CN220817892U - Flexible control terminal device for electric heating load - Google Patents

Abstract

The utility model relates to the technical field of electrical equipment, in particular to an electric heating load flexible control terminal device, which comprises a box body; a rear panel is arranged on the surface of the rear end of the box body; the inner side of the rear panel is provided with a bus plate; the inside of the box body is sequentially provided with a voltage acquisition component, a current acquisition component, a control component, a remote signaling component, a first remote control component, a second remote control component, a third remote control component, a fourth remote control component, a fifth remote control component and a power supply component from left to right; the utility model can send the data of the platform area to the platform according to the load condition, and can execute the strategy flexible control electric heating load negative switching issued by the platform, and can expand the control quantity of the electric heating load according to different scenes.

Description

Flexible control terminal device for electric heating load

Technical Field

The utility model relates to the technical field of electrical equipment, in particular to an electric heating load flexible control terminal device.

Background

The current mode of central heating in northern areas of China is gradually realized as an electric heating mode to the home, and as the transformer in the transformer area has certain capacity limitation, the current method of alternately powering off the power supply by fragments which are forced to draw the road at peak time is adopted in a plurality of places, so that great inconvenience is brought to users, and economic loss and even life safety are caused to some users. Therefore, aiming at the electricity utilization characteristics of the electric heating equipment and the living habit of the user, the electric heating load control is carried out in a planned way, the numerical value of the peak load of the whole network is reduced as much as possible, the load curve of the platform area is flatter, and the heat supply effect of the user is not influenced.

The load terminal installed in the current transformer area only records and monitors the ammeter data of the transformer in the transformer area, the load cannot be flexibly switched through a background instruction, the function adaptability is not strong, the configuration of the terminal is generally fixed, and the expansibility is not good aiming at different application scenes.

For this purpose, an electric heating load flexible control terminal device is proposed.

Disclosure of utility model

The utility model aims to provide an electric heating load flexible control terminal device.

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

an electric heating load flexible control terminal device, comprising:

A case;

a rear panel is arranged on the surface of the rear end of the box body;

the inner side of the rear panel is provided with a bus plate;

the inside of the box body is sequentially provided with a voltage acquisition component, a current acquisition component, a control component, a remote signaling component, a first remote control component, a second remote control component, a third remote control component, a fourth remote control component, a fifth remote control component and a power supply component from left to right;

And mounting lugs are fixed on the outer walls of the two sides of the box body.

Preferably, a plurality of inserted parts are arranged on the inner side of the first bus plate;

The device comprises a voltage acquisition assembly, a current acquisition assembly, a control assembly, a remote signaling assembly, a first remote control assembly, a second remote control assembly, a third remote control assembly, a fourth remote control assembly, a fifth remote control assembly and a power supply assembly, wherein one end of the voltage acquisition assembly, one end of the current acquisition assembly, one end of the control assembly, one end of the remote signaling assembly, one end of the first remote control assembly, one end of the second remote control assembly, one end of the third remote control assembly, one end of the fifth remote control assembly and one end of the power supply assembly are provided with an insertion part matched with the inserted part.

Preferably, the insertion portion is inserted into the inserted portion.

Preferably, a first threaded hole is formed in one end of the first bus plate, and a second threaded hole matched with the first threaded hole is formed in the inner side of the rear panel.

Preferably, the first threaded hole and the second threaded hole are internally and in threaded connection with fixing bolts.

Preferably, the box body is made of galvanized plates with the thickness of 1.5mm and manufactured by a sheet metal bending process;

the surface of the glass is sprayed with black matte paint, and screen printing is performed at the signal outlet.

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

The voltage acquisition component, the current acquisition component, the control component, the remote signaling component, the first remote control component, the second remote control component, the third remote control component, the fourth remote control component, the fifth remote control component and the power supply component realize internal communication in a bus board internal bus mode, and all internal bus interfaces are uniformly designed, so that the voltage acquisition component, the current acquisition component, the control component, the remote signaling component, the first remote control component, the second remote control component, the third remote control component, the fourth remote control component, the fifth remote control component and the power supply component can be mutually replaced;

The voltage acquisition component, the current acquisition component, the control component, the remote signaling component, the first remote control component, the second remote control component, the third remote control component, the fourth remote control component, the fifth remote control component and the power supply component are installed in a plug-in mode through the plugged part and the plugged part, and the voltage acquisition component, the current acquisition component, the control component, the remote signaling component, the first remote control component, the second remote control component, the third remote control component, the fourth remote control component, the fifth remote control component and the power supply component can be overhauled and replaced without disassembling the box body; the power supply assembly and the control assembly are designed into hot plug, and other assemblies can be installed and replaced in an electrified mode, so that the device can work without power failure, and the overall working efficiency and the working continuity of the equipment are improved;

The system comprises a voltage acquisition component, a current acquisition component, a remote signaling component, a first remote control component, a second remote control component, a third remote control component, a fourth remote control component and a fifth remote control component, wherein the voltage acquisition component is responsible for the load voltage acquisition function of a terminal, the current acquisition component is responsible for the current acquisition of a terminal load, the control component is a central center of the whole terminal, the connection control component is used for controlling whether control instructions output by other components and the remote signaling component acquisition terminal are effectively executed, the first remote control component, the second remote control component, the third remote control component, the fourth remote control component and the fifth remote control component execute terminal outlet commands, the power supply component is responsible for providing a power supply system for the terminal according to the configuration quantity of actual conditions, and the communication component is responsible for communicating with a main station platform.

Drawings

FIG. 1 is a schematic diagram of an exploded construction of the present utility model;

Fig. 2 is a schematic structural diagram of a voltage acquisition component, a current acquisition component, a control component, a remote signaling component, a first remote control component, a second remote control component, a third remote control component, a fourth remote control component, a fifth remote control component and a power supply component in the utility model;

FIG. 3 is a schematic view of an insert structure according to the present utility model;

fig. 4 is a schematic view of the internal structure of the case of the present utility model.

In the figure: 1. a case; 2. mounting hanging lugs; 3. a rear panel; 4. a bus board; 5. a first threaded hole; 6. a voltage acquisition assembly; 7. a current collection assembly; 8. a control assembly; 9. a remote signaling component; 10. a first remote control assembly; 11. a second remote control assembly; 12. a third remote control assembly; 13. a fourth remote control assembly; 14. a fifth remote control assembly; 15. a power supply assembly; 16. an insertion section; 17. a fixing bolt; 18. an inserted portion.

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.

In order to better understand the above technical solutions, the following detailed description will refer to the accompanying drawings and specific embodiments.

Referring to fig. 1-4, the present utility model provides a technical solution: in order to achieve the above purpose, the present utility model provides the following technical solutions: an electric heating load flexible control terminal device, comprising: a case 1; the rear end surface of the box body 1 is provided with a rear panel 3; the inner side of the rear panel 3 is provided with a bus plate 4; the inside of the box body 1 is provided with a voltage acquisition component 6, a current acquisition component 7, a control component 8, a remote signaling component 9, a first remote control component 10, a second remote control component 11, a third remote control component 12, a fourth remote control component 13, a fifth remote control component 14 and a power supply component 15 in sequence from left to right; the outer walls of the two sides of the box body 1 are respectively fixed with a mounting hanging lug 2, and a plurality of inserted parts 18 are mounted on the inner side of the bus board 4; the voltage acquisition assembly 6, the current acquisition assembly 7, the control assembly 8, the remote signaling assembly 9, the first remote control assembly 10, the second remote control assembly 11, the third remote control assembly 12, the fourth remote control assembly 13, the fifth remote control assembly 14 and the power supply assembly 15 are provided with an insertion part 16 matched with the inserted part 18, the insertion part 16 is inserted into the inserted part 18, one end of the bus board 4 is provided with a first threaded hole 5, and the inner side of the rear panel 3 is provided with a second threaded hole matched with the first threaded hole 5; the first threaded hole 5 and the second threaded hole are internally and in threaded connection with a fixing bolt 17, and the box body 1 is manufactured by adopting a galvanized sheet with the thickness of 1.5mm and a sheet metal bending process; the surface of the glass is sprayed with black matte paint, and screen printing is performed at the signal outlet.

Specifically, the voltage acquisition component 6, the current acquisition component 7, the control component 8, the remote signaling component 9, the first remote control component 10, the second remote control component 11, the third remote control component 12, the fourth remote control component 13, the fifth remote control component 14 and the power supply component 15 in the utility model realize internal communication by adopting a bus mode of the bus board 4, and all internal bus interfaces are uniformly designed, so that the voltage acquisition component 6, the current acquisition component 7, the control component 8, the remote signaling component 9, the first remote control component 10, the second remote control component 11, the third remote control component 12, the fourth remote control component 13, the fifth remote control component 14 and the power supply component 15 can be mutually replaced;

The voltage acquisition component 6, the current acquisition component 7, the control component 8, the remote signaling component 9, the first remote control component 10, the second remote control component 11, the third remote control component 12, the fourth remote control component 13, the fifth remote control component 14 and the power supply component 15 are installed in a plug-in mode through the plug-in part 18 and the plug-in part 16, and the maintenance and replacement of the voltage acquisition component 6, the current acquisition component 7, the control component 8, the remote signaling component 9, the first remote control component 10, the second remote control component 11, the third remote control component 12, the fourth remote control component 13, the fifth remote control component 14 and the power supply component 15 can be completed without disassembling the box body 1; the power supply assembly 15 and the control assembly 8 are designed into hot plug, and other assemblies can be installed and replaced in an electrified mode, so that the device can work without power failure, and the overall working efficiency and the working continuity of the equipment are improved;

The voltage acquisition component 6 is responsible for the load voltage acquisition function of a terminal, the current acquisition component 7 is responsible for the current acquisition of the load of the terminal, the control component 8 is a central center of the whole terminal, the connection control other components and the remote signaling component 9 acquire whether the control instruction output by the terminal is effectively executed, the first remote control component 10, the second remote control component 11, the third remote control component 12, the fourth remote control component 13 and the fifth remote control component 14 execute the terminal exit command, the power supply component 15 is responsible for providing a power supply system for the terminal according to the configuration quantity of actual conditions, and the communication component is responsible for communicating with a main station platform, so that the utility model can upload data of a platform area to the platform according to the load condition, can flexibly regulate and control the negative switching of the electric heating load by executing the strategy issued by the platform, and can flexibly expand the control quantity of the electric heating load according to different scenes;

Finally, when the voltage acquisition component 6, the current acquisition component 7, the control component 8, the remote signaling component 9, the first remote control component 10, the second remote control component 11, the third remote control component 12, the fourth remote control component 13, the fifth remote control component 14 and the power supply component 15 are disassembled, the fixing bolt 17 is firstly taken out from the first threaded hole 5 and the second threaded hole, and the bus plate 4 can be disassembled, because the voltage acquisition component 6, the current acquisition component 7, the control component 8, the remote signaling component 9, the first remote control component 10, the second remote control component 11, the third remote control component 12, the fourth remote control component 13, the fifth remote control component 14 and the insertion part 16 at one end of the power supply component 15 are inserted into the inserted part 18, therefore, the voltage acquisition component 6, the current acquisition component 7, the control component 8, the remote signaling component 9, the first remote control component 10, the second remote control component 11, the third remote control component 12, the fourth remote control component 13, the fifth remote control component 14 and the power supply component 15 can be directly removed from the inserted part 18, and the disassembly of the voltage acquisition component 6, the current acquisition component 7, the control component 8, the remote signaling component 9, the first remote control component 10, the second remote control component 11, the third remote control component 12, the fourth remote control component 13, the fifth remote control component 14 and the power supply component 15 is completed, so that the utility model is convenient when the voltage acquisition component 6, the current acquisition component 7, the control component 8, the remote signaling component 9, the first remote control component 10, the second remote control component 11, the third remote control component 12, the fourth remote control component 13, the fifth remote control component 14 and the power supply component 15 are all disassembled and maintained.

Working principle:

firstly, a voltage acquisition component 6, a current acquisition component 7, a control component 8, a remote signaling component 9, a first remote control component 10, a second remote control component 11, a third remote control component 12, a fourth remote control component 13, a fifth remote control component 14 and a power supply component 15 realize internal communication in a bus mode of an internal bus of a bus plate 4, and all internal bus interfaces are uniformly designed, so that the voltage acquisition component 6, the current acquisition component 7, the control component 8, the remote signaling component 9, the first remote control component 10, the second remote control component 11, the third remote control component 12, the fourth remote control component 13, the fifth remote control component 14 and the power supply component 15 can be mutually replaced;

The voltage acquisition component 6, the current acquisition component 7, the control component 8, the remote signaling component 9, the first remote control component 10, the second remote control component 11, the third remote control component 12, the fourth remote control component 13, the fifth remote control component 14 and the power supply component 15 are installed in a plug-in mode through the plug-in part 18 and the plug-in part 16, and the maintenance and replacement of the voltage acquisition component 6, the current acquisition component 7, the control component 8, the remote signaling component 9, the first remote control component 10, the second remote control component 11, the third remote control component 12, the fourth remote control component 13, the fifth remote control component 14 and the power supply component 15 can be completed without disassembling the box body 1; the power supply assembly 15 and the control assembly 8 are designed into hot plug, and other assemblies can be installed and replaced in an electrified mode, so that the device can work without power failure, and the overall working efficiency and the working continuity of the equipment are improved;

The voltage acquisition component 6 is responsible for the load voltage acquisition function of a terminal, the current acquisition component 7 is responsible for the current acquisition of the load of the terminal, the control component 8 is a central center of the whole terminal, the connection control other components and the remote signaling component 9 acquire whether the control instruction output by the terminal is effectively executed, the first remote control component 10, the second remote control component 11, the third remote control component 12, the fourth remote control component 13 and the fifth remote control component 14 execute the terminal exit command, the power supply component 15 is responsible for providing a power supply system for the terminal according to the configuration quantity of actual conditions, and the communication component is responsible for communicating with a main station platform, so that the utility model can upload data of a platform area to the platform according to the load condition, can flexibly regulate and control the negative switching of the electric heating load by executing the strategy issued by the platform, and can flexibly expand the control quantity of the electric heating load according to different scenes;

Finally, when the voltage acquisition component 6, the current acquisition component 7, the control component 8, the remote signaling component 9, the first remote control component 10, the second remote control component 11, the third remote control component 12, the fourth remote control component 13, the fifth remote control component 14 and the power supply component 15 are disassembled, the fixing bolt 17 is firstly taken out from the first threaded hole 5 and the second threaded hole, and the bus plate 4 can be disassembled, because the voltage acquisition component 6, the current acquisition component 7, the control component 8, the remote signaling component 9, the first remote control component 10, the second remote control component 11, the third remote control component 12, the fourth remote control component 13, the fifth remote control component 14 and the insertion part 16 at one end of the power supply component 15 are inserted into the inserted part 18, therefore, the voltage acquisition component 6, the current acquisition component 7, the control component 8, the remote signaling component 9, the first remote control component 10, the second remote control component 11, the third remote control component 12, the fourth remote control component 13, the fifth remote control component 14 and the power supply component 15 can be directly removed from the inserted part 18, and the disassembly of the voltage acquisition component 6, the current acquisition component 7, the control component 8, the remote signaling component 9, the first remote control component 10, the second remote control component 11, the third remote control component 12, the fourth remote control component 13, the fifth remote control component 14 and the power supply component 15 is completed, so that the utility model is convenient when the voltage acquisition component 6, the current acquisition component 7, the control component 8, the remote signaling component 9, the first remote control component 10, the second remote control component 11, the third remote control component 12, the fourth remote control component 13, the fifth remote control component 14 and the power supply component 15 are all disassembled and maintained.

In the description of the present utility model, it should be understood that the terms "center", "front", "rear", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the scope of the present utility model.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (6)

1. An electric heating load flexible control terminal device, characterized by comprising:

a case (1);

the rear end surface of the box body (1) is provided with a rear panel (3);

A bus plate (4) is arranged on the inner side of the rear panel (3);

A voltage acquisition component (6), a current acquisition component (7), a control component (8), a remote signaling component (9), a first remote control component (10), a second remote control component (11), a third remote control component (12), a fourth remote control component (13), a fifth remote control component (14) and a power supply component (15) are sequentially arranged in the box body (1) from left to right;

the outer walls of the two sides of the box body (1) are respectively fixedly provided with a mounting hanging lug (2).

2. The electric heating load flexible control terminal device according to claim 1, wherein a plurality of inserted parts (18) are installed inside the bus plate (4);

The remote control device comprises a voltage acquisition component (6), a current acquisition component (7), a control component (8), a remote signaling component (9), a first remote control component (10), a second remote control component (11), a third remote control component (12), a fourth remote control component (13), a fifth remote control component (14) and a power supply component (15), wherein one end of the power supply component (15) is provided with an insertion part (16) matched with an inserted part (18).

3. An electric heating load flexible control terminal device according to claim 2, characterized in that the insertion part (16) is inserted inside the inserted part (18).

4. The electric heating load flexible control terminal device according to claim 1, wherein a first threaded hole (5) is formed at one end of the bus plate (4), and a second threaded hole matched with the first threaded hole (5) is formed at the inner side of the rear panel (3).

5. The flexible control terminal device for electric heating load according to claim 4, wherein the first threaded hole (5) and the second threaded hole are internally and spirally connected with a fixing bolt (17).

6. The electric heating load flexible control terminal device according to claim 1, wherein the box body (1) is made of galvanized sheet with the thickness of 1.5mm by a sheet metal bending process;

the surface of the glass is sprayed with black matte paint, and screen printing is performed at the signal outlet.