CN205606633U - Automatic multiplexed output point firearm - Google Patents

Abstract

Automatic multiplexed output point firearm includes casing (1), is fixed in bottom plate (2), ignition circuit module (3), command unit (4) in casing (1), ignition circuit module (3) install on bottom plate (2), inlay on control panel (5) of casing (1) command unit (4), ignition circuit module (3) and command unit (4) meet, the operation personnel are according to the requirement that puts into operation, at an operating point, can accomplish corresponding ignition operation through command unit (4) on some firearm, can improve the current situation of operation personnel multiple spot scatter operation when saving equipment cost again.

Description

Automatic multi-path output point firearm

Technical field

This utility model relates to high energy ignition unit field, particularly relates to a kind of automatic multi-path output point firearm.

Background technology

High energy ignition unit includes three ingredients, i.e. lighter, firing cable, burning torch, at present, this three part of the high energy ignition unit that all kinds of boilers and combustion experiment room are used is relation one to one, standard specifies, when putting into operation, each high energy ignition unit is timesharing and sequentially lights a fire, so, if lighter and firing cable, burning torch to be designed to the relation of one-to-many, one lighter is available for multichannel burning torch sparking work use, can also improve the present situation of operations staff's multiple spot scatter operation while saving equipment cost.

Summary of the invention

The purpose of this utility model is aiming at deficiencies of the prior art, it is provided that a kind of automatic multi-path output point firearm, and it was both individually struck sparks on the arbitrary road in controllable multi-route burning torch, it is possible to controls multichannel burning torch according to the requirement that puts into operation and strikes sparks the most successively.

Described utility model automatic multi-path output point firearm, the base plate (2) that including casing (1), is fixed in casing (1), firing circuit module (3), command unit (4), described firing circuit module (3) is installed on base plate (2), command unit (4) is embedded on the control panel (5) of casing (1), and firing circuit module (3) and command unit (4) connect.

Described firing circuit module (3) includes power input, protected location a, intermediate circuit unit, protected location b, PLC, electric energy output end.

Described protected location a is a catalyst, and coiler part is connected with the outfan of PLC, and PLC is its power supply, and contact part is connected with power input and intermediate circuit unit, for the on and off of control point firearm input power.

Described protected location b is formed in parallel by multiple catalysts; coiler part is connected with the outfan of PLC; PLC is its power supply, and contact part is connected with intermediate circuit unit and electric energy output end, is respectively used to the on and off of control point firearm each road electric energy transmission.

Described intermediate circuit unit includes booster transformer T, commutation diode VD, current-limiting resistance R1, storage capacitor C, bleeder resistance R2, discharge tube G, protective resistance R3, low-frequency choke coil L.

Described booster transformer T primary coil end is as the input of intermediate circuit unit; it is connected with protected location a; No. 3 pins of secondary coil connect the positive terminal of commutation diode VD, and No. 4 pins of secondary coil connect storage capacitor C, bleeder resistance R2, protective resistance R3, and ground connection simultaneously.

Described current-limiting resistance R1 mono-terminates the negative pole end of commutation diode VD, and the other end meets storage capacitor C, bleeder resistance R2, discharge tube G simultaneously.

Described low-frequency choke coil L one end connects the outfan of No. 4 pins composition intermediate circuit unit of discharge tube G and protective resistance R3, the other end and booster transformer T secondary coil respectively.

The outfan of described intermediate circuit unit is connected with protected location b.

Described power input is powered for lighter and is used, and extraneous power supply is connected with power input by feed cable input interface (7) in casing (1).

Described electric energy output end comprises n road lead-out terminal, and n is the natural number more than 1, and by the most external corresponding road firing cable of the output interface (6) in casing (1) and burning torch, the quantity of output interface (6) is equal with way n of lead-out terminal.

In described protected location b, the quantity of catalyst is equal with way n of the lead-out terminal of electric energy output end, and a catalyst docks a road lead-out terminal, the corresponding external transmission controlling this waypoint thermoelectricity energy.

Described command unit (4) connects with the input of the PLC in firing circuit module (3), it includes 1 waypoint fire main switch and multichannel igniting switch-dividing, every way switch arranges two gears of on an off, for providing input signal to PLC, igniting main switch is used for controlling all waypoint firelocks and strikes sparks in a designated order, igniting switch-dividing is used for controlling corresponding waypoint firelock and individually strikes sparks, and the quantity of igniting switch-dividing is equal with way n of the lead-out terminal of electric energy output end.

Described PLC arranges virtual protection to the catalyst in protected location a and protected location b; guarantee that lighter catalyst in protected location b when putting into operation obtains electric prior to the catalyst in protected location a, and the catalyst in protected location b is prior to the catalyst power-off in protected location a when lighter quits work.

The beneficial effects of the utility model are: an operating point, operations staff is by arbitrary independent sparking in a lighter controllable multi-route burning torch, control multichannel burning torch also dependent on the requirement that puts into operation to strike sparks the most successively, the present situation of operations staff's multiple spot scatter operation while saving equipment cost, can be improved again.

Accompanying drawing explanation

Fig. 1 is the pie graph of this utility model automatic multi-path output point firearm.

Fig. 2 is the circuit connection diagram of this utility model automatic multi-path output point firearm.

Fig. 3 is the circuit theory diagrams of intermediate circuit unit in this utility model automatic multi-path output point firearm.

Label in figure: 1, casing, 2, base plate, 3, firing circuit module, 4, command unit, 5, control panel, 6, output interface, 7, input interface.

Detailed description of the invention

Below in conjunction with accompanying drawing, the utility model is described in further detail.

As shown in Figure 1, automatic multi-path output point firearm, the base plate (2) that including casing (1), is fixed in casing (1), firing circuit module (3), command unit (4), described firing circuit module (3) is installed on base plate (2), command unit (4) is embedded on the control panel (5) of casing (1), and firing circuit module (3) and command unit (4) connect.

As in figure 2 it is shown, described firing circuit module (3) includes power input, protected location a, intermediate circuit unit, protected location b, PLC, electric energy output end.

Described protected location a is a catalyst, and coiler part is connected with the outfan of PLC, and PLC is its power supply, and contact part is connected with power input and intermediate circuit unit, for the on and off of control point firearm input power.

Described protected location b is formed in parallel by multiple catalysts; coiler part is connected with the outfan of PLC; PLC is its power supply, and contact part is connected with intermediate circuit unit and electric energy output end, is respectively used to the on and off of control point firearm each road electric energy transmission.

As it is shown on figure 3, described intermediate circuit unit includes booster transformer T, commutation diode VD, current-limiting resistance R1, storage capacitor C, bleeder resistance R2, discharge tube G, protective resistance R3, low-frequency choke coil L.

Described booster transformer T primary coil end is as the input of intermediate circuit unit; it is connected with protected location a; No. 3 pins of secondary coil connect the positive terminal of commutation diode VD, and No. 4 pins of secondary coil connect storage capacitor C, bleeder resistance R2, protective resistance R3, and ground connection simultaneously.

Described current-limiting resistance R1 mono-terminates the negative pole end of commutation diode VD, and the other end meets storage capacitor C, bleeder resistance R2, discharge tube G simultaneously.

Described low-frequency choke coil L one end connects the outfan of No. 4 pins composition intermediate circuit unit of discharge tube G and protective resistance R3, the other end and booster transformer T secondary coil respectively.

The outfan of described intermediate circuit unit is connected with protected location b.

Described power input is powered for lighter and is used, and extraneous power supply is connected with power input by feed cable input interface (7) in casing (1).

Described electric energy output end comprises n road lead-out terminal, and n is the natural number more than 1, and by the most external corresponding road firing cable of the output interface (6) in casing (1) and burning torch, the quantity of output interface (6) is equal with way n of lead-out terminal.

In described protected location b, the quantity of catalyst is equal with way n of the lead-out terminal of electric energy output end, and a catalyst docks a road lead-out terminal, the corresponding external transmission controlling this waypoint thermoelectricity energy.

Described command unit (4) connects with the input of the PLC in firing circuit module (3), it includes 1 waypoint fire main switch and multichannel igniting switch-dividing, every way switch arranges two gears of on an off, for providing input signal to PLC, igniting main switch is used for controlling all waypoint firelocks and strikes sparks in a designated order, igniting switch-dividing is used for controlling corresponding waypoint firelock and individually strikes sparks, and the quantity of igniting switch-dividing is equal with way n of the lead-out terminal of electric energy output end.

Described PLC arranges virtual protection to the catalyst in protected location a and protected location b; guarantee that lighter catalyst in protected location b when putting into operation obtains electric prior to the catalyst in protected location a; and the catalyst in protected location b is prior to the catalyst power-off in protected location a when lighter quits work; thus avoid producing between the contacts of contactor in protected location b high-voltage arc spark, extend catalyst service life.

According to the requirement that puts into operation, if requiring nothing more than a waypoint firelock igniting, then the corresponding igniting switch-dividing controlling this waypoint firelock in close command unit (4), if requiring multichannel burning torch continuous ignition successively, then the igniting main switch in close command unit (4).

Claims (8)

1. automatic multi-path output point firearm, it is characterized in that: the base plate (2) that include casing (1), is fixed in casing (1), firing circuit module (3), command unit (4), described firing circuit module (3) is installed on base plate (2), command unit (4) is embedded on the control panel (5) of casing (1), and firing circuit module (3) and command unit (4) connect.

Automatic multi-path output point firearm the most according to claim 1; it is characterized in that: described firing circuit module (3) includes power input, protected location a, intermediate circuit unit, protected location b, PLC, electric energy output end; protected location a is a catalyst; coiler part is connected with the outfan of PLC; contact part is connected with power input and intermediate circuit unit; protected location b is formed in parallel by multiple catalysts; coiler part is connected with the outfan of PLC, and contact part is connected with intermediate circuit unit and electric energy output end.

Automatic multi-path output point firearm the most according to claim 2; it is characterized in that: the described catalyst in protected location b obtains electric when lighter puts into operation prior to the catalyst in protected location a, and when lighter quits work prior to the catalyst power-off in protected location a.

Automatic multi-path output point firearm the most according to claim 2, it is characterized in that: described electric energy output end comprises n road lead-out terminal, n is the natural number more than 1, by the most external corresponding road firing cable of the output interface (6) in casing (1) and burning torch.

Automatic multi-path output point firearm the most according to claim 4, it is characterised in that: the quantity of described output interface (6) is equal with way n of the lead-out terminal of electric energy output end.

Automatic multi-path output point firearm the most according to claim 2; it is characterized in that: in described protected location b, the quantity of catalyst is equal with way n of the lead-out terminal of electric energy output end; one catalyst docks a road lead-out terminal, the corresponding external transmission controlling this waypoint thermoelectricity energy.

Automatic multi-path output point firearm the most according to claim 1, it is characterized in that: described command unit (4) connects with the input of the PLC in firing circuit module (3), it includes 1 waypoint fire main switch and multichannel igniting switch-dividing, and every way switch arranges two gears of on an off.

Automatic multi-path output point firearm the most according to claim 7, it is characterised in that: the quantity of described igniting switch-dividing is equal with way n of the lead-out terminal of electric energy output end.