CN213753743U - Intelligent substation synthesizes supplementary monitoring device - Google Patents

Abstract

The utility model discloses an intelligent substation synthesizes supplementary monitoring device, it includes controlling means body and air conditioner structure, and the controlling means body includes body shell, intelligent substation, dry ice fire-extinguishing apparatus, input power-off switch, vary voltage room smoke probe, electric room smoke probe, network input output converter, GPS locator, memory, control processor, rechargeable battery structure, treater thermal infrared imager, transformer substation thermal infrared imager. The beneficial effects of the utility model are that: its degree of automation is high, and the security performance is good, and assurance intelligent substation that can be better works under the environment of a relative constant temperature and humidity, can carry out infrared monitoring to intelligent substation's inside temperature simultaneously in real time, and when it conflagration breaing out, the reaction is sensitive, and from the area function of putting out a fire, and it prevents fire door and equipment control end from taking the identity recognition function of punching the card, and the maloperation influence of non-inside personnel to the device that can be better prevents.

Description

Intelligent substation synthesizes supplementary monitoring device

Technical Field

The utility model relates to an intelligent substation synthesizes supplementary monitoring device belongs to the electric power tech field.

Background

The transformer substation is a place for converting voltage and current, receiving electric energy and distributing electric energy in an electric power system. The intelligent transformer substation adopts advanced, reliable, integrated and environment-friendly intelligent equipment, takes total station information digitization, communication platform networking and information sharing standardization as basic requirements, automatically completes basic functions of information acquisition, measurement, control, protection, metering, detection and the like, and simultaneously has advanced functions of supporting real-time automatic control, intelligent adjustment, on-line analysis decision, cooperative interaction and the like of a power grid.

In recent years, the power grid continuously absorbs the industrial and informatization achievements, various new technologies and new materials provide a technical basis for the technical change of the new-generation intelligent substation, and the new-generation intelligent substation is a necessary way for the scientific research innovation of the substation. With more and more advanced technologies applied to intelligent substations, the intelligent substation can realize an unattended mode.

Along with the popularization of the unattended mode, the safety performance requirement of the intelligent substation is improved concomitantly. However, the problem of the fault of the intelligent substation occurs, the measurement and control functions of the existing intelligent substation are not comprehensive, and the safety protection performance is poor.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model lies in providing an intelligent substation synthesizes supplementary monitoring device, its degree of automation is high, and the security performance is good, assurance intelligent substation that can be better works under the environment of a relative constant temperature and humidity, can carry out infrared monitoring to intelligent substation's inside temperature in real time simultaneously, when it conflagrations, the reaction is sensitive, and from the area function of putting out a fire, it prevents fire door and equipment control end from taking the identity recognition function of punching the card, can be better prevent that non-inside personnel from influencing the maloperation of device.

The utility model discloses a following scheme realizes: the utility model provides an intelligent substation synthesizes supplementary monitoring device, its includes controlling means body and air conditioner structure, the air conditioner structure includes outer machine of air conditioner, vary voltage indoor set, electric room temperature and humidity monitor, vary voltage room temperature and humidity monitor, the controlling means body includes body shell, intelligent substation, dry ice fire extinguishing apparatus, input power-off switch, vary voltage room smoke probe, electric room smoke probe, network input/output converter, GPS locator, memory, control processor, rechargeable battery structure, treater infrared thermal imager, transformer substation infrared thermal imager, the body shell is stainless steel cuboid structure, and its upper surface is installed outer machine of air conditioner, signal transmission receiving antenna, siren, and the left surface is equipped with the line of variation and connects out the groove, the line of variation and inserts the groove, and the right surface is equipped with the signal output recess, and its openly is equipped with prevents fire door, fire door, The device control end is internally divided into a variable pressure chamber and an electric chamber by a fireproof partition plate, the fireproof door is positioned on the right side of the device control end, an entrance guard end is arranged on the fireproof door, the variable pressure line connecting groove is positioned above the variable pressure line connecting groove and is an inner concave groove, the variable pressure line connecting end is installed in the variable pressure line connecting groove, the variable pressure line connecting groove is an inner concave groove, the variable pressure line connecting end is installed in the variable pressure line connecting groove, the signal output groove is an inner concave groove, a signal output end is installed in the inner concave groove, a variable pressure indoor unit, a variable pressure room temperature and humidity monitor and a variable pressure chamber smoke probe are installed on the upper bottom surface of the variable pressure chamber, an input power-off switch is installed on the left side surface of the variable pressure chamber, an intelligent transformer substation and a dry ice fire extinguishing device are installed on the lower bottom surface of the variable pressure chamber, a transformer substation infrared thermal imager is arranged on the right side surface of the variable pressure chamber, a graphene heat absorbing plate is installed on the front, the left side surface and the rear side surface and the right side surface of the variable pressure chamber smoke probe, an outlet of the intelligent transformer substation is aligned with the intelligent transformer substation, it is connected with dry ice fire-extinguishing apparatus through the copper pipe, dry ice fire-extinguishing apparatus has two, input power-off switch passes through the wire and is connected with vary voltage circuit incoming end, intelligent substation connects the output through wire and vary voltage circuit and is connected, intelligent substation is aimed at to transformer substation thermal infrared imager camera lens, electric indoor set, electric room temperature and humidity monitor, electric room smoke detector are installed to the bottom surface on the electric room, and left surface treater thermal infrared imager, the back are equipped with the graphite alkene absorber plate, and internally mounted has network input and output converter, GPS locator, memory, control treater, rechargeable battery structure, treater thermal infrared imager camera lens aims at the control treater.

The air conditioner outdoor unit is connected with the transformation indoor unit and the electric indoor unit through copper pipes.

The entrance guard terminal comprises an intelligent door lock and an entrance guard card swiping identifier, the intelligent door lock is connected with the entrance guard card swiping identifier through a wire, and the entrance guard card swiping identifier can identify through card swiping to control the intelligent door lock to be opened so as to open the fireproof door.

The equipment control end comprises a touch screen command input card swiping identifier and a liquid crystal touch display screen, and when a parameter command is input to the control device body on the liquid crystal touch display screen, the operation can be carried out only by inputting the card swiping identifier through the touch screen command to carry out card swiping identification.

The graphene heat absorption plate is connected with the heat dissipation scale, the heat dissipation scale penetrates through the back face of the body shell, and most of the heat dissipation scale is arranged outside the body shell.

The network input/output converter is connected with the signal transmitting and receiving antenna through a lead,

the rechargeable battery structure is connected with the intelligent substation and the alarm through leads.

The control processor is connected with an air conditioner external unit, a transformation indoor unit, an electric room temperature and humidity monitor, a transformation room temperature and humidity monitor, an equipment control end, an entrance guard end, an alarm, an intelligent substation, a dry ice fire extinguishing device, an input power-off switch, a transformation room smoke probe, an electric room smoke probe, a network input/output converter, a signal output end, a GPS positioner, a storage, a rechargeable battery structure, a processor thermal infrared imager and a substation thermal infrared imager through wires.

The utility model has the advantages that:

1. the utility model relates to an intelligent substation synthesizes auxiliary monitoring device, its degree of automation is high, and the security performance is good, and assurance intelligent substation that can be better works under the environment of a relative constant temperature and humidity, can carry out infrared monitoring to intelligent substation's inside temperature in real time simultaneously.

2. The utility model relates to an intelligent substation synthesizes supplementary monitoring device, when it conflagration breaing out, the reaction is sensitive, and from the function of putting out a fire in area.

3. The utility model relates to an intelligent substation synthesizes supplementary monitoring device, it prevents fire door and equipment control end from taking the identity recognition function of punching the card, can be better prevent that non-inside personnel from influencing the maloperation of device.

Drawings

Fig. 1 is the utility model relates to an intelligent substation synthesizes auxiliary monitoring device's schematic structure diagram.

Fig. 2 is the utility model relates to an intelligent substation synthesizes auxiliary monitoring device's front view section structure schematic diagram.

Fig. 3 is the utility model relates to an intelligent substation synthesizes supplementary monitoring device's top view.

Fig. 4 is the utility model relates to an intelligent substation synthesizes auxiliary monitoring device's rear view.

Fig. 5 is the utility model relates to a top view of intelligent substation synthesizes auxiliary monitoring device's vary voltage room.

In the figure: 1 is a control device body, 2 is a body shell, 3 is an air-conditioning structure, 4 is an air-conditioning external machine, 5 is a transformation indoor machine, 6 is an electrical indoor machine, 7 is an electrical room temperature and humidity monitor, 8 is a transformation room temperature and humidity monitor, 9 is a fireproof partition plate, 10 is a transformation room, 11 is an electrical room, 12 is a graphene heat absorption plate, 13 is a heat dissipation scale, 14 is a fireproof door, 15 is an equipment control end, 16 is an entrance guard end, 17 is an intelligent door lock, 18 is an entrance guard brush card identifier, 19 is a touch screen command input brush card identifier, 20 is a liquid crystal touch display screen, 21 is a signal transmitting and receiving antenna, 22 is an alarm, 23 is a transformation line connecting groove, 24 is a transformation line connecting groove, 25 is a transformation line connecting end, 26 is a transformation line connecting end, 27 is an intelligent substation, 28 is a dry ice fire-extinguishing device, 29 is an input power-off switch, 30 is a fire-extinguishing nozzle, 31 is a smoke probe of a transformer room, 32 is a smoke probe of an electric room, 33 is a network input/output converter, 34 is a signal output groove, 35 is a signal output end, 36 is a GPS positioner, 37 is a memory, 38 is a control processor, 39 is a rechargeable battery structure, 40 is a processor thermal infrared imager, 41 is a transformer substation thermal infrared imager, 42 is a copper pipe, and 43 is a lead.

Detailed Description

The present invention will be further described with reference to fig. 1, fig. 2, fig. 3, fig. 4, and fig. 5, but the scope of the present invention is not limited to the contents.

In which like parts are designated by like reference numerals. It is noted that the terms "front," "back," "left," "right," "upper" and "lower" used in the following description refer to directions in the drawings, the terms "inner" and "outer" refer to directions toward and away from, respectively, the geometric center of a particular component, and the drawings are in greatly simplified form and employ non-precise ratios, merely for the purpose of facilitating and distinctly aiding in the description of the embodiments of the present invention.

In the following description, for purposes of clarity, not all features of an actual implementation are described, well-known functions or constructions are not described in detail since they would obscure the invention with unnecessary detail, it being understood that in the development of any actual embodiment, numerous implementation details must be set forth in order to achieve the developer's specific goals, such as compliance with system-related and business-related constraints, changing from one implementation to another, and it being recognized that such development efforts may be complex and time consuming, but would nevertheless be a routine undertaking for those of ordinary skill in the art.

An intelligent transformer substation comprehensive auxiliary monitoring device comprises a control device body 1 and an air conditioning structure 3, wherein the air conditioning structure 3 comprises an air conditioner external machine 4, a transformation indoor machine 5, an electric indoor machine 6, an electric room temperature and humidity monitor 7 and a transformation room temperature and humidity monitor 8, the control device body 1 comprises a body shell 2, an intelligent transformer substation 27, a dry ice fire extinguishing device 28, an input power-off switch 29, a transformation room smoke probe 31, an electric room smoke probe 32, a network input and output converter 33, a GPS positioner 36, a memory 37, a control processor 38, a rechargeable battery structure 39, a processor infrared thermal imager 40 and a transformer substation infrared thermal imager 41, the body shell 2 is of a stainless steel cuboid structure, the air conditioner external machine 4, a signal transmitting and receiving antenna 21 and an alarm 22 are mounted on the upper bottom surface of the body shell, a transformation line connecting groove 23 and a transformation line connecting groove 24 are arranged on the left side surface of the body shell, the right side surface is provided with a signal output groove 34, the front surface of the signal output groove is provided with a fireproof door 14 and an equipment control end 15, the interior of the signal output groove is divided into a variable pressure chamber 10 and an electric room 11 by a fireproof partition plate 9, the fireproof door 14 is positioned on the right side of the equipment control end 15, the door control end 16 is arranged on the fireproof door, the variable pressure line connecting groove 23 is positioned above the variable pressure line connecting groove 24 and is an inner concave groove, the variable pressure line connecting end 26 is arranged in the variable pressure line connecting groove, the variable pressure line connecting groove 24 is an inner concave groove, the variable pressure line connecting end 25 is arranged in the variable pressure line connecting groove, the signal output groove 34 is an inner concave groove, a signal output end 35 is arranged in the inner concave groove, the upper bottom surface of the variable pressure chamber 10 is provided with a variable pressure indoor unit 5, a variable pressure room temperature and humidity monitor 8 and a variable pressure chamber smoke probe 31, the left side surface of the variable pressure chamber is provided with an input power-off switch 29, the lower bottom surface of the variable intelligent transformer substation 27 and a dry ice fire-extinguishing device 28, the right side surface is provided with a transformer infrared thermal imager 41, the back surface is provided with a graphene heat absorbing plate 12, the front side surface, the rear side surface, the left side surface and the right side surface are provided with fire extinguishing nozzles 30, the outlets of the fire extinguishing nozzles 30 are aligned with the intelligent transformer substation 27, the intelligent transformer substation is connected with a dry ice fire extinguishing device 28 through a copper pipe 42, the number of the dry ice fire extinguishing devices 28 is two, an input power-off switch 29 is connected with a transformer line access end 25 and an intelligent transformer substation 27 through a lead 43, the intelligent transformer substation 27 is connected with a transformer line outgoing end 26 through a lead 43, a transformer substation thermal infrared imager 41 lens is aligned to the intelligent transformer substation 27, an electrical indoor unit 6, an electrical room temperature and humidity monitor 7 and an electrical room smoke probe 32 are mounted on the upper bottom surface of an electrical room 11, a left side processor thermal infrared imager 40 is provided, a graphene heat absorption plate 12 is arranged on the back surface of the transformer substation thermal infrared imager, a network input and output converter 33, a GPS positioner 36, a memory 37, a control processor 38 and a charging battery structure 39 are mounted in the electrical room 11, and the processor thermal infrared imager 40 lens is aligned to the control processor 38.

The air conditioner outdoor unit 4 is connected with the transformation indoor unit 5 and the electric indoor unit 6 through a copper pipe 42.

The entrance guard terminal 16 comprises an intelligent door lock 17 and an entrance guard card swiping identifier 18, the intelligent door lock 17 is connected with the entrance guard card swiping identifier 18 through a conducting wire 43, and the entrance guard card swiping identifier 18 can conduct identity recognition through card swiping to control the intelligent door lock 17 to be opened so as to open the fireproof door 14.

The device control terminal 15 comprises a touch screen command input card swiping identifier 19 and a liquid crystal touch display screen 20, and when a parameter command is input to the control device body 1 on the liquid crystal touch display screen 20, the operation can be performed only by inputting the card swiping identifier 19 through the touch screen command to perform card swiping identification.

The graphene heat absorption plate 12 is connected with the heat dissipation scale 13, and the heat dissipation scale 13 penetrates through the back of the body shell 2, and most of the heat dissipation scale is arranged outside the body shell 2.

The network input-output converter 33 is connected to the signal transmitting-receiving antenna 21 through a wire 43,

the rechargeable battery structure 39 is connected with the intelligent substation 27 and the alarm 22 through a lead 43.

The control processor 38 is connected with the air conditioner external unit 4, the transformation indoor unit 5, the electric indoor unit 6, the electric room temperature and humidity monitor 7, the transformation room temperature and humidity monitor 8, the equipment control end 15, the entrance guard end 16, the alarm 22, the intelligent substation 27, the dry ice fire-extinguishing equipment 28, the input power-off switch 29, the transformation room smoke probe 31, the electric room smoke probe 32, the network input/output converter 33, the signal output end 35, the GPS positioner 36, the memory 37, the rechargeable battery structure 39, the processor thermal infrared imager 40 and the substation thermal infrared imager 41 through a lead 43.

Example 1: identity recognition is carried out by swiping a card through the entrance guard card swiping recognizer 18, the intelligent door lock 17 is opened, the fireproof door 14 is further opened, and then the electrical equipment in the body shell 2 can be overhauled.

Example 2: swipe the card through touch-sensitive screen command input and swipe recognizer 19 and carry out identification, can set up through liquid crystal touch display screen 20 the utility model discloses inside each electrical equipment parameter if do not carry out identification, then can only look over the utility model discloses parameter information that inside each monitoring facilities monitored.

Example 3: accessible signal output part 35 is connected with external PC end, perhaps is connected with external PC end through wireless network, and then right the utility model discloses monitor or control.

Example 4: the electric room temperature and humidity monitor 7 monitors the internal temperature and humidity of the electric room 11 in real time, transmits data to the control processor 38 for analysis and processing, and displays the data on the liquid crystal touch display screen 20, if the internal temperature and humidity of the electric room 11 are not within the set optimal range, the corresponding part of the air conditioning structure 3 is started to adjust the internal temperature and humidity of the electric room 11, if the smoke probe 32 of the electric room senses smoke, or the infrared thermal imager 40 of the processor monitors that the internal temperature of the control processor 38 changes sharply or exceeds the set upper limit, the control processor 38 immediately closes the input power-off switch 29, cuts off the circuit input to the intelligent substation 27, closes the rechargeable battery structure 39, cuts off the circuit transmission from the rechargeable battery structure 39 to the electric room 11, and opens the alarm 22 for alarm.

Example 5: the variable-voltage room temperature and humidity monitor 8 monitors the internal temperature and humidity of the variable-voltage room 10 in real time, transmits data to the control processor 38 for analysis and processing, displays the data on the liquid crystal touch display screen 20, starts the corresponding part of the air conditioning structure 3 to adjust the internal temperature and humidity of the variable-voltage room 10 if the internal temperature and humidity of the variable-voltage room 10 are not in the set optimal range, and immediately closes the input power-off switch 29, cuts off the circuit input to the intelligent substation 27, closes the charging battery structure 39, cuts off the circuit input to the electric room 11 by the charging battery structure 39, opens the alarm 22 to give an alarm, and simultaneously starts the dry ice fire-extinguishing device 28, and liquid carbon dioxide is sprayed out from the fire-extinguishing nozzle 30 if the smoke probe 31 of the variable-voltage room senses smoke or the infrared thermal imager 41 of the substation monitors that the internal temperature of the intelligent substation 27 is rapidly changed or exceeds the upper limit of the set value, and extinguishing fire and reducing temperature for the intelligent substation 27.

Example 6: the utility model discloses can be through wireless network or limited network will the utility model discloses the information transmission that inside each monitoring electrical equipment was monitored arrives external control PC end.

The internal structures, working principles and working processes of the equipment control terminal 15, the forbidden zone 16, the electric room temperature and humidity monitor 7, the transformation room temperature and humidity monitor 8, the processor thermal infrared imager 40, the transformer substation thermal infrared imager 41, the intelligent transformer substation 27 and the control processor 38 are the prior known technologies and are not described herein again.

Although the invention has been shown and described in detail with respect to the preferred embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (8)

1. The utility model provides an intelligent substation synthesizes supplementary monitoring device which characterized in that: it includes controlling means body (1) and air conditioning structure (3), air conditioning structure (3) include outer machine of air conditioner (4), vary voltage indoor set (5), electric indoor set (6), electric room temperature and humidity monitor (7), vary voltage room temperature and humidity monitor (8), controlling means body (1) includes body shell (2), intelligent substation (27), dry ice fire-extinguishing equipment (28), input power-off switch (29), vary voltage room smoke probe (31), electric room smoke probe (32), network input output converter (33), GPS locator (36), memory (37), control treater (38), rechargeable battery structure (39), treater thermal infrared imager (40), transformer substation thermal infrared imager (41), body shell (2) are the stainless steel cuboid structure, and outer machine of air conditioner (4) and thermal infrared imager (41) are installed to its upper surface, Signal transmission accepts antenna (21), siren (22), and the left surface is equipped with the variable voltage circuit and connects groove (23), variable voltage circuit access groove (24), and the right flank is equipped with signal output recess (34), and it openly is equipped with prevents fire door (14), equipment control end (15), and its inside is separated for variable voltage room (10), electric room (11) by fire baffle (9), prevent fire door (14) and be located equipment control end (15) right side, is equipped with entrance guard end (16) on it, variable voltage circuit connects groove (23) to be located variable voltage circuit access groove (24) top, for the indent groove, installs variable voltage circuit in it and connects end (26), variable voltage circuit access groove (24) are the indent groove, installs variable voltage circuit access end (25) in it, signal output recess (34) are the indent groove, install signal output end (35) in it, indoor set (5) are installed to the bottom surface on variable voltage room (10), The intelligent transformer substation comprises a transformation room temperature and humidity monitor (8) and a transformation room smoke probe (31), wherein an input power-off switch (29) is installed on the left side surface of the transformation room temperature and humidity monitor, an intelligent transformer substation (27) and dry ice fire-extinguishing equipment (28) are installed on the lower bottom surface of the transformation room temperature and humidity monitor, a transformer substation thermal infrared imager (41) is arranged on the right side surface of the transformation room temperature and humidity monitor, a graphene heat absorbing plate (12) is installed on the back surface of the transformation room temperature and humidity monitor, fire-extinguishing nozzles (30) are installed on the front side surface, the back side surface, the left side surface and the right side surface of the transformation room temperature and humidity monitor, the fire-extinguishing nozzles (30) are aligned to the intelligent transformer substation (27) and connected with the dry ice fire-extinguishing equipment (28) through copper pipes (42), the dry ice fire-extinguishing equipment (28) is provided with two, the input power-off switch (29) is connected with a transformation line access end (25) and the intelligent transformer substation (27) through wires (43), the intelligent transformer substation thermal infrared imager (41) is aligned to the intelligent transformer substation (27), electric indoor set (6), electric room temperature and humidity monitor (7), electric room smoke probe (32) are installed to bottom surface on electric room (11), left side treater infrared thermal imaging system (40), and the back is equipped with graphite alkene absorber plate (12), and internally mounted has network input output converter (33), GPS locator (36), memory (37), control processor (38), rechargeable battery structure (39), treater infrared thermal imaging system (40) camera lens aim at control processor (38).

2. The intelligent substation comprehensive auxiliary monitoring device of claim 1, characterized in that: the air conditioner outdoor unit (4) is connected with the transformation indoor unit (5) and the electric indoor unit (6) through a copper pipe (42).

3. The intelligent substation comprehensive auxiliary monitoring device of claim 1, characterized in that: the entrance guard terminal (16) comprises an intelligent door lock (17) and an entrance guard card swiping identifier (18), the intelligent door lock (17) is connected with the entrance guard card swiping identifier (18) through a wire (43), and the entrance guard card swiping identifier (18) can conduct identity recognition through card swiping to control the intelligent door lock (17) to be opened so as to open the fireproof door (14).

4. The intelligent substation comprehensive auxiliary monitoring device of claim 1, characterized in that: the equipment control end (15) comprises a touch screen command input card swiping identifier (19) and a liquid crystal touch display screen (20), and when a parameter command is input to the control device body (1) on the liquid crystal touch display screen (20), the operation can be carried out only by inputting the card swiping identifier (19) through the touch screen command to carry out card swiping identification.

5. The intelligent substation comprehensive auxiliary monitoring device of claim 1, characterized in that: the graphene heat absorption plate (12) is connected with a heat dissipation scale (13), the heat dissipation scale (13) penetrates through the back of the body shell (2), and most of the heat dissipation scale is arranged outside the body shell (2).

6. The intelligent substation comprehensive auxiliary monitoring device of claim 1, characterized in that: the network input/output converter (33) is connected with the signal transmitting/receiving antenna (21) through a lead (43).

7. The intelligent substation comprehensive auxiliary monitoring device of claim 1, characterized in that: the rechargeable battery structure (39) is connected with the intelligent substation (27) and the alarm (22) through a lead (43).

8. The intelligent substation comprehensive auxiliary monitoring device of claim 1, characterized in that: the control processor (38) is connected with an air conditioner external unit (4), a transformation indoor unit (5), an electric indoor unit (6), an electric room temperature and humidity monitor (7), a transformation room temperature and humidity monitor (8), an equipment control end (15), an entrance guard end (16), an alarm (22), an intelligent substation (27), a dry ice fire-extinguishing device (28), an input power-off switch (29), a transformation room smoke probe (31), an electric room smoke probe (32), a network input and output converter (33), a signal output end (35), a GPS positioner (36), a storage (37), a rechargeable battery structure (39), a processor thermal infrared imager (40) and a transformer thermal infrared imager (41).

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