CN218037138U - Acquisition terminal suitable for monitoring power data energy efficiency - Google Patents

Abstract

The utility model discloses a collection terminal suitable for monitoring of electric power data efficiency, including the data acquisition terminal, data acquisition terminal integral erection is in the switch board, this device is before the monitoring, at first install electric leakage collection subassembly in the switch board in proper order, the humiture collection subassembly, the current collection subassembly, the voltage collection subassembly, after the equipment is good, gather electric current and voltage data through current collection subassembly and voltage collection subassembly, then spread into the control mainboard with data in, then in with data transmission user's monitor terminal through the wireless transmission subassembly, can look over the data of monitoring in real time, at the in-process of monitoring, gather through the electric leakage collection subassembly whether the electric leakage condition appears in the current circuit, can be with signal transmission to the monitor terminal in the electric leakage condition appears, remind the staff to need maintain the operation, simultaneously at the in-process of monitoring, can also the humiture in the real-time supervision equipment, make corresponding safeguard measure, it is safer when the switch board uses.

Description

Acquisition terminal suitable for monitoring power data energy efficiency

Technical Field

The utility model belongs to the technical field of the electric power monitoring, specifically be an acquisition terminal suitable for electric power data efficiency monitoring.

Background

China is large in population, consumption of various living energy sources is huge, especially electric energy is used, and an acquisition terminal for acquiring the energy efficiency of electric power data in an electric power system can help an electric power department to know the actual situation of electricity utilization in various regions.

Referring to the chinese patent with the application number 201921496758.3, disclosed is an acquisition terminal suitable for monitoring energy efficiency of power data, which includes: the switching value input module, the switching value output module, the data acquisition module, the data processing module and the communication module are connected with the switching value input module; and the output end of the switching value input module is connected with the data processing module. The utility model discloses an electric power efficiency terminal ability real-time supervision electric current and voltage efficiency data, the administrator looks over electric power efficiency data and formulates energy saving and emission reduction measure through the monitoring platform, has the effect that reduces power consumption, energy saving and emission reduction, reduction environmental pollution.

The applicant finds that the phenomenon of electric leakage is not considered in the monitoring process, when the phenomenon of electric leakage occurs, the current and voltage values monitored by the acquisition terminal are possibly inaccurate, the processing effect of the later stage is affected, and safety accidents are easy to occur when the phenomenon of electric leakage occurs.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a: in order to solve the problem, an acquisition terminal suitable for monitoring the energy efficiency of electric power data is provided.

The utility model adopts the technical scheme as follows: an acquisition terminal suitable for monitoring energy efficiency of electric power data comprises a data acquisition terminal, wherein the data acquisition terminal is integrally installed in a power distribution cabinet and comprises a main shell, and heat dissipation assemblies are arranged on two sides of the main shell;

the upper end and the lower end of the main shell are respectively provided with a voltage acquisition interface, a temperature and humidity acquisition interface, a leakage acquisition interface and a current acquisition interface;

the leakage current acquisition interface is electrically connected with the leakage current acquisition assembly, the current acquisition interface is electrically connected with the current acquisition assembly, and the leakage current acquisition interface is electrically connected with the leakage current acquisition assembly;

the heat dissipation assembly comprises a side aluminum cover, and a nano-radiation high-heat-conductivity coating is coated on the inner side surface of the side aluminum cover.

In a preferred embodiment, the electric leakage collection assembly includes a residual current transformer, a main body portion of the residual current transformer is sleeved outside a three-phase four-wire in the power distribution cabinet, and a port portion of the electric leakage collection assembly is assembled with the electric leakage collection interface.

In a preferred embodiment, the current collection assembly comprises a plurality of open-type secondary current transformers, the secondary current transformers are sequentially sleeved on a plurality of outlet ends of a primary current transformer in the power distribution cabinet, and the port sides of the secondary current transformers are electrically connected with the current collection interface.

In a preferred embodiment, the temperature and humidity acquisition interface is electrically connected with the temperature and humidity acquisition assembly, the temperature and humidity acquisition assembly comprises a temperature and humidity detection probe, and the temperature and humidity detection probe is placed in the power distribution cabinet.

In a preferred embodiment, the voltage acquisition interface is electrically connected with a voltage acquisition component built in the data acquisition terminal, the voltage acquisition component comprises a voltage collector, and the voltage collector is electrically connected with a power supply built in the power distribution cabinet through a wiring terminal externally connected with the voltage acquisition interface.

In a preferred embodiment, an antenna connection interface is arranged at the upper end of the left side of the main shell, a wireless transmission assembly is mounted on the antenna connection interface, and the wireless transmission assembly comprises a signal transmission antenna.

In a preferred embodiment, fixing seats are installed at the outer ends of two sides of the main shell, the main shell is installed in the power distribution cabinet through the fixing seats, the outer end of one side of the main shell is provided with a control panel, and the control panel is provided with a display panel.

In a preferred embodiment, the outer side of the side aluminum cover is uniformly distributed with heat dissipation fins, and the outer wall of the side aluminum cover is provided with a heat dissipation silica gel layer.

In a preferred embodiment, main casing built-in have control mainboard and accumulator, control mainboard and electric leakage collection subassembly, accumulator, humiture collection subassembly, wireless transmission subassembly, voltage collection subassembly and current collection subassembly electric connection.

To sum up, owing to adopted above-mentioned technical scheme, the beneficial effects of the utility model are that:

1. the utility model discloses in, gather electric current and voltage data through electric current collection subassembly and voltage acquisition subassembly, then spread into data into the control mainboard in, then through the wireless transmission subassembly with data transmission to user's monitor terminal in, can look over the data of monitoring in real time, make things convenient for the staff to carry out corresponding operation.

2. The utility model discloses in, the in-process of monitoring is gathered the current circuit through the electric leakage and is whether appear the electric leakage condition, can remind the staff to need to maintain the operation in data transmission to monitor terminal when the electric leakage condition appears, has guaranteed the precision of whole monitoring.

3. The utility model discloses in, the in-process of monitoring, humiture in can also the real-time supervision equipment makes corresponding safeguard measure, and is safer when the switch board uses.

4. The utility model discloses in, the in-process of work, through the cooperation of the high heat conduction coating of nanometer radiation and side aluminium lid, can outwards derive the heat of inside, at the in-process of deriving, through heat dissipation silica gel layer and heat radiation fins's cooperation, can realize quick radiating operation, can guarantee the security that acquisition terminal used.

Drawings

FIG. 1 is a schematic view of the overall three-dimensional structure of the present invention;

FIG. 2 is a schematic diagram of the overall system of the present invention;

fig. 3 is a schematic diagram of a partial layered structure of the heat dissipation assembly of the present invention;

fig. 4 is the utility model discloses data acquisition terminal and switch board internal element's wiring sketch.

The mark in the figure is: the device comprises a data acquisition terminal 1, a voltage acquisition interface 11, an antenna connection interface 13, a heat dissipation component 14, a high-heat-conductivity coating with 141-nanometer radiation, a side aluminum cover 142, a heat dissipation silica gel layer 143, heat dissipation fins 144, a fixed seat 15, a temperature and humidity acquisition interface 16, a current acquisition interface 17, a control panel 18, a main shell 19, a control main board 20, a storage 21, a leakage acquisition component 22, a voltage acquisition component 23, a temperature and humidity acquisition component 24, a wireless transmission component 25, a current acquisition component 26 and a leakage acquisition interface 27.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

Referring to fig. 1-4, an acquisition terminal suitable for power data energy efficiency monitoring, including data acquisition terminal 1, data acquisition terminal 1 is installed in the switch board as a whole, data acquisition terminal 1 is including main casing body 19, main casing body 19's both sides are equipped with heat dissipation assembly 14, main casing body 19's upper and lower end is installed voltage acquisition interface 11 respectively, humiture acquisition interface 16 and electric leakage acquisition interface 27 and current acquisition interface 17, electric leakage acquisition interface 27 and electric leakage acquisition assembly 22 electric connection, current acquisition interface 17 and current acquisition assembly 26 electric connection, electric leakage acquisition interface 27 and electric leakage acquisition assembly 22 electric connection, install electric leakage acquisition assembly 22 in the switch board in proper order, humiture acquisition assembly 24, current acquisition assembly 26, voltage acquisition assembly 23, after the equipment is good, gather electric current and voltage data through current acquisition assembly 26 and voltage acquisition assembly 23, then transmit data into control mainboard 20, then transmit data to user's monitoring terminal through wireless transmission assembly 25, can look over the data of monitoring in real time.

Referring to fig. 4, electric leakage collection assembly 22 includes residual current transformer, and residual current transformer's main part cover is established in the switch board in the outside of three-phase four-wire, and the port part of electric leakage collection assembly 22 assembles together with electric leakage collection interface 27, gathers whether the electric leakage condition appears in the current circuit through electric leakage collection assembly 22, in the electric leakage condition can be with data transmission to monitor terminal, reminds the staff need maintain the operation.

Referring to fig. 4, the current collecting assembly 26 includes a plurality of open-type secondary current transformers, the secondary current transformers are sequentially sleeved on a plurality of outlet ends of the primary current transformers in the power distribution cabinet, port sides of the secondary current transformers are electrically connected with the current collecting interface 17, and current data of the current equipment can be collected through the secondary current transformers.

The primary current transformer is an electrical element which is normally arranged in the power distribution cabinet, the primary current transformer can convert primary current with a large numerical value into secondary current with a small numerical value through a certain transformation ratio and is used for protection, measurement and other purposes, and a wiring mode is not mentioned for a common structure in the power distribution cabinet.

Referring to fig. 4, the temperature and humidity acquisition interface 16 is electrically connected with the temperature and humidity acquisition assembly 24, the temperature and humidity acquisition assembly 24 comprises a temperature and humidity detection probe, the temperature and humidity detection probe is placed in the power distribution cabinet, and in the monitoring process, the temperature and humidity in the equipment can be monitored in real time through the temperature and humidity detection probe to perform corresponding protection measures, so that the power distribution cabinet is safer in use.

In this embodiment, voltage acquisition interface 11 and the built-in voltage acquisition subassembly 23 electric connection of data acquisition terminal 1, voltage acquisition subassembly 23 is including voltage collector, and voltage collector passes through the external wiring end of voltage acquisition interface 11 and the built-in power electric connection of switch board, and voltage data through voltage collector collection switch board circuit can also provide the power source for collection equipment itself.

In this embodiment, the left side upper end of main casing body 19 is equipped with antenna connection interface 13, installs wireless transmission assembly 25 on the antenna connection interface 13, and wireless transmission assembly 25 is including the signal transmission antenna, and it needs to explain that the signal transmission antenna can with monitor terminal electric connection, with the data transmission who gathers to monitor terminal in, can make things convenient for the staff to look over data in real time.

Wherein, the signal transmission antenna is installed in the outside of switch board along the louvre that the switch board was reserved, guarantees the transmission quality of signal.

In this embodiment, fixing base 15 is installed to main casing body 19's both sides outer end, and main casing body 19 passes through to be installed in the screw fixation in the switch board on fixing base 15, and one side outer end of main casing body 19 is equipped with control panel 18, is equipped with display panel on the control panel 18, can demonstrate the data of current collection through display panel.

In this embodiment, the heat dissipation assembly 14 includes the side aluminum cover 142, the side aluminum cover 142 medial surface scribbles the high heat conduction coating 141 of nanometer radiation, the even distribution in outside of side aluminum cover 142 has the cooling fin 144, one deck heat dissipation silica gel layer 143 is installed to the outer wall of side aluminum cover 142, the in-process of work, through the cooperation of the high heat conduction coating 141 of nanometer radiation and side aluminum cover 142, can outwards derive the heat of inside, in the in-process of deriving, through the cooperation of heat dissipation silica gel layer 143 and cooling fin 144, can realize quick radiating operation, can guarantee the security of collection terminal use.

In this embodiment, a control main board 20 and a storage 21 are disposed in the main housing 19, the control main board 20 is electrically connected to the leakage current collecting assembly 22, the storage 21, the temperature and humidity collecting assembly 24, the wireless transmission assembly 25, the voltage collecting assembly 23, and the current collecting assembly 26, and the control main board 20 controls the overall operation of the device.

It should be noted that the electrical connection in this context is a common way in the prior art.

The details which are not described in detail in this specification are well known to those skilled in the art.

At first install electric leakage collection assembly 22 in the switch board in proper order, humiture collection assembly 24, current collection assembly 26, voltage collection assembly 23, after the equipment is good, gather electric current and voltage data through current collection assembly 26 and voltage collection assembly 23, then transmit into in control mainboard 20 with data, then in with data transmission user's monitor terminal through wireless transmission assembly 25, can look over the data of monitoring in real time, at the in-process of monitoring, whether the electric leakage condition appears in the current circuit through electric leakage collection assembly 22 collection, can be with data transmission to monitor terminal in the electric leakage condition appears, remind the staff to need to maintain the operation, simultaneously at the in-process of monitoring, can also the humiture in the real-time supervision equipment, make corresponding safeguard measure, it is safer when the switch board uses.

Because the device is wholly the state of continuous operation, at the in-process of work, through the cooperation of high heat conduction coating 141 of nanometer radiation and side aluminium lid 142, can outwards derive the heat of inside, at the in-process of deriving, through the cooperation of heat dissipation silica gel layer 143 and heat radiation fins 144, can realize quick heat dissipation operation, can guarantee the security of collection terminal use, guaranteed holistic result of use.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (9)

1. The utility model provides an acquisition terminal suitable for electric power data efficiency monitoring, includes data acquisition terminal (1), its characterized in that: the data acquisition terminal (1) is integrally installed in the power distribution cabinet, the data acquisition terminal (1) comprises a main shell (19), and heat dissipation assemblies (14) are arranged on two sides of the main shell (19);

the upper end and the lower end of the main shell (19) are respectively provided with a voltage acquisition interface (11), a temperature and humidity acquisition interface (16), a leakage acquisition interface (27) and a current acquisition interface (17);

the electric leakage acquisition interface (27) is electrically connected with the electric leakage acquisition assembly (22), the current acquisition interface (17) is electrically connected with the current acquisition assembly (26), and the electric leakage acquisition interface (27) is electrically connected with the electric leakage acquisition assembly (22);

the heat dissipation assembly (14) comprises a side aluminum cover (142), and the inner side surface of the side aluminum cover (142) is coated with a nano-radiation high-heat-conductivity coating (141).

2. The acquisition terminal suitable for monitoring energy efficiency of electric power data according to claim 1, characterized in that: the electric leakage collection assembly (22) comprises a residual current transformer, the main body part of the residual current transformer is sleeved outside three-phase four wires in the power distribution cabinet, and the port part of the electric leakage collection assembly (22) is assembled with an electric leakage collection interface (27).

3. The acquisition terminal suitable for monitoring energy efficiency of electric power data according to claim 1, characterized in that: the current acquisition assembly (26) comprises a plurality of open-type secondary current transformers, the secondary current transformers are sequentially sleeved on a plurality of outlet ends of the primary current transformers in the power distribution cabinet, and the port sides of the secondary current transformers are electrically connected with the current acquisition interfaces (17).

4. The acquisition terminal suitable for monitoring energy efficiency of electric power data according to claim 1, characterized in that: the temperature and humidity acquisition interface (16) is electrically connected with the temperature and humidity acquisition assembly (24), the temperature and humidity acquisition assembly (24) comprises a temperature and humidity detection probe, and the temperature and humidity detection probe is placed in the power distribution cabinet.

5. The acquisition terminal suitable for monitoring energy efficiency of electric power data according to claim 1, characterized in that: the voltage acquisition interface (11) is electrically connected with a voltage acquisition assembly (23) arranged in the data acquisition terminal (1), the voltage acquisition assembly (23) comprises a voltage collector, and the voltage collector is electrically connected with a power supply arranged in the power distribution cabinet through a wiring end externally connected with the voltage acquisition interface (11).

6. The acquisition terminal suitable for monitoring energy efficiency of electric power data according to claim 1, characterized in that: the left side upper end of main casing body (19) is equipped with antenna connection interface (13), install wireless transmission subassembly (25) on antenna connection interface (13), wireless transmission subassembly (25) are including the signal transmission antenna.

7. The acquisition terminal suitable for monitoring energy efficiency of electric power data according to claim 1, characterized in that: fixing base (15) are installed to the both sides outer end of main casing body (19), install in the switch board at the screw fixation on main casing body (19) through fixing base (15), one side outer end of main casing body (19) is equipped with control panel (18), be equipped with display panel on control panel (18).

8. The acquisition terminal suitable for monitoring energy efficiency of electric power data according to claim 1, characterized in that: radiating fins (144) are uniformly distributed on the outer side of the side aluminum cover (142), and a radiating silica gel layer (143) is installed on the outer wall of the side aluminum cover (142).

9. The acquisition terminal suitable for monitoring energy efficiency of electric power data according to claim 6, characterized in that: the main casing body (19) embeds there are control mainboard (20) and accumulator (21), control mainboard (20) and electric leakage collection component (22), accumulator (21), humiture collection component (24), wireless transmission subassembly (25), voltage collection component (23) and electric current collection component (26) electric connection.

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