CN220857123U - Integral hard-wired structural component inside socket or PDU - Google Patents

Abstract

The utility model discloses an integral hard-connection structural component in a socket or a PDU (power distribution unit), which relates to the technical field of sockets and comprises a shell and a conductive connecting mechanism, wherein one end in the shell is provided with a junction box, the shell at one side of the output end of the junction box is internally provided with a circuit breaker, the shell at one side of the circuit breaker, which is far away from the junction box, is internally provided with a plurality of socket heads, and a live wire connector, a zero wire connector and a ground wire connector of the socket heads are all connected with socket head conductive copper strips.

Description

Integral hard-wired structural component inside socket or PDU

Technical Field

The utility model relates to the technical field of sockets, in particular to an integral hard-connection structural component in a socket or a PDU.

Background

The prior socket internal connection structure process often adopts an electric wire to connect a copper bar or a copper strip, the traditional process can cause line damage when cutting wires by a little carelessness, and secondly, when welding, if soldering is adopted, the temperature rise of welding spots generated during industrial high-power distribution can not be avoided, and when the line body is directly welded with the copper bar in a resistance mode, the line loss caused by splashing and overflowing can not be completely avoided.

Meanwhile, in view of the energy-saving and environment-friendly severity of the current data center power distribution, for example: the natural power consumption of the whole power distribution socket under the full load condition is not higher than 10W, and the technical specification requirements of the whole plastic content of the product, the recoverable occupation ratio of raw materials and the like are difficult to solve on the basis of the traditional flexible wire connection technology.

In response to the foregoing problems, an improved socket or PDU internal integral hard-wired structural component is now devised.

Disclosure of utility model

It is an object of the present utility model to provide a socket or integral hard-wired structural component within a PDU that addresses the problems set forth in the background art above.

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

The utility model provides an inside whole hard connection structural component of socket or PDU, includes casing and conductive connection mechanism, the terminal box is installed to inside wherein one end of casing, the casing internally mounted of terminal box output one side has the circuit breaker, the casing internally mounted that circuit breaker is kept away from terminal box one side has a plurality of socket head, all be connected with socket head conductive copper strips on the live wire joint, zero line joint and the ground wire joint of socket head.

The conductive connecting mechanism is arranged among the junction box, the circuit breaker and the socket head conductive copper strip and is used for transmitting electricity to the socket head.

As a further scheme of the utility model: the conductive connecting mechanism comprises a breaker input end adapter, a breaker output end adapter, a zero line conductive copper strip and a ground wire conductive copper strip, wherein the breaker input end adapter is arranged between a junction box and a breaker, one end of the breaker output end adapter is connected with a socket head conductive copper strip on a socket head fire wire, two ends of the breaker input end adapter and one end of the breaker output end adapter, which is far away from the socket head conductive copper strip, are respectively provided with a second OT adapter terminal, the breaker output end adapter is connected with an output end terminal of the breaker through the second OT adapter terminal, one end of the breaker input end adapter is connected with an input end terminal of the breaker through the second OT adapter terminal, and one end of the breaker input end adapter, which is far away from the breaker, is connected with a live wire terminal of the junction box through the second OT adapter terminal.

The zero line conductive copper strip and the ground wire conductive copper strip are arranged below the circuit breaker, a first OT switching terminal is arranged at one end of the zero line conductive copper strip and one end of the ground wire conductive copper strip, which are close to the junction box, a zero line switching piece is arranged at one end of the zero line conductive copper strip, which is close to the socket head, and the zero line switching piece is connected with the socket head conductive copper strip on the zero line of the socket head, the zero line conductive copper strip is connected with the zero line terminal of the junction box through the first OT switching terminal, the ground wire switching piece is installed at one end of the ground wire conductive copper strip, which is close to the socket head, and the ground wire switching piece is connected with the socket head conductive copper strip on the ground wire of the socket head, and one end, which is far away from the socket head, of the ground wire conductive copper strip is connected with the ground wire terminal of the junction box through the first OT switching terminal.

As still further aspects of the utility model: mounting plates which are convenient to fixedly mount the shell are mounted at two ends of the shell.

As still further aspects of the utility model: the side wall of the shell is provided with a plurality of heat dissipation holes for heat dissipation.

As still further aspects of the utility model: and the inner wall of the shell is provided with a reinforcing rib for improving the structural strength of the shell.

Compared with the prior art, the utility model has the beneficial effects that:

Compared with the prior art, the combination of the flexible wire and the OT terminal in the traditional process is optimized to the combination of the OT switching terminal and the conductive copper strip, the wire stripping condition is avoided, the wire loss is avoided during processing, and the power consumption is low during use.

Meanwhile, two working procedures of cutting wires and pressing terminals are saved, and the risk of square deficiency caused by wire loss is reduced.

Meanwhile, the OT switching terminal and the conductive copper strip are flat contact surfaces, and the current passing rate is higher.

Drawings

Fig. 1 is a schematic view of the structure of the bottom part of the present utility model.

Fig. 2 is a schematic structural view of the present utility model.

Fig. 3 is a schematic side view of the present utility model.

Fig. 4 is a schematic structural diagram of a second OT switching terminal in the present utility model.

Fig. 5 is a schematic structural diagram of a first OT switching terminal in the present utility model.

Wherein: 1. a junction box; 2. a circuit breaker; 3. a socket head; 4. a zero line conductive copper strip; 5. a first OT transit terminal; 6. a zero line adapter; 7. a circuit breaker input adapter; 8. the circuit breaker output end adapter; 9. a second OT transfer terminal; 10. a ground wire adapter; 11. a ground wire conductive copper strip; 12. a housing; 13. conductive copper strips of socket head.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-5, in the embodiment of the present utility model, the integral hard connection structure component inside the socket or PDU includes a housing 12 and a conductive connection mechanism, wherein one end inside the housing 12 is provided with a junction box 1, a circuit breaker 2 is installed inside the housing 12 on the output end side of the junction box 1, a plurality of socket heads 3 are installed inside the housing 12 on the side of the circuit breaker 2 far away from the junction box 1, and a live wire connector, a neutral wire connector and a ground wire connector of the socket heads 3 are all connected with socket head conductive copper strips 13.

The conductive connection mechanism is arranged among the junction box 1, the circuit breaker 2 and the socket head conductive copper strip 13 and is used for transmitting electricity to the socket head 3.

The conductive connection mechanism comprises a breaker input end adapter 7, a breaker output end adapter 8, a zero line conductive copper strip 4 and a ground wire conductive copper strip 11, wherein the breaker input end adapter 7 is arranged between a junction box 1 and a breaker 2, one end of the breaker output end adapter 8 is connected with a socket head conductive copper strip 13 on a socket head 3 fire wire, two ends of the breaker input end adapter 7 and one end of the breaker output end adapter 8, which is far away from the socket head conductive copper strip 13, are respectively provided with a second OT adapter terminal 9, the breaker output end adapter 8 is connected with an output end terminal of the breaker 2 through the second OT adapter terminal 9, one end of the breaker input end adapter 7 is connected with an input end terminal of the breaker 2 through the second OT adapter terminal 9, and one end of the breaker input end adapter 7, which is far away from the breaker 2, is connected with a fire wire terminal of the junction box 1 through the second OT adapter terminal 9.

The utility model discloses a circuit breaker, including circuit breaker 2, zero line copper strips 4, ground wire copper strips 11, first OT adapter terminal 5 is all installed to the one end that zero line copper strips 4 and ground wire copper strips 11 are close to terminal box 1, zero line adapter 6 is installed to the one end that zero line copper strips 4 are close to socket head 3, zero line adapter 6 links to each other with socket head copper strips 13 on the socket head 3 zero line, zero line copper strips 4 link to each other with the zero line terminal of terminal box 1 through first OT adapter terminal 5, ground wire adapter 10 is installed to the one end that ground wire copper strips 11 are close to socket head 3, ground wire adapter 10 links to each other with socket head copper strips 13 on the ground wire of socket head 3, the one end that ground wire copper strips 11 kept away from socket head 3 links to each other with the ground wire terminal of terminal box 1 through first OT adapter terminal 5.

Compared with the prior art, the combination of the flexible wire and the OT terminal in the traditional process is optimized to the combination of the OT switching terminal and the conductive copper strip, the wire stripping condition can not be generated, the wire loss can not be generated during processing, and the power consumption is low during use.

Meanwhile, two working procedures of cutting wires and pressing terminals are saved, and the risk of square deficiency caused by wire loss is reduced.

Meanwhile, the OT switching terminal and the conductive copper strip are flat contact surfaces, and the current passing rate is higher.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof.

Claims (5)

1. The socket or PDU internal integral hard connection structure component comprises a shell (12) and a conductive connection mechanism, wherein a junction box (1) is installed at one end inside the shell (12), a circuit breaker (2) is installed inside the shell (12) at one side of an output end of the junction box (1), a plurality of socket heads (3) are installed inside the shell (12) at one side of the circuit breaker (2) far away from the junction box (1), and the socket head hard connection structure component is characterized in that a live wire connector, a zero line connector and a ground wire connector of the socket heads (3) are connected with socket head conductive copper strips (13);

The conductive connecting mechanism is arranged among the junction box (1), the circuit breaker (2) and the socket head conductive copper strip (13) and is used for transmitting power to the socket head (3).

2. The socket or PDU internal integral hard-wired structural component according to claim 1, characterized in that the conductive connection mechanism comprises a breaker input end adapter (7), a breaker output end adapter (8), a zero line conductive copper strip (4) and a ground wire conductive copper strip (11), the breaker input end adapter (7) is arranged between the junction box (1) and the breaker (2), one end of the breaker output end adapter (8) is connected with a socket head conductive copper strip (13) on a fire wire of the socket head (3), both ends of the breaker input end adapter (7) and one end of the breaker output end adapter (8) far away from the socket head conductive copper strip (13) are provided with second OT adapter terminals (9), the breaker output end adapter (8) is connected with an output end terminal of the breaker (2) through the second OT adapter terminals (9), one end of the breaker input end adapter (7) is connected with an input end terminal of the breaker (2) through the second OT adapter terminals (9), and one end of the breaker input end adapter (7) far away from the junction box (1) through the second OT adapter terminals (9);

The utility model discloses a zero line copper strip (4) and ground wire copper strip (11) all set up the below in circuit breaker (2), first OT adapter terminal (5) are all installed to the one end that zero line copper strip (4) and ground wire copper strip (11) are close to terminal box (1), zero line adapter piece (6) are installed to the one end that zero line copper strip (4) are close to socket head (3), zero line adapter piece (6) link to each other with socket head copper strip (13) on the zero line of socket head (3), zero line copper strip (4) link to each other with the zero line terminal of terminal box (1) through first OT adapter terminal (5), ground wire adapter piece (10) are installed to the one end that ground wire copper strip (11) are close to socket head (3), socket head copper strip (13) on the ground wire adapter piece (10) link to each other with socket head (3), the one end that socket head (3) were kept away from to ground wire copper strip (11) links to each other with the terminal of terminal box (1) through first OT adapter terminal (5).

3. The socket or PDU interior integral hard-wired structural component of claim 1, wherein the housing (12) is mounted at both ends with mounting plates that facilitate the secure mounting of the housing (12).

4. The socket or PDU interior integral hard-wired structural component of claim 1, wherein the side walls of the housing (12) are provided with a plurality of heat dissipating holes for dissipating heat.

5. The socket or PDU interior integral hard-wired structural component of claim 1, wherein the inner wall of the housing (12) is fitted with stiffening ribs for increasing the structural strength of the housing (12).