CN217563342U - Control device and lighting control cabinet - Google Patents

Abstract

The utility model belongs to the technical field of the electricity cabinet and specifically relates to a controlgear and lighting control cabinet are related to. Comprises a circuit module; the circuit module is provided with an incoming line end and an outgoing line end, a first control module is arranged on the circuit module, the incoming line end is connected with the power supply ends, the outgoing line end is connected with the power utilization module, and the first control module is used for controlling at least one of the power supply ends to supply power to the power utilization module. The power utilization equipment can be prevented from stopping running due to the power failure of the single power supply equipment.

Description

Control device and lighting control cabinet

Technical Field

The utility model belongs to the technical field of the electricity cabinet and specifically relates to a controlgear and lighting control cabinet are related to.

Background

The existing technology is developed at a high speed, various electric equipment is increased day by day, the normal operation of the electric equipment is influenced by the conditions of power failure and the like when the electric equipment runs, and the electric equipment under an industrial scene needs to be in a working state continuously and permanently, so that a standby power supply needs to be started as soon as possible when the power failure occurs, so that the electric equipment is not influenced by the power failure.

SUMMERY OF THE UTILITY MODEL

On the one hand, the utility model provides a controlgear can avoid because the consumer that single power supply unit outage caused stops the operation.

On the other hand, the utility model provides a lighting control cabinet.

The utility model provides a control device, which comprises a circuit module;

the circuit module is provided with an incoming line end and an outgoing line end, a first control module is arranged on the circuit module, the incoming line end is connected with the power supply ends, the outgoing line end is connected with the power utilization module, and the first control module is used for controlling at least one of the power supply ends to supply power to the power utilization module.

Further, the first control module comprises a controller and a first circuit breaker; the number of the wire inlet ends is at least two, the wire inlet ends are arranged in parallel, each wire inlet end is connected with one power supply end, and each wire inlet end is provided with one first circuit breaker; the action parts of at least two first circuit breakers are connected through a linkage part;

the first circuit breakers are matched with the controllers in a one-to-one correspondence manner; or each said controller cooperates with at least one said first circuit breaker.

Furthermore, the circuit module comprises a primary circuit and a plurality of secondary circuits, the primary circuit is provided with the wire inlet end and a primary wire outlet end, each secondary circuit comprises a secondary wire inlet end and a wire outlet end, the primary wire outlet end is connected with the secondary wire inlet end, and the primary circuit is provided with the first control module.

Further, the first control module comprises a voltage regulation controller.

Further, a contactor module is arranged on the secondary circuit.

Furthermore, the control equipment further comprises a tertiary circuit, the tertiary circuit comprises a tertiary line inlet end and a plurality of tertiary line outlet ends which are connected in parallel, the tertiary line inlet end is connected with the primary line outlet end, each tertiary line outlet end is at least connected with one secondary line inlet end, and a contactor module is arranged on each tertiary line outlet end.

The utility model provides a lighting control cabinet, include as above-mentioned arbitrary controlgear.

Furthermore, the device comprises a control cabinet body and a plurality of switch units positioned in the control cabinet body, wherein one contactor module and a plurality of first conductive pieces used for forming the secondary circuit are arranged in each switch unit.

Furthermore, the first circuit breaker is located in the control cabinet body and the cavity between the switch units, and a plurality of second conductive pieces used for forming the primary circuit are further arranged in the cavity.

Furthermore, first electrically conductive piece with the electrically conductive copper bar that is of second, first electrically conductive piece with the electrically conductive joint of second.

Advantageous effects

Control device in this scheme is applied to the power consumption module that has higher requirement to power supply stability, like lighting apparatus etc. and at least one in a plurality of feeder ear of first control module control supplies power to the power consumption module, and when this feeder ear can't supply power to the power consumption module, circuit module's current-voltage change is monitored to first control module to switch to other feeder ears and supply power to the power consumption module power.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It is obvious that the drawings in the following description are only some embodiments of the invention, and that for a person skilled in the art, other drawings can be derived from these without inventive effort.

Fig. 1 is a schematic circuit diagram according to a first embodiment of the present invention;

fig. 2 is a schematic circuit diagram provided in the second embodiment of the present invention.

Reference numbers: 1-a power supply terminal; 2-a first circuit breaker; 3-a primary circuit; 4-a first control module; 5-a second circuit breaker; 6-a secondary circuit; 7-a contactor module; 8-a power utilization module; 9-three stage circuit.

Detailed Description

The following detailed description of the embodiments of the present invention will be made with reference to the accompanying drawings. It is to be understood that the description of the embodiments herein is for purposes of illustration and explanation only and is not intended to limit the invention.

Example one

As shown in fig. 1, a control apparatus includes a circuit module;

the circuit module is provided with a wire inlet end and a wire outlet end, the circuit module is provided with a first control module 4, the wire inlet end is connected with the plurality of power supply ends 1, the wire outlet end is connected with the power utilization module 8, and the first control module 4 is used for controlling at least one of the plurality of power supply ends 1 to supply power to the power utilization module 8.

The circuit module is located between supply end 1 and power consumption module 8, the inlet wire end links to each other with a plurality of supply end 1, connect in parallel each other between a plurality of supply end 1, the outlet wire end links to each other with power consumption module 8, first control module 4 is located on the circuit between inlet wire end and the outlet wire end, a power supply for controlling power consumption module 8, specifically through first control module 4, control at least one among a plurality of supply end 1 and supply power to power consumption module 8, thereby realize controlgear's many power switching functions.

The control device in this scheme is applied to power module 8 that has higher requirement to power supply stability, like lighting apparatus etc. first control module 4 control at least one among a plurality of supply terminals 1 supplies power to power module 8, when this supply terminal 1 can't supply power to power module 8, first control module 4 monitors circuit module's current-voltage change to switch to other supply terminals 1 and supply power to power module 8.

In an alternative embodiment, the first control module 4 comprises a controller and a first circuit breaker 2; the number of the incoming line ends is at least two, the incoming line ends are arranged in parallel, each incoming line end is connected with one power supply end 1, and each incoming line end is provided with one first breaker 2; the action parts of at least two first circuit breakers 2 are connected through a linkage part;

the first circuit breakers 2 are matched with the controllers in a one-to-one correspondence manner; or each cooperating with at least one first circuit breaker 2.

A plurality of feeder ear 1 access circuit module that connects in parallel each other specifically is through the inlet wire end access circuit of one-to-one, and in the inlet wire end access circuit module that connects in parallel each other, all be equipped with a first circuit breaker 2 on the circuit at every inlet wire end place, first circuit breaker 2 is located between feeder ear 1 that this inlet wire end connects and the power consumption module 8, through opening and shutting of first circuit breaker 2, can control the break-make of this feeder ear 1 to the power consumption module 8 power supply.

The action parts of the at least two first circuit breakers 2 are connected through the linkage part, namely the action parts of the first circuit breaker A positioned on the incoming line end A and the first circuit breaker B positioned on the incoming line end B are connected through the linkage part, when the first circuit breaker A executes disconnection action, the first circuit breaker B is driven to execute connection action through the linkage part, at the moment, the power supply between the power supply end 1 connected to the incoming line end A and the power utilization module 8 is disconnected, and the power supply end 1 connected to the incoming line end B starts to supply power to the power utilization module 8.

In an optional implementation manner, the circuit module includes a primary circuit 3 and a plurality of secondary circuits 6, the primary circuit 3 has a line inlet end and a primary line outlet end, each secondary circuit 6 includes a secondary line inlet end and a line outlet end, the primary line outlet end is connected to the secondary line inlet end, and the primary circuit 3 is provided with a first control module 4.

A plurality of secondary circuits 6 are connected in parallel with one-level circuits 3, a secondary wire inlet end of each secondary circuit 6 is connected with a primary wire outlet end of the one-level circuit 3, and a wire outlet end of each secondary circuit 6 is connected with an electricity utilization module 8. The current of the power supply terminal 1 enters the primary circuit 3 from the wire inlet terminal, then enters each secondary circuit 6 through the primary wire outlet terminal and the secondary wire inlet terminal, and then enters the power utilization module 8 accessed by each secondary circuit 6 through the wire outlet terminal to complete power supply.

The first control module 4 is located in the first-stage circuit 3, the first-stage circuit 3 is a bus of a branch formed by each second-stage circuit 6, the first control module 4 is located on the bus, and unified control over the electricity utilization modules 8 on each branch is achieved through the first control module 4.

In an alternative embodiment, the first control module 4 comprises a voltage regulator controller.

The voltage regulation control module realizes the light control and time control requirements of the electricity utilization module 8, such as an illuminating lamp, by controlling the voltage and the electrifying time.

In an alternative embodiment, the secondary circuit 6 is provided with a contactor module 7.

Each secondary circuit 6 is provided with a contactor module 7, the contactor module 7 is positioned between a secondary wire inlet end and a secondary wire outlet end of the secondary circuit 6 where the contactor module 7 is positioned, and each contactor module 7 controls the power supply on-off of the secondary circuit 6 where the contactor module is positioned, namely, the power utilization modules 8 on a plurality of branch lines operate independently. The contactor module 7 can remotely control the on-off of the circuit, namely, the on-off of each secondary circuit 6 can be controlled by the contactor module 7 arranged on the secondary circuit 6, so that the purpose of independently controlling the power utilization module 8 on each secondary circuit 6 is achieved.

The control device shown in fig. 1 has one primary circuit 3 and six secondary circuits 6; the primary circuit 3 is provided with two parallel inlet wire ends and a primary outlet wire end, the two inlet wire ends are connected with the primary circuit 3 in parallel, the primary outlet wire end is connected with six secondary inlet wire ends, and the six secondary circuits 6 are connected with each other in parallel.

Every inlet wire end access one feeder terminal 1, and be equipped with a first circuit breaker 2 on the circuit at every inlet wire end place, two first circuit breakers 2 realize the interlock through the connecting piece to receive the control of controller, be equipped with a contactor module 7 and a second circuit breaker 5 on every secondary circuit 6, the leading-out terminal access power consumption module 8 of every second circuit.

Example two

As shown in fig. 2, the control device includes a first-stage circuit 3, a second-stage circuit 6 and a third-stage circuit 9, the third-stage circuit 9 includes a third-stage incoming line end and a plurality of third-stage outgoing line ends connected in parallel, the third-stage incoming line end is connected with the first-stage outgoing line end, each third-stage outgoing line end is connected with at least one second-stage incoming line end, and a contactor module 7 is arranged on each third-stage outgoing line end.

The tertiary circuit 9 is located between the primary circuit 3 and the secondary circuit 6, namely, the current of the power supply terminal 1 enters the primary circuit 3 from the incoming line terminal, then enters the tertiary circuit 9 through the primary line outlet terminal and the tertiary line inlet terminal, then enters each secondary circuit 6 through the tertiary line outlet terminal and the secondary line inlet terminal, and finally enters the power utilization module 8 accessed by each secondary circuit 6 through the line outlet terminal to complete power supply.

The three-level leading-out terminal of each three-level circuit 9 is respectively connected with the two-level leading-in terminals of the two-level circuits 6, the two-level circuits 6 connected to the three-level leading-out terminal of the same three-level circuit 9 form a two-level circuit 6 group, the two-level circuit 6 group is used in the environment of the same working condition or achieves a certain electricity purpose, and therefore unified control is needed, the contactor module 7 on each three-level circuit 9 is located between the three-level leading-in terminal and the three-level leading-out terminal, and each contactor can control the power supply on-off of the three-level circuits 9.

The control device shown in fig. 2 has one primary circuit 3, two tertiary circuits 9 and six secondary circuits 6; the primary circuit 3 is provided with two parallel inlet wire ends and a primary outlet wire end, the two inlet wire ends are connected with the primary circuit 3 in parallel, the primary outlet wire end is connected with the tertiary inlet wire ends of the two tertiary circuits 9, the two tertiary circuits 9 are connected in parallel, the respective tertiary outlet wire ends are connected with the three secondary inlet wire ends respectively, the three secondary circuits 6 are connected in parallel to form a secondary circuit 6 group, and the scheme has two secondary circuit 6 groups.

Every inlet wire end inserts a feeder terminal 1, and is equipped with a first circuit breaker 2 on the circuit at every inlet wire end place, and two first circuit breakers 2 realize the interlock through the connecting piece to receive the control of controller, be equipped with a contactor module 7 on every tertiary circuit 9, every contactor module 7 can control three secondary circuit 6 promptly, is equipped with a second circuit breaker 5 on every secondary circuit 6, and the leading-out terminal of every second circuit inserts an electricity module 8.

EXAMPLE III

The embodiment of the utility model provides a lighting control cabinet, include the controlgear as above-mentioned any.

In an alternative embodiment, the lighting control cabinet comprises a control cabinet body and a plurality of switch units positioned in the control cabinet body, wherein each switch unit is internally provided with a contactor module and a plurality of first conductive pieces for forming a secondary circuit.

The switch unit in this scheme is applied to lighting control cabinet, and the switch unit is equipped with a secondary circuit, a contactor module and a second circuit breaker with the internal pull of cabinet of lighting control cabinet of mode at the drawer in every switch unit, and a plurality of first electrically conductive pieces are connected with contactor module and second circuit breaker electricity in the switch unit, still are equipped with the terminal as the controller on the switch unit simultaneously to control this contactor module. The first conductive piece is electrically connected with a primary circuit outside the switch unit through a wiring port arranged on the side wall of the switch unit.

The first circuit breaker is located in a cavity between the control cabinet body and the switch unit, and a plurality of second conductive pieces used for forming a primary circuit are further arranged in the cavity. When the switch unit is pushed into the cabinet body to reach the push-in limit, the wiring port on the switch unit is connected with the second conductive piece in the cavity in an inserting mode to realize electric connection; when the switch unit is pulled out of the cabinet body and the switch unit is pulled out of the push-in limit, the wiring port on the switch unit is separated from the second conductive piece in the cavity, and the power failure of the power element in the switch unit is realized.

In an optional embodiment, the first conductive piece and the second conductive piece are both copper bars, and the first conductive piece and the second conductive piece are clamped.

It should be noted that any of the above-mentioned embodiments illustrate rather than limit the invention, and that those skilled in the art will be able to design alternative embodiments without departing from the scope of the appended claims. In the claims, any reference signs placed between parentheses shall not be construed as limiting the claim. The word "comprising" does not exclude the presence of elements or steps not listed in a claim. The word "a" or "an" preceding an element does not exclude the presence of a plurality of such elements. The invention can be implemented by means of hardware comprising several distinct elements, and by means of a suitably programmed computer. In the unit claims enumerating several means, several of these means may be embodied by one and the same item of hardware. The use of the words first, second, previous, next, etc. do not denote any order. These words may be interpreted as names.

The above embodiments are only suitable for illustrating the present invention, and not for limiting the present invention, and those skilled in the relevant technical field can make various changes and modifications without departing from the spirit and scope of the present invention, so that all equivalent technical solutions also belong to the scope of the present invention, and the protection scope of the present invention should be defined by the claims.

Claims (9)

1. A control apparatus, comprising a circuit module;

the circuit module is provided with a wire inlet end and a wire outlet end, a first control module (4) is arranged on the circuit module, the wire inlet end is connected with the plurality of power supply ends (1), the wire outlet end is connected with an electricity utilization module (8), and the first control module (4) is used for controlling at least one of the plurality of power supply ends (1) to supply electricity to the electricity utilization module (8); the first control module (4) comprises a controller and a first circuit breaker (2); the number of the wire inlet ends is at least two, the wire inlet ends are arranged in parallel, each wire inlet end is connected with one power supply end (1), and each wire inlet end is provided with one first circuit breaker (2); the action parts of at least two first circuit breakers (2) are connected through a linkage part;

the first circuit breakers (2) are matched with the controllers in a one-to-one correspondence manner; or each of said controls cooperates with at least one of said first circuit breakers (2).

2. The control device according to claim 1, wherein the circuit module comprises a primary circuit (3) and a plurality of secondary circuits (6), the primary circuit (3) has the incoming line end and a primary outgoing line end, each secondary circuit (6) comprises a secondary incoming line end and the outgoing line end, the primary outgoing line end is connected with the secondary incoming line end, and the first control module (4) is arranged on the primary circuit (3).

3. A control arrangement according to claim 2, characterised in that the first control module (4) comprises a voltage regulator controller.

4. Control device according to claim 2, characterized in that a contactor module (7) is provided on the secondary circuit (6).

5. The control device according to claim 2, characterized in that the control device further comprises a tertiary circuit (9), the tertiary circuit (9) comprises a tertiary incoming line end and a plurality of tertiary outgoing line ends connected in parallel with each other, the tertiary incoming line end is connected with the primary outgoing line end, each tertiary outgoing line end is connected with at least one secondary incoming line end, and each tertiary outgoing line end is provided with a contactor module (7).

6. A lighting control cabinet characterized by comprising the control device of claim 4.

7. Lighting control cabinet according to claim 6, characterized in that it comprises a control cabinet body and a plurality of switch units located in said control cabinet body, each of said switch units having one of said contactor modules (7) and a plurality of first electrically conductive members for forming said secondary circuit (6).

8. The lighting control cabinet according to claim 7, wherein the first circuit breaker (2) is located in a cavity between the control cabinet body and the switch unit, and a plurality of second conductive members for forming the primary circuit (3) are further provided in the cavity.

9. The lighting control cabinet of claim 8, wherein the first conductive piece and the second conductive piece are both copper bars, and the first conductive piece and the second conductive piece are clamped.

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