CN2443320Y - Automatic controller for salvo - Google Patents
Automatic controller for salvo Download PDFInfo
- Publication number
- CN2443320Y CN2443320Y CN 00210217 CN00210217U CN2443320Y CN 2443320 Y CN2443320 Y CN 2443320Y CN 00210217 CN00210217 CN 00210217 CN 00210217 U CN00210217 U CN 00210217U CN 2443320 Y CN2443320 Y CN 2443320Y
- Authority
- CN
- China
- Prior art keywords
- pin
- ground connection
- termination
- directional control
- solenoid directional
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
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- Ignition Installations For Internal Combustion Engines (AREA)
Abstract
The utility model relates to an automatic controller for a salvo, which is composed of an A set of electromagnetic direction changing valves, a B set of electromagnetic direction changing valves, a fast connecting part and a controller, wherein the A and the B sets of electromagnetic direction changing valves are respectively connected with a combustible gas inlet pipe and a combustion supporting gas inlet pipe. An electromagnetic direction changing valve pipeline is connected with fast connecting sockets, and the two ends of a gas guiding pipe are provided with fast connecting jacks. The controller is composed of a receiver, a programming decoder, a relay and an electric lighter, the relay is connected with the A and the B sets of electromagnetic direction changing valves by a circuit, and the programming decoder and the electric lighter are connected by a circuit. The receiver receives signals, the relay is controlled by the programming decoder in sequence, and the opening and the closing of the electromagnetic direction changing valves are controlled by the relay to control fuel supply and the sequence of lighting so as to realize automatic control.
Description
The utility model relates to salvo and gives gas and set off Whole Process Control Design of device and manufacturing technology.
Existing to set off salvo be that operating personnel add gasoline on gun muzzle, and single then big gun is manually given oxygen according to the order of sequence one by one, lights a fire at gun muzzle by hand, its shortcoming is: manual operations adds the quantity of fuel inequality, miso-fire occurs, operates cumbersome, time interval of firing is long, and operating personnel are dangerous.
The purpose of this utility model provides a kind of feeding from fuel and sets off overall process and control the salvo automaton of high safety automatically.
The purpose of this utility model is achieved in that by two groups of solenoid directional control valves of first, second and fast fitting and controller and constitutes, two groups of solenoid directional control valves of first, second connect flammable and combustion-supporting air inlet pipe respectively, the solenoid directional control valve pipeline connects fast combination hub, fast combination hub is placed on the cabinet panel, first and second liang of group reversal valves place respectively in two casings of first, second, and the wireway two ends are fast plug.Controller is made of receiver, programming decoder, relay and Electric spark ignitor, receiver, programming decoder, relay circuit plate place in the casing, two groups of solenoid directional control valve circuit of relay and first, second are connected, and the programming decoder also is connected with the Electric spark ignitor circuit.The receiver received signal, through programming decoder sequential control relay, the folding of relay control solenoid directional control valve, thus control fuel is supplied with control sparking order.
The utility model has the advantages that: adopt same circuit board that two groups of solenoid directional control valves of first, second are controlled, flammable and combustion-supporting two kinds of gases are fully mixed, how much control sound size by what give tolerance, burning thoroughly, and is pollution-free, no flue dust, produce the flame of 20~50cm at gun muzzle, reach desirable and look, listen effect, can realize firing continuously or organizing into groups and fire, build the celebration atmosphere.Adopt solenoid directional control valve control fuel to supply with check, guarantee safe in utilization.
Below in conjunction with drawings and Examples the utility model is described.
Fig. 1 is the utility model structural representation.
Fig. 2 is the utility model controller circuitry figure.
Fig. 3 is the utility model controller panel figure.
Fig. 4 is the utility model Electric spark ignitor circuit diagram.
This salvo automaton, constitute by two groups of solenoid directional control valves of first, second and fast fitting and controller, two groups of solenoid directional control valves 1 of first, second connect flammable and combustion-supporting air inlet pipe respectively, the solenoid directional control valve pipeline connects fast combination hub 2, fast combination hub is arranged on casing 3 panels 4, and first and second liang of group solenoid directional control valves place respectively in the two tanks, and wireway 5 two ends are fast plug 6, the fast combination hub of wireway one termination cabinet panel during work is on the fast combination hub on another termination gun tube.Controller is made of receiver, programming decoder, relay and Electric spark ignitor, receiver, programming decoder, relay circuit plate place in the casing, two groups of solenoid directional control valve circuit of relay and first, second are connected, the programming decoder also is connected with the Electric spark ignitor circuit, Electric spark ignitor is contained on the gun tube, the controller circuit board circuit as shown in Figure 2, the A of receiver module TMH96238C, B, C, D pin connect 2,3,21,22 pin of program decoder module respectively, the 12 pin ground connection of the E pin of receiver module TMH96238C and program decoder module CD4514.The F pin connecting resistance R of TMH96238C
1, R
1In addition two termination triode T
1Base stage, T
1Collector and emitter between be capacitor C
1And resistance R
2, colelctor electrode connects 1 pin and the resistance R of CD4514
3, grounded emitter.R
3The other end and 24 pin of CD4514 meet chip 78C05, chip 78C05 goes up and connects capacitor C
2, C
3, C
2, C
3Other end ground connection, 78C05 meets diode D
2Output, D
2Another termination power, 9,10,8,7 pin of CD4514 connect the base stage of four triode T respectively, the grounded emitter of four triode T, the colelctor electrode of four triodes meets K respectively
1, K
2, K
3, K
4Four triggers.K
1, K
2, K
3, K
4Another termination D
2Output, K
1, K
2, K
3, K
4On four diode D all in parallel
1, K
1, K
2, K
3, K
4Meet auxiliary reclay KM
1, KM
2, KM
3, KM
4, KM
1, KM
2, KM
3, KM
4One termination D
2Output, an end ground connection, another termination solenoid directional control valve KS
1, KS
2, KS
3, KS
4, KS
1, KS
2, KS
3, KS
4One termination D
2Output, other end ground connection.5,6,4,18,17,20,19,14 pin of CD4514 connect the base stage of eight groups of triode T respectively, the grounded emitter of T, and the colelctor electrode of T meets K
5, K
6, K
7, K
8, K
9, K
10, K
11, K
12, K
5, K
6, K
7, K
8, K
9, K
10, K
11, K
12Last eight diode D respectively in parallel
1The Electric spark ignitor circuit is T
2Base stage meet K
5, K
6, K
7, K
8, K
9, K
10, K
11, K
12, T
2Colelctor electrode through resistance R
4Meet step-up transformer B with emitter stage
1, B
1A terminating diode D
3, D
3Output termination triode T
3Emitter stage, resistance R
6, capacitor C
4, T
3Base stage meet B
1Ground connection, T
3Colelctor electrode connecting resistance R
5, R
6, R
5Other end ground connection, C
4Another termination transformer B
2Coil, transformer B
2Secondary coil one end ground connection, a termination spark plug.
R
1, T
1, C
1, R
2Form mu balanced circuit and make program decoding CD4514 stable operating voltage, chip 78C05 and capacitor C
2, C
3Form anti-jamming circuit, D
1For the damping diode is stablized triode T work.Receiver module TMH96238C received signal during work is controlled K after program decoding CD4514 sequencing
1, K
2, K
3, K
4, K
5, K
6, K
7, K
8, K
9, K
10, K
11, K
12Triode T
2Receive K
5, K
6, K
7, K
8, K
9, K
10, K
11, K
12The signal that comes, T
2And B
1Form high-voltage pulse circuit, through diode D
3Give capacitor C
4Charging, triode T
3Protect and end capacitor C
4Discharge is at transformer B
2Secondary coil on produce pulse voltage, discharge sparking.This device can realize fully that through testing effect is very good to gas igniting automation.
Claims (4)
1, salvo automaton, it is characterized in that: constitute by two groups of solenoid directional control valves of first, second and fast fitting and controller, two groups of solenoid directional control valves of first, second [1] connect flammable and combustion-supporting air inlet pipe respectively, the solenoid directional control valve pipeline connects fast combination hub [2], wireway [5] two ends are fast plug [6], controller is made of receiver, programming decoder, relay and Electric spark ignitor, receiver, programming decoder, relay circuit plate place in the casing, two groups of solenoid directional control valve circuit of relay and first, second are connected, and the programming decoder also is connected with the Electric spark ignitor circuit.
2, salvo automaton according to claim 1 is characterized in that: fast combination hub is arranged on casing [3] panel [4], and two groups of solenoid directional control valves of first, second place in the two tanks respectively.
3, salvo automaton according to claim 1, it is characterized in that: the controller circuit board circuit is 2,3,21,22 pin that A, B, C, the D pin of receiver module TMH96238C connects the program decoder module respectively, the 12 pin ground connection of the E pin of receiver module TMH96238C and program decoder module CD4514, the F pin connecting resistance R of TMH96238C
1, R
1In addition two termination triode T
1Base stage, T
1Collector and emitter between be capacitor C
1And resistance R
2, colelctor electrode connects 1 pin and the resistance R of CD4514
3, grounded emitter, R
3The other end and 24 pin of CD4514 meet chip 78C05, chip 78C05 goes up and connects capacitor C
2, C
3, C
2, C
3Other end ground connection, 78C05 meets diode D
2Output, D
2Another termination power, 9,10,8,7 pin of CD4514 connect the base stage of four triode T respectively, the grounded emitter of four triode T, the colelctor electrode of four triodes meets K respectively
1, K
2, K
3, K
4Four triggers, K
1, K
2, K
3, K
4Another termination D
2Output, K
1, K
2, K
3, K
4On four diode D all in parallel
1, K
1, K
2, K
3, K
4Meet auxiliary reclay KM
1, KM
2, KM
3, KM
4, KM
1, KM
2, KM
3, KM
4One termination D
2Output, an end ground connection, another termination solenoid directional control valve KS
1, KS
2, KS
3, KS
4, KS
1, KS
2, KS
3, KS
4One termination D
2Output, other end ground connection, 5,6,4,18,17,20,19,14 pin of CD4514 connect the base stage of eight groups of triode T respectively, the grounded emitter of T, the colelctor electrode of T meets K
5, K
6, K
7, K
8, K
9, K
10, K
11, K
12, K
5, K
6, K
7, K
8, K
9, K
10, K
11, K
12Last eight diode D respectively in parallel
1
4, salvo automaton according to claim 1 is characterized in that: the Electric spark ignitor circuit is T
2Base stage meet K
5, K
6, K
7, K
8, K
9, K
10, K
11, K
12, T
2Colelctor electrode through resistance R
4Meet step-up transformer B with emitter stage
1, B
1A terminating diode D
3, D
3Output termination triode T
3Emitter stage, resistance R
6, capacitor C
4, T
3Base stage meet B
1Ground connection, T
3Colelctor electrode connecting resistance R
5, R
6, R
5Other end ground connection, C
4Another termination transformer B
2Coil, transformer B
2Secondary coil one end ground connection, a termination spark plug.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 00210217 CN2443320Y (en) | 2000-09-04 | 2000-09-04 | Automatic controller for salvo |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 00210217 CN2443320Y (en) | 2000-09-04 | 2000-09-04 | Automatic controller for salvo |
Publications (1)
Publication Number | Publication Date |
---|---|
CN2443320Y true CN2443320Y (en) | 2001-08-15 |
Family
ID=33577147
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN 00210217 Expired - Fee Related CN2443320Y (en) | 2000-09-04 | 2000-09-04 | Automatic controller for salvo |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN2443320Y (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101169315B (en) * | 2007-11-28 | 2010-08-04 | 王东向 | Salute firing controller and method for controlling salute firing |
-
2000
- 2000-09-04 CN CN 00210217 patent/CN2443320Y/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101169315B (en) * | 2007-11-28 | 2010-08-04 | 王东向 | Salute firing controller and method for controlling salute firing |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
C19 | Lapse of patent right due to non-payment of the annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |