CN210866794U - Remote intelligent control distribution box - Google Patents

Abstract

The utility model relates to a remote intelligent control distribution box, including main circuit breaker, power control module, solid state relay control module and consumer control module, power control module includes latching button and relay LT, and latching button and relay LT's coil is established ties between live wire L3 and zero line N in proper order; the solid-state relay control module comprises a remote controller, a solid-state relay drive circuit, a solid-state relay JGT and a 5V direct-current power supply, the remote controller is integrated with a wireless communication module, the solid-state relay drive circuit is respectively connected with the remote controller and the control end of the solid-state relay JGT, and a normally open contact LT-1 of the relay LT and the power supply end of the solid-state relay JGT are sequentially connected in series at the positive and negative ends of the 5V direct-current power supply; and an external alternating current power supply is connected with the electric equipment through contacts of the main circuit breaker and the solid state relay JGT in sequence. This application can reach intelligent remote control and unmanned monitoring, effectively ensures the work of consumer safety, reliable, stable, orderly.

Description

Remote intelligent control distribution box

Technical Field

The utility model relates to a block terminal technical field especially relates to a remote intelligent control block terminal.

Background

The distribution box has the characteristics of stable and reliable operation, high space utilization rate, less occupied area and environmental protection effect, and can reasonably distribute electric energy and conveniently open and close the circuit. However, the conventional distribution box still stays at the stage of manually operating and electrifying the electric control equipment to work, the operation is troublesome, and the intelligent degree is not high.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a remote intelligent control block terminal that need not manual control, intelligent degree is high.

For realizing the purpose of the utility model, the utility model adopts the following technical scheme:

a remote intelligent control distribution box comprises a distribution box body, wherein a main circuit breaker, a power supply control module, a solid relay control module and an electric equipment control module are arranged in the distribution box body, an external alternating current power supply is respectively connected with the power supply control module and the electric equipment control module through the main circuit breaker, the power supply control module comprises a self-locking button and a relay LT, the first end of the self-locking button is connected with a live wire L3 of the external alternating current power supply, and the second end of the self-locking button is connected with a zero line N of the external alternating current power supply through a coil of the relay LT; the solid-state relay control module comprises a remote controller, a solid-state relay drive circuit, a solid-state relay JGT and a 5V direct-current power supply, the remote controller is integrated with a wireless communication module, the solid-state relay drive circuit is respectively connected with the remote controller and the control end of the solid-state relay JGT, the power input negative pole end of the solid-state relay JGT is connected with the negative pole of the 5V direct-current power supply, and the power input positive pole end of the solid-state relay JGT is connected with the positive pole of the 5V direct-current power supply through a normally open contact LT-1 of the relay LT; the electric equipment control module comprises 3 electric equipment control circuits, each electric equipment control circuit comprises a breaker, and the external alternating current power supply is connected with electric equipment through the main breaker, the contacts of the solid-state relay JGT and the breaker in sequence.

Compare in traditional block terminal, the remote intelligent control block terminal that this application provided can reach intelligent remote control and unmanned monitoring, effectively ensures the work of consumer safety, reliable, stable, orderly.

In one of them embodiment, still be equipped with indication module on the surface of block terminal body, indication module includes 3 live wire indicating lines, is equipped with a live wire indicating line between live wire L1 and the zero line N, between live wire L2 and the zero line N, respectively between live wire L3 and the zero line N, and every live wire indicating line is including the insurance seat and the power indicator that establish ties in proper order, live wire L3 with establish ties in proper order between the zero line N the insurance seat with self-locking button.

In one embodiment, the power control module further comprises a manual indicator light, and the safety seat, the self-locking button and the manual indicator light are sequentially connected in series between the live wire L3 and the zero wire N.

In one embodiment, the wireless communication module includes a WIFI module, a network module, or an infrared module.

In one embodiment, the total circuit breaker adopts a miniature circuit breaker with the model number of NXB-63/D40A 3P.

In one embodiment, the breaking circuit breaker is a miniature circuit breaker with the model number of NXB-63/322P.

In one embodiment, the distribution box body adopts a closed sheet metal cabinet.

Drawings

FIG. 1 is a schematic diagram of an electrical schematic of a consumer control module in one embodiment;

FIG. 2 is a schematic structural diagram of a solid state relay control module according to an embodiment;

FIG. 3 is a schematic diagram of a circuit of a power control module according to an embodiment;

FIGS. 4 and 5 are schematic circuit diagrams of an indicator block according to an embodiment;

fig. 6 is a schematic circuit diagram of a power control module in another embodiment.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise. In the description of the present invention, "a plurality" means at least one, e.g., one, two, etc., unless specifically limited otherwise.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the methods or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Referring to fig. 1 to 3, the embodiment provides a remote intelligent control distribution box, which includes a distribution box body, a main breaker QB0, a power control module, a solid-state relay control module and an electric equipment control module are arranged in the distribution box body, an external ac power supply is respectively connected with the power control module and the electric equipment control module through the main breaker QB0, the power control module includes a self-locking button SB0 and a relay LT, a first end of the self-locking button SBO is connected with a live wire L3 of the external ac power supply, and a second end of the self-locking button SBO is connected with a zero line N of the external ac power supply through a coil of the relay LT; the solid-state relay control module comprises a remote controller, a solid-state relay drive circuit, a solid-state relay JGT and a 5V direct-current power supply, the remote controller is integrated with a wireless communication module, the solid-state relay drive circuit is respectively connected with the remote controller and the control end of the solid-state relay JGT, the power input negative pole end of the solid-state relay JGT is connected with the negative pole of the 5V direct-current power supply, and the power input positive pole end of the solid-state relay JGT is connected with the positive pole of the 5V direct-current power supply through a normally open contact LT-1 of a relay LT; the electric equipment control module comprises 3 electric equipment control circuits, each electric equipment control circuit comprises an open circuit breaker, specifically, the 3 electric equipment control circuits respectively and correspondingly comprise an open circuit breaker QB1, an open circuit breaker QB2 and an open circuit breaker QB3, and an external alternating current power supply is connected with electric equipment sequentially through a main circuit breaker QB0, a contact of a solid-state relay JGT and open circuit breakers QB 1-QB 3.

In the embodiment, the total breaker QB0 can adopt a miniature breaker with the model number of NXB-63/D40A 3P; the open circuit breakers QB 1-QB 3 can adopt miniature circuit breakers of the type NXB-63/322P; the solid-state relay JGT can adopt a 40A solid-state relay; the wireless communication module can adopt a WIFI module, a network module or an infrared module.

The working principle of the remote intelligent control distribution box provided by the embodiment is that an external alternating current power supply is connected from a main breaker QB0, a self-locking button SBO is pressed, a relay LT coil in a power supply control module is electrified, a normally open contact LT-1 of the relay LT is closed, and a 5V direct current power supply supplies power to a solid state relay JGT coil; at the moment, a communication relation with a wireless communication module integrated on a remote controller can be established through a mobile phone, a computer (through WIFI, mobile and communication networks) or an infrared remote control handle; then sending a control signal to a remote controller through a mobile phone, a computer (through WIFI, a mobile and internet) or an infrared remote control handle, sending a driving signal to a control end of the solid-state relay JGT through a solid-state relay driving circuit by the remote controller according to the received control signal, and driving the connection or disconnection of a solid-state relay JGT coil, wherein the control signal specifically comprises a control signal for starting, stopping or triggering the solid-state relay JGT to work through a timing switch; at the moment, an external alternating current power supply can supply power to electric equipment through opening or closing of contacts of a solid relay JGT through breaker B1-QB 3, wherein a main breaker QB0 and breaker QB 1-QB 3 are in a closed state before the distribution box is electrified, and the main breaker QB0 and the breaker QB 1-QB 3 are designed in the distribution box, so that the electric safety and normal work of the electric equipment can be ensured, and the fault equipment can be timely cut off when the electric equipment is in fault (electric leakage, short circuit and overload). Compare in traditional block terminal, intelligent remote control and unmanned monitoring can be reached in this application, effectively ensure the work of consumer safety, reliable, stable, orderly.

In one embodiment, referring to fig. 4 and 5, an indication module is further arranged on the outer surface of the distribution box body, the indication module comprises 3 live wire indication lines, a live wire indication line is respectively arranged between the live wire L1 and the zero line N, between the live wire L2 and the zero line N, and between the live wire L3 and the zero line N, each live wire indication line comprises a safety seat and a power indicator lamp which are sequentially connected in series, and the safety seat and the self-locking button SB0 are sequentially connected in series between the live wire L3 and the zero line N. Specifically, a fuse holder FU1 and a power indicator GR1 are sequentially connected in series between the live wire L1 and the zero wire N, a fuse holder FU2 and a power indicator GR2 are sequentially connected in series between the live wire L2 and the zero wire N, a fuse holder FU3 and a power indicator GR3 are sequentially connected in series between the live wire L3 and the zero wire N, and a fuse holder FU3 and a self-locking button SB0 are sequentially connected in series between the live wire L3 and the zero wire N.

In this embodiment, the power indicator includes a power indicator GR1, a power indicator GR2, and a power indicator GR3, where the power indicators GR1 to GR3 are used to indicate three-phase power, so that an operator can visually observe the operating state of each phase of power. Specifically, when the power indicator lamps GR 1-GR 3 are fully turned on, it indicates that the input line is normal, otherwise, the input line has the problems of phase loss, poor contact or wrong connection, and an operator needs to perform problem troubleshooting and maintenance.

It should be noted that, before an external ac power supply is connected to the distribution box, it is necessary to check whether the internal connection of the distribution box is correct, that is, before the distribution box is powered on, it is checked whether the total breaker QB0 and the breaking breakers QB1 to QB3 are in an open state, and if not, they need to be disconnected; and then closing the total breaker QB0, checking whether the power indicator lamps GR 1-GR 3 are fully lighted, if not, indicating that the current line has a problem, removing the problem points, then executing the next step, and closing and breaking the circuit breakers QB 1-QB 3 one by one after the power indicator lamps GR 1-GR 3 are fully lighted. When the circuit is cut off, the breaking circuit breakers QB 1-QB 3 need to be disconnected one by one, and then the main circuit breaker QB0 is disconnected.

In one embodiment, referring to fig. 6, the power control module further includes a manual indicator GR4, and a safety seat FU3, a self-locking button SBO and a manual indicator GR4 are sequentially connected in series between the live wire L3 and the neutral wire N.

In this embodiment, the manual indicator GR4 is used to indicate the on-off state of the self-locking button SB0, so that the operator can visually observe the current state of the current self-locking button SB0, and the occurrence of misoperation of the self-locking button SB0 is prevented.

In one embodiment, the block terminal body adopts closed sheet metal cabinet.

In the embodiment, the distribution box body adopts the closed type metal plate box, and the shell of the box is well grounded, so that the electric shock safety of a human body can be effectively protected and reduced; the problem that the conductivity of the electrical module in the cabinet is reduced due to oxidation can be effectively solved; still have simultaneously dustproof, prevent that the toy from getting into to destroy advantages such as cabinet internal line, various foreign matter harm switch board of effective isolation.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (7)

1. A remote intelligent control distribution box comprises a distribution box body and is characterized in that a main circuit breaker, a power supply control module, a solid-state relay control module and an electric equipment control module are arranged in the distribution box body, an external alternating current power supply is respectively connected with the power supply control module and the electric equipment control module through the main circuit breaker, the power supply control module comprises a self-locking button and a relay LT, the first end of the self-locking button is connected with a live wire L3 of the external alternating current power supply, and the second end of the self-locking button is connected with a zero line N of the external alternating current power supply through a coil of the relay LT; the solid-state relay control module comprises a remote controller, a solid-state relay drive circuit, a solid-state relay JGT and a 5V direct-current power supply, the remote controller is integrated with a wireless communication module, the solid-state relay drive circuit is respectively connected with the remote controller and the control end of the solid-state relay JGT, the power input negative pole end of the solid-state relay JGT is connected with the negative pole of the 5V direct-current power supply, and the power input positive pole end of the solid-state relay JGT is connected with the positive pole of the 5V direct-current power supply through a normally open contact LT-1 of the relay LT; the electric equipment control module comprises 3 electric equipment control circuits, each electric equipment control circuit comprises a breaker, and the external alternating current power supply is connected with electric equipment through the main breaker, the contacts of the solid-state relay JGT and the breaker in sequence.

2. The remote intelligent control distribution box of claim 1, wherein an indication module is further arranged on an outer surface of the distribution box body, the indication module comprises 3 live wire indication lines, a live wire indication line is respectively arranged between the live wire L1 and the zero line N, between the live wire L2 and the zero line N, and between the live wire L3 and the zero line N, each live wire indication line comprises a safety seat and a power indicator lamp which are sequentially connected in series, and the safety seat and the self-locking button are sequentially connected in series between the live wire L3 and the zero line N.

3. The remote intelligent control distribution box of claim 2, wherein the power control module further comprises a manual indicator light, and the fuse holder, the self-locking button and the manual indicator light are sequentially connected in series between the live wire L3 and the zero wire N.

4. The remote intelligent control distribution box of claim 1, wherein the wireless communication module comprises a WIFI module, a network module, or an infrared module.

5. The remote intelligent control distribution box of claim 1, wherein the total circuit breaker is a miniature circuit breaker model NXB-63/D40A 3P.

6. The remote intelligent control distribution box of claim 1, wherein the breaker is a miniature circuit breaker of type NXB-63/322P.

7. The remote intelligent control distribution box of claim 1, wherein the distribution box body is a closed sheet metal box.

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