CN217602217U - Passive room of control valve room - Google Patents

Abstract

The utility model relates to the technical field of modularized houses, in particular to a monitoring valve chamber passive house which can realize the functions of internal power resource disposal, monitoring signals, communication signal transmission and the like by depending on the structure of a system per se, so that the inside of the monitoring valve chamber can normally operate, the stability of system operation is maintained, the operation cost is reduced, and the practicability is improved; including the room body, the room body adopts the mode installation of whole welding to at internal portion in room to be provided with communication system and instrument system, be provided with electric power resource system on the room body, this room body can satisfy frequently hoist and mount, move on the whole, and the requirement that fast assembly used adopts passive room technique, realizes the reduction of valve chamber body energy consumption, can realize high-efficient taking a breath, and does not need extra energy resource consumption.

Description

Passive room of control valve room

Technical Field

The utility model relates to a technical field in modularization house especially relates to a passive room of monitor valve room.

Background

As is well known, the monitoring valve chamber is usually located in the field and in a relatively large space, and therefore, the power supply required for the system operation is a very restrictive factor. The existing solution is generally to access the commercial power, configure the small generator set and transmit power on other lines, but this kind of solution will cause the cost to climb, make the system operating cost increase by a wide margin, meanwhile, because of the loss of the power system resource configuration, also cause the influence to the stability of the whole system operation, thus lead to its practicality relatively poor.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

The utility model provides a to prior art not enough, the utility model provides a can rely on system self structure to realize that inside electric power resource deals with, make the inside normal operating that can of monitor valve room, the stability of maintenance system operation reduces the working costs, improves the monitor valve room passive house of practicality.

(II) technical scheme

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a passive room of control valve room, includes the room body, room body main part adopts the installation of whole welded mode to at internal portion in room communication system and the instrument system of being provided with, be provided with power resource system on the room body, it can rely on the structure of system self to realize functions such as the transmission of the processing of inside power resource, monitoring signal, communication signal. The house body adopts an integral welding structure, and the rest parts adopt a bolt fixing installation mode; the requirements of frequent hoisting, relocation and rapid assembly and use can be integrally met.

Specifically, the room body includes base, wall body and roof board, wall body top and bottom respectively with roof board and base welded fastening, adopt whole welded structure, intensity is high, and rigidity is big, can satisfy frequently hoist and mount, move, and fast assembly uses to be provided with the door of registering one's residence on the wall body lateral wall, the door of registering one's residence is double-deck seal structure's cold storage door or prevents fire door, and is provided with double glazing's observation window on the door of registering one's residence, be provided with unpowered fan on the roof board to be provided with the multiunit exhaust hole in wall body rear side lower region, unpowered fan and exhaust hole constitution ventilation system.

Specifically, the base outside is provided with the base girder, and the base girder is rectangle thick wall square steel pipe, channel-section steel, I-steel or H shaped steel, be provided with the multiunit hanging bar on the base girder, the hanging bar is thick wall seamless steel pipe, possesses sufficient intensity and satisfies functions such as frequent hoist and mount, removal, maintenance use, the base is by supreme bottom layer of tray, the waterproof ventilative rete of first fire-retardant type, first heat preservation material layer and the indoor floor layer of being in proper order down.

The bottom support plate layer is a flat steel plate, an electrostatic spraying color steel composite plate or other similar plates, the first heat-preservation material layer is preferably made of A-grade flame-retardant heat-preservation materials, and the indoor floor layer is preferably made of anti-skid pattern steel plates or special electrostatic floors for machine rooms.

Specifically, wall body and roof board are container formula corrugated sheet, the waterproof ventilative rete of fire-retardant type of second, second insulation material layer and compound insulation board layer from outer to interior all in proper order to be provided with four groups of corner posts respectively in wall body four corners position.

The second heat-insulating material layer is preferably an A-level flame-retardant heat-insulating material, and the composite heat-insulating board layer is filled with the A-level heat-insulating material.

Specifically, the electric power resource system includes multiunit photovoltaic power generation board, explosion-proof power junction box, power cabinet and battery pack cabinet, can fully provide the electric power resource that system operation needs, need not outside petrochemical industry, electric power energy input, the photovoltaic power generation board sets up in the roof top, explosion-proof power junction box, power cabinet and battery pack cabinet all set up inside the wall body, the photovoltaic power generation board is connected with explosion-proof power junction box electricity, explosion-proof power junction box is connected with the power cabinet electricity, the power cabinet is connected with the battery pack cabinet electricity, the power cabinet is used for the power supply of outdoor detector to the power cabinet is used for indoor instrument system and communication system's power supply through indoor line, is used for remote signal's transmission simultaneously.

Specifically, the instrument system includes combustible gas detector, temperature-sensing smoke detector, fire control host computer and instrument rack, combustible gas detector and temperature-sensing smoke detector all are connected with the fire control host computer electricity, the fire control host computer is connected with the instrument rack electricity.

Specifically, communication system includes explosion-proof instrument junction box, communication rack and communication junction box, explosion-proof instrument junction box is connected with the instrument rack electricity, the communication junction box is connected with the communication rack electricity, the communication rack is connected with the instrument rack electricity.

Specifically, the passive room and the remote terminal device communicate through the ethernet, and a port of the passive room connected with the remote terminal device is connected in an RS485 interface form.

(III) advantageous effects

Compared with the prior art, the utility model provides a passive room of monitor valve room possesses following beneficial effect:

1. the house body adopts a passive house technology, so that the energy consumption of the valve chamber body is reduced;

2. the ventilation system is composed of an unpowered fan on the roof and exhaust holes at the bottom of the rear side of the wall body, so that high-efficiency air exchange (50 times per hour) is realized, and additional energy consumption is not needed;

3. the power resource that the photovoltaic power generation board in roof provided both can satisfy the passive room internal plant operation needs of monitoring valve room, can satisfy on-the-spot detector signal transmission, valve room remote signal transmission's power needs again, has solved the too high problem of monitoring valve room operating cost.

Drawings

Fig. 1 is a schematic front view of the present invention;

fig. 2 is a schematic top view of the present invention;

fig. 3 is a right-side view structural schematic diagram of the present invention;

FIG. 4 is a schematic view of a wall construction;

FIG. 5 is a schematic view of the structure of the base;

FIG. 6 is a schematic electrical connection diagram of a power resource system;

fig. 7 is a transmission path of a monitoring signal and a communication signal;

in the drawings, the reference numbers: 1. a base; 2. a wall body; 3. a roof panel; 4. an entrance door; 5. a non-powered fan; 6. a base main beam; 7. a hanging bar; 8. a bottom carrier layer; 9. a first flame-retardant waterproof breathable film layer; 10. a first insulating material layer; 11. an indoor floor layer; 12. a container type corrugated board; 13. a second flame-retardant waterproof breathable film layer; 14. a second insulating material layer; 15. compounding a heat insulation plate layer; 16. corner posts; 17. a photovoltaic power generation panel; 18. an explosion-proof power supply junction box; 19. a power supply cabinet; 20. a battery pack cabinet; 21. a combustible gas detector; 22. a temperature-sensitive smoke detector; 23. a fire-fighting host; 24. an instrument cabinet; 25. an explosion-proof instrument junction box; 26. a communication cabinet; 27. communication junction box.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

Referring to fig. 1 to 7, a passive house of a monitoring valve chamber includes a house body, a main body of the house body is installed by integral welding, a communication system and an instrument system are arranged inside the house body, and a power resource system is arranged on the house body, which can realize functions of processing internal power resources, transmitting monitoring signals and communication signals, etc. depending on the structure of the system itself. The house body adopts an integral welding structure, and the rest parts adopt bolt fixing and mounting modes; the requirements of frequent hoisting, moving and rapid assembly and use can be integrally met.

The room body includes base 1, wall body 2 and roof board 3, 2 tops of wall body and bottom respectively with roof board 3 and base 1 welded fastening, adopt whole welded structure, intensity is high, rigidity is big, can satisfy frequent hoist and mount, move, the fast assembly uses, and be provided with entry door 4 on 2 lateral walls of wall body, entry door 4 is double-deck seal structure's cold storage door or prevents fire door, and be provided with double glazing's observation window on entry door 4, be convenient for externally observe indoor equipment operational aspect, be provided with unpowered fan 5 on the roof board 3, and be provided with the multiunit exhaust hole in wall body 2 rear side lower half district, unpowered fan 5 forms ventilation system with the exhaust hole, utilize indoor outer temperature difference to take a breath, the draught that combines on-the scene average wind speed to calculate can reach 50 times per hour, indoor thermal emission has effectively been solved.

The base 1 outside is provided with base girder 6, and base girder 6 is rectangle thick wall square steel pipe, channel-section steel, I-steel or H shaped steel, is provided with multiunit hanger 7 on the base girder 6, and hanger 7 is thick wall seamless steel pipe, possesses sufficient intensity and satisfies functions such as frequent hoist and mount, move, maintain the use, and base 1 is by supreme bottom layer 8, the waterproof ventilative rete of first fire-retardant type 9, first heat preservation material layer 10 and the indoor floor layer 11 of being in proper order down.

Wherein the bottom layer 8 is a flat steel plate, an electrostatic spraying color steel composite plate or other similar plates, the first heat-insulating material layer 10 is preferably made of A-grade flame-retardant heat-insulating material, and the indoor floor layer 11 is preferably made of anti-skid pattern steel plates or special electrostatic floors for machine rooms.

Wall body 2 and roof board 3 are container formula corrugated sheet 12, the fire-retardant type waterproof ventilative rete 13 of second, second insulation material layer 14 and compound insulation sheet layer 15 in proper order from outside to inside to be provided with four group's corner posts 16 respectively in 2 four corners positions of wall body, can guarantee structural strength, rigidity when, can play better thermal-insulated dampproofing effect.

The second heat-insulating material layer 14 is preferably an A-level flame-retardant heat-insulating material, and the composite heat-insulating board layer 15 is a filling A-level heat-insulating material.

The electric power resource system comprises a plurality of groups of photovoltaic power generation boards 17, an explosion-proof power supply junction box 18, a power cabinet 19 and a battery pack cabinet 20, electric power resources required by system operation can be fully provided, external petrochemical is not required, electric power energy is input, the photovoltaic power generation boards 17 are arranged at the top of the roof plate 3, the explosion-proof power supply junction box 18, the power cabinet 19 and the battery pack cabinet 20 are both arranged inside the wall body 2, the photovoltaic power generation boards 17 are electrically connected with the explosion-proof power supply junction box 18, the explosion-proof power supply junction box 18 is electrically connected with the power cabinet 19, the power cabinet 19 is electrically connected with the battery pack cabinet 20, the power cabinet 19 is used for supplying power for outdoor detectors, the power cabinet 19 is used for supplying power for an indoor instrument system and a communication system through an indoor circuit, and is used for transmitting remote signals.

The power resource provided by the power resource system can meet the operation requirement of equipment inside the valve chamber, can also meet the power supply required by remote transmission of communication signals, and does not need external petrochemical and power energy input.

The instrument system provides collection, processing, transmission and feedback of monitoring signals and comprises a combustible gas detector 21, a temperature and smoke sensing detector 22, a fire-fighting host 23 and an instrument cabinet 24, wherein the combustible gas detector 21 and the temperature and smoke sensing detector 22 are electrically connected with the fire-fighting host 23, the fire-fighting host 23 is electrically connected with the instrument cabinet 24, and the instrument system arranged outside a site only inputs detection signals to the indoor instrument cabinet and does not belong to the configuration of a passive room of a valve chamber.

The instrument system has the function of generating various detection signals, such as the signal output by the indoor temperature-sensing smoke detector 22 and the signal output by the combustible gas detector 21, which are input into the fire-fighting host 23 and then input into the instrument cabinet for processing; the detection signal of the valve chamber outside the passive room site is directly connected into the instrument cabinet for processing.

The communication system comprises an explosion-proof instrument junction box 25, a communication cabinet 26 and a communication junction box 27, wherein the explosion-proof instrument junction box 25 is electrically connected with the instrument cabinet 24, the communication junction box 27 is electrically connected with the communication cabinet 26, and the communication cabinet 26 is electrically connected with the instrument cabinet 24.

The propagation path of the monitoring signal is: the detection signals of the combustible gas detector 21 and the temperature-sensing smoke detector 22 are input into the fire-fighting host 23, are input into the instrument cabinet 24 after logic processing, the detection signals generated by the detectors outside the site are transmitted to the instrument cabinet 24 through the explosion-proof instrument junction box 25, and the signals output by the instrument cabinet 24 are transmitted to the communication cabinet 26; and then the data is output to a communication junction box 27 outside the passive room of the monitoring valve chamber, the field real-time operation data is remotely transmitted to a remote terminal through network transmission, the same instruction fed back from the remote terminal is accessed to a communication cabinet 26 and is transmitted back to an instrument cabinet 24 through the communication cabinet 26, the instrument cabinet 24 is transmitted to an explosion-proof instrument junction box 25, and the remote instruction is notified to a field execution mechanism for execution.

The signals monitored by the passive room comprise external field detector input signals and indoor detection signals, the generated monitoring signals enter the instrument cabinet 24 for processing, after processing, communication signals are output, and the corresponding communication signals are provided to the remote transmission terminal by the communication cabinet 26 and the communication junction box 27, so that remote monitoring operation is realized.

The passive house and the remote terminal device are communicated through the Ethernet, and the ports of the passive house and the remote terminal device are connected in an RS485 interface mode.

The utility model discloses a passive room of monitor valve room, its mounting process is: the method comprises the steps of base 1 structure assembly welding construction → wall 2 structure assembly welding → roof plate 3 structure assembly welding → entrance door 4 assembly welding → power cabinet 19, communication cabinet 26, instrument cabinet 24 and battery pack cabinet 20 fixing support assembly welding → inner and outer sand blasting → inner wall rust-proof spraying → room body outer rust-proof finish paint spraying → entrance door 4 installation → unpowered fan 5 installation → photovoltaic power generation board 17 installation → vent arrangement → explosion-proof power supply junction box 18, explosion-proof instrument junction box 25 and communication junction box 27 installation → indoor line, bridge frame installation → system test acceptance → warehousing or delivery.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. A monitoring valve chamber passive house is characterized by comprising a house body, wherein the house body is installed in an integral welding mode, a communication system and an instrument system are arranged in the house body, a power resource system is arranged on the house body, the house body comprises a base (1), a wall body (2) and a roof plate (3), the top end and the bottom end of the wall body (2) are respectively welded and fixed with the roof plate (3) and the base (1), an entrance door (4) is arranged on the side wall of the wall body (2), an observation window of double-layer glass is arranged on the entrance door (4), the roof plate (3) is provided with an unpowered fan (5), a plurality of groups of exhaust holes are arranged in the lower half area of the rear side of the wall body (2), a base main beam (6) is arranged outside the base (1), a plurality of groups of hanging bars (7) are arranged on the base main beam (6), the base (1) is sequentially provided with a bottom support plate layer (8), a first flame-retardant waterproof breathable film layer (9), a first heat-preservation material layer (10) and an indoor floor layer (11) from bottom to top, the wall body (2) and the roof plate (3) are sequentially provided with a container type corrugated plate (12), a second flame-retardant waterproof breathable film layer (13), a second heat-insulating material layer (14) and a composite heat-insulating plate layer (15) from outside to inside, four groups of corner columns (16) are respectively arranged at the four corners of the wall body (2).

2. The monitoring valve chamber passive house according to claim 1, characterized in that the power resource system comprises multiple sets of photovoltaic power generation boards (17), explosion-proof power connection boxes (18), power cabinets (19) and battery packs (20), the photovoltaic power generation boards (17) are arranged on the top of the roof plate (3), the explosion-proof power connection boxes (18), the power cabinets (19) and the battery packs (20) are all arranged inside the wall body (2), the photovoltaic power generation boards (17) are electrically connected with the explosion-proof power connection boxes (18), the explosion-proof power connection boxes (18) are electrically connected with the power cabinets (19), the power cabinets (19) are electrically connected with the battery packs (20), the power cabinets (19) are used for supplying power for outdoor detectors, and the power cabinets (19) are used for supplying power for indoor instrument systems and communication systems through indoor lines and simultaneously used for transmitting remote signals.

3. The monitoring valve chamber passive house according to claim 1, characterized in that the instrument system comprises a combustible gas detector (21), a temperature-sensitive smoke detector (22), a fire-fighting host (23) and an instrument cabinet (24), the combustible gas detector (21) and the temperature-sensitive smoke detector (22) are both electrically connected with the fire-fighting host (23), and the fire-fighting host (23) is electrically connected with the instrument cabinet (24).

4. A monitoring valve chamber passive room according to claim 3, characterized in that the communication system comprises an explosion-proof instrument junction box (25), a communication cabinet (26) and a communication junction box (27), the explosion-proof instrument junction box (25) is electrically connected with the instrument cabinet (24), the communication junction box (27) is electrically connected with the communication cabinet (26), and the communication cabinet (26) is electrically connected with the instrument cabinet (24).

5. The monitoring valve chamber passive room of claim 1, wherein the passive room and the remote terminal device communicate via ethernet, and the port of the passive room connected to the remote terminal device is connected in an RS485 interface manner.

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