CN208017962U - One kind is in warship extinction using gas and training integrated control unit - Google Patents
One kind is in warship extinction using gas and training integrated control unit Download PDFInfo
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- CN208017962U CN208017962U CN201720950671.3U CN201720950671U CN208017962U CN 208017962 U CN208017962 U CN 208017962U CN 201720950671 U CN201720950671 U CN 201720950671U CN 208017962 U CN208017962 U CN 208017962U
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Abstract
The utility model discloses one kind in warship extinction using gas and training integrated control unit, including hot drill overall-in-one control schema case and several carbon dioxide bottles, the audible-visual annunciator two of the audible-visual annunciator one and the generator compartment that berths of hot drill overall-in-one control schema case communication connection cabin, cabin and the generator compartment that berths are respectively arranged with nozzle one and nozzle two;The bottle valve of carbon dioxide bottle is connected with gas by pipeline one and discharges pipeline one, gas release pipeline two, compressed air line and extraneous air, gas discharges pipeline one and is connected to nozzle one, nozzle two, compressed air line is connected to nozzle one, nozzle two, and bottle valve is connected to extraneous air together by two connecting line of pipeline;Gas discharges pipeline one and is equipped with cast valve one, and gas discharges pipeline two and is equipped with cast valve two;Bottle valve is connected at least two indirect control solenoid valves;Compressed air hose road is provided with trained solenoid valve;The beneficial effects of the utility model:It is capable of providing and puts out a fire, while can realize hot drill function.
Description
Technical field
The utility model is related to fire prevention and put out technical field, it particularly relates to it is a kind of warship extinction using gas with
Training integrated control unit.
Background technology
Either peacetime or wartime, fire is all one of the main harm that ships faces, in recent years, to ship
Warship fire-fighting is increasingly paid attention to, and ships fire extinguishing system has special requirement, just as performance compared with other fire extinguishing systems such as land
Stablize, is reliable, reducing electric wire connection to the greatest extent, in time, effective monitoring ships safe condition, and general ships fire-fighting can only be
It could be used when fire is occurring, without having corresponding training and preventive effect.
For the problems in the relevant technologies, currently no effective solution has been proposed.
Utility model content
For above-mentioned technical problem in the related technology, the utility model proposes one kind in warship extinction using gas and training one
Change control device, the deficiencies in the prior art can be solved.
To realize the above-mentioned technical purpose, the technical solution of the utility model is realized in:
One kind is in warship extinction using gas and training integrated control unit, including hot drill overall-in-one control schema case and several two
Carbonoxide bottle, the acousto-optic of the audible-visual annunciator one and the generator compartment that berths of the hot drill overall-in-one control schema case communication connection cabin
Alarm two, the cabin and the generator compartment that berths are respectively arranged with nozzle one and nozzle two;
The bottle valve of the carbon dioxide bottle is connected with gas release pipeline one by pipeline one, gas discharges pipeline two,
Compressed air line and extraneous air, the gas discharge pipeline one and are connected to the nozzle one, and the gas discharges pipeline two
It is connected to the nozzle two, the compressed air line is connected to the nozzle one, nozzle two, and the bottle valve passes through pipeline two
Connecting line is connected to extraneous air together;The gas discharges and is provided with cast valve one on pipeline one, and the gas discharges pipeline
Cast valve two is provided on two;
The bottle valve is connected at least two indirect control solenoid valves;
The compressed air hose road is provided with trained solenoid valve;
The pipeline one is provided with relief valve and pneumatic control valve with extraneous air junction, and the pipeline two is empty with outside
Gas junction is provided with swing check valve, and pressure signal transmission is provided between the swing check valve and the bottle valve
Device;
The cast valve one, cast valve two, indirect control solenoid valve, training solenoid valve and pressure signal transmitter communicate
Connect the hot drill overall-in-one control schema case;
The hot drill overall-in-one control schema case communication link is connected to extinction using gas remote control and discharges display board.
Further, the indirect control solenoid valve includes cast valve control gas cylinder and carbon dioxide controls gas cylinder, described
Cast valve controls and is both provided with bottle head solenoid valve on gas cylinder and carbon dioxide control gas cylinder, and the bottle head solenoid valve passes through pipeline
It is connect with the cast valve one, cast valve two, bottle valve.
Further, the indirect control solenoid valve is 3, respectively indirect control solenoid valve one, indirect control electromagnetism
Valve two and indirect control solenoid valve three, the compressed air line include compressed air line branch one and compressed air line branch
Road two, the trained solenoid valve are 2, respectively train solenoid valve one and training solenoid valve two;
The carbon dioxide of the indirect control solenoid valve one, indirect control solenoid valve two and indirect control solenoid valve three controls
The bottle head solenoid valve of gas cylinder is connected by pipeline with the bottle valve;
The cast valve of the indirect control solenoid valve one and indirect control solenoid valve two controls on the bottle head solenoid valve of gas cylinder
It is connected separately with pipeline three and pipeline four, the pipeline three is connected with pipeline four by pipeline connecting parts, the pipeline connecting parts
It is connected with pipeline five, the pipeline five is connected with the cast valve one, and the cast valve one discharges pipeline one by gas and connects
The nozzle one;
The bottle head solenoid valve of the cast valve control gas cylinder of the indirect control solenoid valve three passes through pipeline six and the release
Valve two is connected, and the cast valve two discharges pipeline two by gas and connects the nozzle two;
The compressed air line branch one discharges pipeline one by gas and is connected with the nozzle one, the compressed air
Pipeline branch two discharges pipeline two by gas and is connected with the nozzle two, is arranged on the compressed air line branch one
Trained solenoid valve one is stated, the trained solenoid valve two is provided on the compressed air line branch two.
Further, it is provided with one-way non-return between the bottle head solenoid valve and bottle valve of the carbon dioxide control gas cylinder
Valve;It is provided with one way stop peturn valve between the bottle head solenoid valve and cast valve two of the cast valve control gas cylinder.
Further, the carbon dioxide bottle is 4, and the bottle valve of each carbon dioxide bottle passes through 2 connecting tubes
It is separately connected pipeline one and pipeline two.
Further, it is provided with one way stop peturn valve in the connecting tube between the bottle valve and pipeline one.
Further, the compressed air hose road between the trained solenoid valve and bottle valve is provided with check-valves.
Further, it is provided with check-valves between the swing check valve and the pressure signal transmitter.
The utility model also proposed a kind of control module of hot drill overall-in-one control schema case, including power supply, the electricity
Source is powered and is connected with long-range 16DIDO modules one, long-range 16DIDO modules two, long-range 16DIDO modules three, long-range 16RO modules
With long-range 8MRO modules, the long-range 16DIDO modules one connect long-range two He of 16DIDO modules by CAN bus
Long-range 16RO modules, the long-range 16DIDO modules two connect the long-range 16DIDO modules three by CAN bus, described remote
Journey 16DIDO modules three connect the long-range 8MRO modules by CAN bus, and the long-range 8MRO modules are connected by CAN bus
The long-range 16RO modules.
Further, the power supply uses DC24V power supplys.
The beneficial effects of the utility model:It is provided with the relevant electric wiring of hot drill, can realize hot drill work(
Can, it prevents trouble before it happens, and be provided with hot drill overall-in-one control schema case, and communication link is connected to extinction using gas remote control and discharges display
Plate, being capable of controlling remote operation progress fire extinguishing in real time or training.
Description of the drawings
In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment
Needed in attached drawing be briefly described, it should be apparent that, the accompanying drawings in the following description is only the utility model
Some embodiments for those of ordinary skill in the art without creative efforts, can also be according to this
A little attached drawings obtain other attached drawings.
Fig. 1 is one embodiment structure diagram in warship extinction using gas and training integrated control unit system;
Fig. 2 is the panel figure of extinction using gas training overall-in-one control schema case;
Fig. 3 is the panel figure that display board is discharged in extinction using gas remote control;
Fig. 4 is the control module structure diagram of hot drill overall-in-one control schema case.
Specific implementation mode
The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model
Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole
Embodiment.Based on the embodiments of the present invention, the every other embodiment that those of ordinary skill in the art are obtained all belongs to
In the range of the utility model protection.
As shown in Figure 1, a kind of in warship extinction using gas and training overall-in-one control schema according to the utility model embodiment
Device, including hot drill overall-in-one control schema case 1 and several carbon dioxide bottles 2, the hot drill overall-in-one control schema case 1 communicate
The audible-visual annunciator 25 of the audible-visual annunciator 1 of cabin and the generator compartment that berths is connected, the cabin and the generator compartment that berths are set respectively
It is equipped with nozzle 1 and nozzle 26;The bottle valve 7 of the carbon dioxide bottle 2 is connected with gas by pipeline 1 and discharges pipeline one
901, gas discharges pipeline 2 902, compressed air line 10 and extraneous air, and the gas discharges pipeline 1 and the spray
Mouth 1 is connected to, and the gas discharges pipeline two and is connected to the nozzle 26, the compressed air line 10 and the nozzle one
4, nozzle 26 is connected to, and the bottle valve 7 is by 2 11 connecting line 1 of pipeline and is connected to extraneous air;The gas discharges pipe
Cast valve 1 is provided on road 1, the gas discharges and is provided with cast valve 2 1202 on pipeline 2 902;The bottle
Head valve 7 is connected at least two indirect control solenoid valves;Trained solenoid valve is provided on the compressed air line 10;The pipe
Road 1 is provided with relief valve 13 and pneumatic control valve 14 with extraneous air junction, and the pipeline 2 11 is connect with extraneous air
Place is provided with swing check valve 15, and pressure signal transmitter is provided between the swing check valve 15 and the bottle valve
16;The cast valve 1, cast valve 2 1202, indirect control solenoid valve, training solenoid valve and pressure signal transmitter 16
Communicate to connect the hot drill overall-in-one control schema case 1;1 communication link of hot drill overall-in-one control schema case is connected to gas and goes out
Display board is discharged in fire remote control.
In a specific embodiment of the utility model, the indirect control solenoid valve includes cast valve control gas cylinder 20
Gas cylinder 21 is controlled with carbon dioxide, bottle head electricity is both provided on the cast valve control gas cylinder 20 and carbon dioxide control gas cylinder 21
Magnet valve 17, the bottle head solenoid valve 17 are connected by pipeline and the cast valve 1, cast valve 2 1202, bottle valve 7
It connects.
In a specific embodiment of the utility model, the indirect control solenoid valve is 3, respectively indirect control
Solenoid valve 1, indirect control solenoid valve 2 1802 and indirect control solenoid valve 3 1803, the compressed air line 10 wrap
Compressed air line branch 1 and compressed air line branch 2 1002 are included, the trained solenoid valve is 2, is respectively instructed
Practice solenoid valve 1 and training solenoid valve 2 1902;The indirect control solenoid valve 1, indirect control solenoid valve two
1802 and indirect control solenoid valve 3 1803 carbon dioxide control gas cylinder 21 bottle head solenoid valve 17 by pipeline with it is described
Bottle valve 7 is connected;The cast valve of the indirect control solenoid valve 1 and indirect control solenoid valve 2 1802 controls gas cylinder 20
Bottle head solenoid valve 17 on be connected separately with pipeline 3 22 and pipeline 4 23, the pipeline 3 22 and pipeline 4 23 are connected by pipeline
Fitting 24 is connected, and the pipeline connecting parts 24 are connected with pipeline 5 25, the pipeline 5 25 and one 1201 phase of the cast valve
Even, the cast valve 1 discharges pipeline 1 by gas and connects the nozzle 1;The indirect control solenoid valve three
The bottle head solenoid valve 17 of 1803 cast valve control gas cylinder 20 is connected by pipeline 6 26 with the cast valve 2 1202, described
Cast valve 2 1202 discharges pipeline 2 902 by gas and connects the nozzle 26;The compressed air line branch 1 is logical
It crosses gas release pipeline 1 with the nozzle 1 to be connected, the compressed air line branch 2 1002 is discharged by gas
Pipeline 2 902 is connected with the nozzle 26, and the trained solenoid valve one is provided on the compressed air line branch 1
1901, the trained solenoid valve 2 1902 is provided on the compressed air line branch 2 1002.
In a specific embodiment of the utility model, the bottle head solenoid valve 17 of carbon dioxide control gas cylinder 21 with
One way stop peturn valve 27 is provided between bottle valve 7;The bottle head solenoid valve 17 and cast valve two of the cast valve control gas cylinder 20
One way stop peturn valve 27 is provided between 1201.
In a specific embodiment of the utility model, the carbon dioxide bottle 2 is 4, each carbon dioxide
The bottle valve 7 of bottle 2 is separately connected pipeline 1 and pipeline 2 11 by 2 connecting tubes.
In a specific embodiment of the utility model, in the connecting tube between the bottle valve 7 and pipeline 1
It is provided with one way stop peturn valve 27.
In a specific embodiment of the utility model, the compression between the trained solenoid valve and bottle valve 7
Check-valves 28 is provided on air pipe line 10.
In a specific embodiment of the utility model, the swing check valve 15 and the pressure signal transmitter
Check-valves 28 is provided between 16.
As shown in figure 4, the utility model also proposed a kind of control module of hot drill overall-in-one control schema case, including electricity
Source, power supply energization are connected with long-range 16DIDO modules one, long-range 16DIDO modules two, long-range 16DIDO modules three, long-range
16RO modules and long-range 8MRO modules, the long-range 16DIDO modules one connect the long-range 16DIDO by CAN bus
Module two and long-range 16RO modules, the long-range 16DIDO modules two connect the long-range 16DIDO modules three by CAN bus,
The long-range 16DIDO modules three connect the long-range 8MRO modules by CAN bus, and the long-range 8MRO modules are total by CAN
Line connects the long-range 16RO modules.
In a specific embodiment of the utility model, the power supply uses DC24V power supplys.
In order to facilitate the above-mentioned technical proposal of the utility model is understood, below by way of new to this practicality in specifically used mode
The above-mentioned technical proposal of type is described in detail.
Include 1. malfunction coefficient as shown in Fig. 2, being the panel figure of extinction using gas training overall-in-one control schema case:Main power source
Malfunction coefficient 102, auxiliary power failure show that 103, internal communication malfunction coefficient 104, external communication malfunction coefficient 105, manifold are let out
Leak malfunction coefficient 106;2. status display:Power supply shows that 107, operation instruction display 108, manual mode show 109, fire extinguishing state
Display 110, physical training condition show that 111, remote state shows that 112, spare display 113, fire alarm show 114, Fire extinguishing cable
Open circuit display 115 trains cable open circuit display 116, manual mode to show that 117, wind oil cut-out display 118, release pre-alarm are aobvious
Show 119, discharge alarm indication 120, display 121 of putting out a fire, fire extinguishing delay display 122;3. control button:Wind oil split key
123, the secondary fire button 125 of a fire button 124, cabin, fire extinguishing cancel button 126, examination button 129, reset button
130, noise elimination button 131, fire extinguishing ACK button 132;4. switching:Fire extinguishing/training change-over switch 101, manually fire extinguishing switch 128.
As shown in figure 4, for the control module structure diagram of hot drill overall-in-one control schema case, wherein long-range 16DIDO moulds
Block one, long-range 16DIDO modules two, long-range 16DIDO modules three receive each carbon-dioxide fire engine area buttons, travel switch, fire
The input/output signals such as police, display, charactron, the relays output letter such as long-range 16RO modules transmitting fire extinguishing sound-light alarm output
Number, long-range 8MRO modules transmitting fire extinguishing cast valve, bottle valve output signal, while long-range 8MRO modules can monitor broken string event
Barrier, medium-long range 16DIDO modules one, also as the CPU units of this system, are responsible for defeated other than with input/output function
Enter signal and carry out logical process, and various output signals are sent out according to handling result, such as lights charactron and start countdown, driving
Relay controls carbon-dioxide fire engine release etc..
It is one embodiment structure diagram in warship extinction using gas and training integrated control unit system as shown in Figure 1,
Fire extinguishing and the hot drill that can carry out cabin and the generator compartment that berths are divided into cabin fire extinguishing, cabin fire extinguishing by taking cabin as an example.
When normal work, fire extinguishing/training change-over switch 101 of extinction using gas training overall-in-one control schema case 1 should be at putting out a fire
State, public domain fire extinguishing status display 110 are lighted, and operation instruction display 108 is glittering with 1 second or so frequency.
When fire alarm occurs for cabin, the buzzer 103 of extinction using gas training overall-in-one control schema case 1 sends out the sound, machine
The fire alarm in cabin shows that 114 light, and can press 131 buttons of eliminating the noise at this time to 103 noise reduction of buzzer, confirmation is first pressed after need to putting out a fire
Leeward oil split key 123, cuts off the wind oil machine of cabin, and the wind oil cut-out display 118 of area of aircraft cabins is lighted, then pressed simultaneously
Fire extinguishing fire button 124 of ACK button 132 and cabin, cabin discharge alarm audible-visual annunciator 1 and send out sound progress in advance
Evacuating personnel, panel area of aircraft cabins discharge pre-alarm and show that 119 light, and cabin fire extinguishing delay charactron starts countdown in 30 seconds,
When countdown was to 20 seconds, the pipeline cast valve 1 of cabin is opened, and when countdown is to 0, the bottle valve 7 of cabin is beaten
It opens, carbon dioxide discharges out from carbon dioxide bottle 2 and send to cabin and put out a fire by gas release pipeline 1 and nozzle 1,
Alarm audible-visual annunciator 1 is discharged simultaneously and sends out release warning sound-light alarm, and cabin panel discharges alarm indication 120 and
Fire extinguishing display 121 is lighted.So far fire extinguishing procedure is completed.
It needs to press reset button 130 after the completion of fire extinguishing and system is resetted.But if after primary fire extinguishing, there is also dead
Situations such as grey resume combustion, then needs to carry out secondary fire extinguishing, need to only press simultaneously at this time fire extinguishing ACK button 132 and cabin it is secondary fire extinguishing by
Button 124 can implement the secondary fire extinguishing of cabin.
When countdown is also less than 0 second within 30 seconds for fire extinguishing, fire extinguishing cancel button 126 can be pressed and cancel this fire extinguishing.
When carrying out cabin hot drill, fire extinguishing/training change-over switch 101 is placed in physical training condition, public domain training
Status display 111 is lighted.
Hereafter the operation when operation with real fire extinguishing of cabin hot drill is completed just the same, body hot drill integration
Control cabinet 1 no longer really exports applying carbon dioxide signal, but exports to training solenoid valve 1 and turn on, compression
Air discharges compressed air line branch 1 and is transmitted to the nozzle 1 of cabin, then carries out hot drill.
Need after the completion of hot drill fire extinguishing/training change-over switch 101 be threaded to again fire extinguishing state and pressing reset by
Button 130 resets control system.
In one embodiment, 1 communication link of hot drill overall-in-one control schema case is connected to extinction using gas remote control and discharges display board,
It is illustrated in figure 3 the panel figure of display board, can preferably this system be carried out by being remotely controlled release display board by extinction using gas
Fire extinguishing control.
The above is only the preferred embodiment of the utility model only, is not intended to limit the utility model, all at this
Within the spirit and principle of utility model, any modification, equivalent replacement, improvement and so on should be included in the utility model
Protection domain within.
Claims (10)
1. a kind of in warship extinction using gas and training integrated control unit, it is characterised in that:
Including hot drill overall-in-one control schema case (1) and several carbon dioxide bottles (2), the hot drill overall-in-one control schema case
(1) communication connection cabin audible-visual annunciator one (3) and the generator compartment that berths audible-visual annunciator two (5), the cabin with berth
Generator compartment is respectively arranged with nozzle one (4) and nozzle two (6);
The bottle valve (7) of the carbon dioxide bottle (2) is connected with gas release pipeline one (901) by pipeline one (8), gas is applied
Pipeline two (902), compressed air line (10) and extraneous air are put, the gas discharges pipeline one (901) and the nozzle one
(4) it is connected to, the gas discharges pipeline two and is connected to the nozzle two (6), the compressed air line (10) and the nozzle
One (4), nozzle two (6) connection, the bottle valve (7) is by pipeline two (11) connecting line one (8) and is connected to extraneous air;
The gas discharges and is provided with cast valve one (1201) on pipeline one (901), and the gas discharges to be set on pipeline two (902)
It is equipped with cast valve two (1202);
The bottle valve (7) is connected at least two indirect control solenoid valves;
It is provided with trained solenoid valve on the compressed air line (10);
The pipeline one (8) is provided with relief valve (13) and pneumatic control valve (14), the pipeline two with extraneous air junction
(11) extraneous air junction is provided with swing check valve (15), the swing check valve (15) and the bottle valve it
Between be provided with pressure signal transmitter (16);
The cast valve one (1201), cast valve two (1202), indirect control solenoid valve, training solenoid valve and pressure signal are sent
Device (16) communicates to connect the hot drill overall-in-one control schema case (1);
Hot drill overall-in-one control schema case (1) communication link is connected to extinction using gas remote control and discharges display board.
2. according to claim 1 a kind of in warship extinction using gas and training integrated control unit, it is characterised in that:It is described
Indirect control solenoid valve includes cast valve control gas cylinder (20) and carbon dioxide control gas cylinder (21), and the cast valve controls gas cylinder
(20) and on carbon dioxide control gas cylinder (21) it is both provided with bottle head solenoid valve (17), the bottle head solenoid valve (17) passes through pipe
Road is connect with the cast valve one (1201), cast valve two (1202), bottle valve (7).
3. according to claim 2 a kind of in warship extinction using gas and training integrated control unit, it is characterised in that:
The indirect control solenoid valve is 3, respectively indirect control solenoid valve one (1801), indirect control solenoid valve two
(1802) and indirect control solenoid valve three (1803), the compressed air line (10) includes compressed air line branch one
(1001) and compressed air line branch two (1002), the trained solenoid valve are 2, respectively train solenoid valve one (1901)
With training solenoid valve two (1902);
The indirect control solenoid valve one (1801), indirect control solenoid valve two (1802) and indirect control solenoid valve three (1803)
Carbon dioxide control gas cylinder (21) bottle head solenoid valve (17) be connected with the bottle valve (7) by pipeline;
The cast valve of the indirect control solenoid valve one (1801) and indirect control solenoid valve two (1802) controls gas cylinder (20)
Pipeline three (22) and pipeline four (23) are connected separately on bottle head solenoid valve (17), the pipeline three (22) and pipeline four (23) are logical
Pipeline connecting parts (24) are crossed to be connected, the pipeline connecting parts (24) are connected with pipeline five (25), the pipeline five (25) with it is described
Cast valve one (1201) is connected, and the cast valve one (1201) discharges pipeline one (901) by gas and connects the nozzle one
(4);
The bottle head solenoid valve (17) of the cast valve control gas cylinder (20) of the indirect control solenoid valve three (1803) passes through pipeline six
(26) it is connected with the cast valve two (1202), the cast valve two (1202) discharges pipeline two (902) by gas and connects institute
State nozzle two (6);
The compressed air line branch one (1001) discharges pipeline one (901) by gas and is connected with the nozzle one (4), institute
It states compressed air line branch two (1002) by gas release pipeline two (902) to be connected with the nozzle two (6), the compression
The trained solenoid valve one (1901), the compressed air line branch two are provided on air pipe line branch one (1001)
(1002) the trained solenoid valve two (1902) is provided on.
4. a kind of in warship extinction using gas and training integrated control unit, spy according to Claims 2 or 3 any one
Sign is:It is provided with one-way non-return between the bottle head solenoid valve (17) and bottle valve (7) of the carbon dioxide control gas cylinder (21)
Valve (27);Unidirectional stop is provided between the bottle head solenoid valve (17) and cast valve two (1201) of the cast valve control gas cylinder (20)
Return valve (27).
5. according to claim 1 a kind of in warship extinction using gas and training integrated control unit, it is characterised in that:It is described
Carbon dioxide bottle (2) is 4, and the bottle valve (7) of each carbon dioxide bottle (2) is separately connected pipeline by 2 connecting tubes
One (8) and pipeline two (11).
6. according to claim 5 a kind of in warship extinction using gas and training integrated control unit, it is characterised in that:It is described
One way stop peturn valve (27) is provided in the connecting tube between bottle valve (7) and pipeline one (8).
7. according to claim 1 a kind of in warship extinction using gas and training integrated control unit, it is characterised in that:It is described
It is provided with check-valves (28) on the compressed air line (10) between training solenoid valve and bottle valve (7).
8. according to claim 1 a kind of in warship extinction using gas and training integrated control unit, it is characterised in that:It is described
Check-valves (28) is provided between swing check valve (15) and the pressure signal transmitter (16).
9. a kind of in warship extinction using gas and training integrated control unit, spy according to claim 6-8 any one
Sign is:Including power supply, power supply energization is connected with long-range 16DIDO modules one, long-range 16DIDO modules two, long-range
16DIDO modules three, long-range 16RO modules and long-range 8MRO modules, the long-range 16DIDO modules one are connected by CAN bus
The long-range 16DIDO modules two and long-range 16RO modules are connect, described in the long-range 16DIDO modules two are connected by CAN bus
Long-range 16DIDO modules three, the long-range 16DIDO modules three connect the long-range 8MRO modules by CAN bus, described long-range
8MRO modules connect the long-range 16RO modules by CAN bus.
10. according to claim 9 a kind of in warship extinction using gas and training integrated control unit, which is characterized in that institute
It states power supply and uses DC24V power supplys.
Priority Applications (1)
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CN201720950671.3U CN208017962U (en) | 2017-08-01 | 2017-08-01 | One kind is in warship extinction using gas and training integrated control unit |
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CN201720950671.3U CN208017962U (en) | 2017-08-01 | 2017-08-01 | One kind is in warship extinction using gas and training integrated control unit |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109712462A (en) * | 2019-02-28 | 2019-05-03 | 三一汽车制造有限公司 | Fire fighting truck learning system, fire fighting truck |
CN112535825A (en) * | 2020-12-09 | 2021-03-23 | 中船邮轮科技发展有限公司 | Prevent boats and ships CO2Abnormal release safety system and operation method |
-
2017
- 2017-08-01 CN CN201720950671.3U patent/CN208017962U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109712462A (en) * | 2019-02-28 | 2019-05-03 | 三一汽车制造有限公司 | Fire fighting truck learning system, fire fighting truck |
CN112535825A (en) * | 2020-12-09 | 2021-03-23 | 中船邮轮科技发展有限公司 | Prevent boats and ships CO2Abnormal release safety system and operation method |
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