero wire binding post;

further, a wire inlet slot 4 is formed at one end position of the fixed frame 1, a wire inlet block 5 is fixed at one side position of the wire inlet slot 4, a live wire inlet slot 17 is formed at the top position of the wire inlet block 5, one end of a live wire conducting strip 19 extends to the inside of the live wire inlet slot 17, a zero wire inlet slot 16 is formed at the bottom position of the wire inlet block 5, and one end of a zero wire conducting strip 18 extends to the inside of the zero wire inlet slot 16;

further, the conductive block adjusting mechanism comprises a conductive sliding seat 24 and an insulating sliding seat 25, wherein the top position of a live wire conductive groove 22 is fixed through a bolt, the conductive sliding seat 24 and the insulating sliding seat 25 are fixed through bolts, a penetrating top sliding groove 31 is formed in the bottoms of the conductive sliding seat 24 and the insulating sliding seat 25, the insulating sliding seat 25 is made of insulating rubber, a motor end box 33 is fixed at the bottom of the insulating sliding seat 25 through a bolt, a driving motor is fixed on the inner wall of one end of the motor end box 33 through a bolt, a conductive column lead screw 32 extending to the outside is fixed on an output shaft of the driving motor, a top sliding groove end cover 30 is fixed at one end position of the conductive sliding seat 24, and one end of the conductive column lead screw 32 is sleeved with the top sliding groove end cover 30 through a bearing;

further, a bottom sliding groove 28 which penetrates horizontally is formed in the top of the live wire conducting strip 19, sealed bottom sliding groove end covers 29 are fixed at the two ends of the live wire conducting strip 19 located in the bottom sliding groove 28 through bolts, the same conducting column sliding rod 34 is fixed between the two bottom sliding groove end covers 29 through bolts, and the conducting column sliding rod 34 is located in the bottom sliding groove 28;

further, a vertical conductive column group is slidably arranged between the bottoms of the conductive slide seat 24 and the insulating slide seat 25 and the top of the bottom slide groove 28, the top of the conductive column group is slidably clamped with the top slide groove 31, the bottom of the conductive column group is slidably clamped with the bottom slide groove 28, the top of the conductive slide seat 24 is fixed with the frame live wire binding post 14, and the top and the bottom of the conductive column group are respectively in electrical contact with the conductive slide seat 24 and the live wire conductive strip 19;

further, the middle positions of the top and the bottom of the conductive column group are respectively embedded and fixed with a penetrating insulating block 37, the circumference inner wall of the top insulating block 37 is in threaded sleeve connection with the conductive column screw rod 32, the circumference outer wall of the bottom insulating block 37 and the conductive column slide rod 34 are in sliding clamping connection and fixed, and the conductive column group comprises a first conductive column 23, a second conductive column 26 and a third conductive column 27;

further, an upper clamping groove 2 is formed in the top of the fixed frame 1, a lower clamping groove 6 is formed in the bottom of the fixed frame 1, a lower clamping block 9 is fixed on the inner wall of the bottom of the socket body 8, the lower clamping block 9 is fixedly clamped with the lower clamping groove 6, an upper clamping block sliding groove 11 is formed in the inner wall of the top of the socket body 8, an upper clamping block 10 is slidably clamped in the upper clamping block sliding groove 11, two adjusting bolts are fixed on the top of the socket body 8, and the two adjusting bolts are fixed with the top of the upper clamping block 10;

further, a current sensor 35 is fixedly embedded in one side inner wall of the fixed frame 1, the top of the current sensor 35 is electrically connected with one side of the first conductive post 23, the bottom of the current sensor 35 is electrically connected with one side of the live wire conductive strip 19, a voltage sensor 36 is fixedly embedded in one side inner wall of the fixed frame 1, and the top and the bottom of the voltage sensor 36 are respectively electrically connected with one side of the live wire conductive strip 19 and one side of the zero wire conductive strip 18.

The invention is used when: when the socket is used, the fixed frame 1 is fixed in the electric power cabinet through bolts, a zero-live wire inlet wire in the electric power cabinet is respectively connected into a zero-line inlet groove 16 and a live wire inlet groove 17 in the electric power wiring block 5, so that a zero-line conducting strip 18 is connected into a zero line, a live wire conducting strip 19 is connected into a live wire, a bottom lower clamping block 9 of the socket body 8 is clamped with the lower clamping groove 6, the top of the socket body 8 is clamped into an upper clamping groove 2 at the top of the fixed frame 1, an upper clamping block 10 is regulated to descend through an adjusting bolt, the socket body 8 is clamped with the upper clamping groove 2 to be stable, the top of the socket body 8 is electrically connected with a frame live wire binding post 14 through a live wire conducting wire 3, the bottom of the socket body 8 is electrically connected with the zero-line binding post through the zero wire conducting wire 7, and the socket body 8 is connected with power supply to external equipment for use; in the use process, the current flowing through the socket body 8 is monitored through the current sensor 35, the voltage on the socket body 8 is detected through the voltage sensor 36, the use power of the socket body 8 is detected through the detection of the current sensor 35 and the voltage sensor 36, the conductive column lead screw 32 is rotated through the driving motor in the motor end box 33 during low-power operation, the conductive column group is moved to one end, only the first conductive column 23 is reserved for conducting, a better power transmission effect is obtained, loss is reduced, when the detection power is high, the conductive column lead screw 32 is driven through the driving motor, the conductive column 23, the second conductive column 26 and the third conductive column 27 of the conductive column group are all located between the conductive sliding seat 24 and the fire wire conductive strip 19, the wire thickness of the conductive column group is increased to improve the conductive power, the socket body 8 has the effect of high-power load, the effect of distributing the conductive column group according to the power can be achieved, and the efficiency is improved.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims

1. The utility model provides a power cabinet power distribution device, includes fixed frame (1), one side position joint of fixed frame (1) is provided with socket body (8), the top of fixed frame (1) is provided with frame live wire terminal (14), the bottom of fixed frame (1) is provided with frame zero line terminal, a serial communication port, socket live wire wiring groove (13) have been seted up at the top of socket body (8), and the inside of socket live wire wiring groove (13) is fixed with live wire conducting clip (12) through the bolt, socket zero line wiring groove has been seted up to the bottom of socket body (8), and the inside of socket zero line wiring groove is fixed with the conducting clip of zero line through the bolt, live wire conducting groove (22) have been seted up at the top of one side of fixed frame (1), and the bottom position of live wire conducting groove (22) is fixed with live wire conducting bar (19) through the bolt, zero line conducting groove (20) have been seted up at the bottom one side of fixed frame (1), and zero line conducting groove (18) have through the bolt fixing zero line conducting bar (22), the top of setting up middle position of live wire terminal (15) of electric wire guide block (1);

the conductive block adjusting mechanism comprises a conductive sliding seat (24) and an insulating sliding seat (25) which are fixed at the top of a live wire conductive groove (22) through bolts, the conductive sliding seat (24) and the insulating sliding seat (25) are fixed through bolts, a penetrating top sliding groove (31) is formed in the bottoms of the conductive sliding seat (24) and the insulating sliding seat (25), the insulating sliding seat (25) is made of insulating rubber, a motor end box (33) is fixed at the bottom of the insulating sliding seat (25) through bolts, a driving motor is fixed at one end inner wall of the motor end box (33) through bolts, a conductive column lead screw (32) extending to the outside is fixed at an output shaft of the driving motor, a top sliding groove end cover (30) is fixed at one end of the conductive sliding seat (24) positioned at the top sliding groove (31) through bolts, and one end of the conductive column lead screw (32) is sleeved with the top sliding groove end cover (30) through a bearing;

a horizontal through bottom chute (28) is formed in the top of the live wire conducting strip (19), sealed bottom chute end covers (29) are fixed at two end positions of the live wire conducting strip (19) located at the bottom chute (28) through bolts, the same conducting column sliding rod (34) is fixed between the two bottom chute end covers (29) through bolts, and the conducting column sliding rod (34) is located inside the bottom chute (28);

the vertical conductive column group is arranged between the bottoms of the conductive sliding seat (24) and the insulating sliding seat (25) and the top of the bottom sliding groove (28) in a sliding manner, the top of the conductive column group is arranged in a sliding clamping manner with the top sliding groove (31), the bottom of the conductive column group is arranged in a sliding clamping manner with the bottom sliding groove (28), the top of the conductive sliding seat (24) is fixed with the frame live wire binding post (14), and the top and the bottom of the conductive column group are respectively in electrical contact with the conductive sliding seat (24) and the live wire conductive strip (19).

2. The power cabinet power distribution device according to claim 1, wherein the live wire conducting wire (3) is clamped and fixed in the socket live wire wiring groove (13) through a live wire conducting clamping piece (12), the other end of the live wire conducting wire (3) is fixed with the frame live wire binding post (14), the zero wire conducting wire (7) is clamped and fixed in the socket zero wire wiring groove through a zero wire conducting clamping piece, and one end of the zero wire conducting wire (7) is fixed with the frame zero wire binding post.

3. The power cabinet power distribution device according to claim 1, wherein a wire inlet slot (4) is formed in one end position of the fixed frame (1), a wire inlet connection block (5) is fixed at one side position of the wire inlet slot (4), a wire inlet slot (17) is formed in the top position of the wire inlet connection block (5), one end of a wire conducting strip (19) extends to the inside of the wire inlet slot (17), a zero wire inlet slot (16) is formed in the bottom position of the wire inlet connection block (5), and one end of a zero wire conducting strip (18) extends to the inside of the zero wire inlet slot (16).

4. The power cabinet power distribution device according to claim 1, wherein the middle positions of the top and the bottom of the conductive column group are respectively embedded and fixed with an insulation block (37) penetrating through, the circumference inner wall of the insulation block (37) at the top is in threaded sleeve connection and fixation with the conductive column lead screw (32), the circumference outer wall of the insulation block (37) and the conductive column slide bar (34) at the bottom is in sliding clamping fixation, and the conductive column group comprises a first conductive column (23), a second conductive column (26) and a third conductive column (27).

5. The power cabinet power distribution device according to claim 1, wherein an upper clamping groove (2) is formed in the top of the fixing frame (1), a lower clamping groove (6) is formed in the bottom of the fixing frame (1), a lower clamping block (9) is fixed on the inner wall of the bottom of the socket body (8), the lower clamping block (9) is fixedly clamped with the lower clamping groove (6), an upper clamping block sliding groove (11) is formed in the inner wall of the top of the socket body (8), an upper clamping block (10) is fixedly clamped in the inner sliding groove (11), two adjusting bolts are fixed on the top of the socket body (8), and the two adjusting bolts are fixedly clamped with the top of the upper clamping block (10).

6. The power distribution device for the electric cabinet according to claim 4, wherein a current sensor (35) is embedded and fixed on an inner wall of one side of the fixed frame (1), the top of the current sensor (35) is electrically connected with one side of the first conductive column (23), the bottom of the current sensor (35) is electrically connected with one side of the live wire conductive strip (19), a voltage sensor (36) is embedded and fixed on an inner wall of one side of the fixed frame (1), and the top and the bottom of the voltage sensor (36) are respectively electrically connected with one side of the live wire conductive strip (19) and one side of the neutral wire conductive strip (18).