CN206919745U - Shot simulator - Google Patents

Abstract

The utility model is applied to electronic engineering technical field, there is provided a kind of shot simulator, including ignitor group, sparking electrode group, firing circuit and accumulator；Ignitor group is located at the inner side of sparking electrode group, and the height of ignitor group is less than the height of sparking electrode group, and firing circuit includes high-pressure generating circuit and continuous arc circuit；The tie point of high-pressure generating circuit first connects ignitor group positive pole and the tie point of continuous arc circuit first respectively, the tie point of high-pressure generating circuit second connects ignitor group negative pole and the tie point of continuous arc circuit second respectively, the continuous tie point of arc circuit the 3rd connection tie point of accumulator first, the continuous tie point of arc circuit the 4th connection tie point of accumulator second, the tie point of accumulator the 3rd connects sparking electrode group positive pole, the tie point of accumulator the 4th connection sparking electrode group negative pole.The utility model small volume, light weight, it is easy to carry, solves the problems, such as in current gunnery training that the several levels of model gun are low, quality distortion.

Description

Shot simulator

Technical field

The utility model belongs to electronic engineering technical field, more particularly to a kind of shot simulator.

Background technology

Precisely shooting be police and officers and men maintain public order order, the prominent anti-terrorism in place, strike foreign aggression it is effective Means.Therefore, shooting technical ability is the basic actual combat skill that must skillfully grasp during police and officers and men military training Energy.In view of important function of the dry practice percussion training in shooting course, aiming and percussion method is grasped, in usual gunnery practice about 50% -70% time practises for dry-snap.But most of student, when dry practice fires, technical movements have been able to Grasp, and be unfavorable for the culture of officers and men's skills of actual combat because shooting shot is difficult to run-home of concentrating one's energy in ball firing.

In order to there is the sensation of shot to officers and men in training, at present using the additional loudspeaker of audio amplifier circuit come mould Intend shot.But existing shot simulator is present the deficiencies of portability is poor, shot sound level is low, quality distortion, reality can not be met Application demand.

Utility model content

In view of this, the utility model embodiment provides a kind of shot simulator, to solve existing shot simulator just The problem of property taken is poor, shot sound level is low, quality distortion.

The utility model embodiment provides a kind of shot simulator, including ignitor group, sparking electrode group, ignition power Road and accumulator；

The ignitor group is located at the inner side of the sparking electrode group, and the electrode height of the ignitor group is less than institute The electrode height of sparking electrode group is stated, the firing circuit includes high-pressure generating circuit and continuous arc circuit；

First tie point of the high-pressure generating circuit connects the positive pole of the ignitor group and the continuous arc electricity respectively First tie point on road, the second tie point of the high-pressure generating circuit connect the negative pole of the ignitor group and described respectively Second tie point of continuous arc circuit, the 3rd tie point of the continuous arc circuit connect the first tie point of the accumulator, institute The 4th tie point for stating continuous arc circuit connects the second tie point of the accumulator, and the 3rd tie point of the accumulator connects The positive pole of the sparking electrode group is connect, the 4th tie point of the accumulator connects the negative pole of the sparking electrode group.

In addition, in a specific example, the ignitor group includes the first ignitor and the second ignitor, institute Stating sparking electrode group includes the first sparking electrode, the second sparking electrode, the 3rd sparking electrode and the 4th sparking electrode, the energy storage Circuit includes the first energy storage sub-circuit and the second energy storage sub-circuit；

First ignitor be the ignitor group positive pole, the extremely described ignitor of the second ignition power The negative pole of group, first sparking electrode are the first positive pole of the sparking electrode group, and second sparking electrode is put to be described Second positive pole of electric electrode group, the 3rd sparking electrode are the first negative pole of the sparking electrode group, and the 4th sparking electrode is described Second negative pole of sparking electrode group；

First tie point of the high-pressure generating circuit connects first ignitor and the continuous arc circuit respectively First tie point, the second tie point of the high-pressure generating circuit connect second ignitor and the continuous arc circuit respectively The second tie point, the first sub- contact in the 3rd tie point of the continuous arc circuit connects the of the first energy storage sub-circuit One tie point, the first sub- contact in the 4th tie point of the continuous arc circuit connect the second of the first energy storage sub-circuit and connected Contact, the 3rd tie point of the first energy storage sub-circuit connect first sparking electrode, the first energy storage sub-circuit 4th tie point connects the 3rd sparking electrode, described in the second sub- contact connection in the 3rd tie point of the continuous arc circuit First tie point of the second energy storage sub-circuit, the second sub- contact connection described second in the 4th tie point of the continuous arc circuit Second tie point of energy storage sub-circuit, the 3rd tie point of the second energy storage sub-circuit connect second sparking electrode, institute The 4th tie point for stating the second energy storage sub-circuit connects the 4th sparking electrode.

In addition, in a specific example, the ignitor group and the concyclic heart arrangement of the sparking electrode group, the point Central angle in fiery electrode group between adjacent ignitor is the first predetermined angle, neighbouring discharge electrode in the sparking electrode group Between central angle be the second predetermined angle.

In addition, in a specific example, the high-pressure generating circuit include high pressure generator, first resistor, first after Electrical equipment and the first power supply；

The input cathode of the high pressure generator connects the negative pole of first power supply, the input of the high pressure generator Rectify one end that pole connects first relay, the other end of first relay connects the positive pole of first power supply, The negative pole of output end of the high pressure generator connects the second tie point of the high-pressure generating circuit, the high pressure generator it is defeated Go out one end that proper pole connects the first resistor, the other end of the first resistor connects the first of the high-pressure generating circuit Tie point.

In addition, in a specific example, the continuous arc circuit includes inverter, the first electric capacity, the second electric capacity, the second electricity Resistance, diode, rectifier bridge, the second relay and second source；

The input anode of the inverter connects the positive pole of the second source, and the input cathode of the inverter connects The negative pole of the second source is connect, the first output end of the inverter connects one end of second electric capacity, the inverter The second output end connect the first ac input end of the rectifier bridge, the other end of second electric capacity connects the rectifier bridge The second ac input end, the negative pole of output end of the rectifier bridge connects the second tie point of the continuous arc circuit, described respectively 4th tie point of the negative pole of the first electric capacity and the continuous arc circuit, the output head anode of the rectifier bridge connect described respectively One end of two relays and the 3rd tie point of the continuous arc circuit, other end connection second electricity of second relay One end of resistance, the other end of the second resistance connect the positive pole of the diode and the positive pole of first electric capacity, institute respectively The negative pole for stating diode connects the first tie point of the continuous arc circuit.

In addition, in a specific example, the accumulator includes 3rd resistor, the 3rd electric capacity, the 4th electric capacity, the 5th Electric capacity and the 6th electric capacity；

One end of the 3rd resistor connects the first tie point of the accumulator, the other end point of the 3rd resistor The positive pole of the 3rd electric capacity, the positive pole of the 4th electric capacity, the positive pole of the 5th electric capacity, the 6th electric capacity are not connected 3rd tie point of positive pole and the accumulator, the second tie point of the accumulator connect the 3rd electric capacity respectively Negative pole, the negative pole of the 4th electric capacity, the negative pole of the 5th electric capacity, the negative pole of the 6th electric capacity and the accumulator 4th tie point.

In addition, in a specific example, each ignitor is the ignition power of copper material in the ignitor group Pole, each sparking electrode is the sparking electrode of copper material in the sparking electrode group.

In addition, in a specific example, the first resistor is cement resistor.

In addition, in a specific example, first electric capacity is electrochemical capacitor, and second electric capacity is nonpolarity electricity Hold, the rectifier bridge is KBL608 rectifier bridges, and the second resistance is cement resistor.

In addition, in a specific example, the 3rd resistor is cement resistor, the 3rd electric capacity, the 4th electricity Hold, the 5th electric capacity and the 6th electric capacity are electrochemical capacitor.

Compared with prior art, the utility model embodiment has the beneficial effect that：The utility model embodiment shot is simulated Device, small volume, light weight, it is easy to carry, the high-pressure generating circuit connection ignitor group in firing circuit, ignitor group connects Continue arc circuit, continues arc circuit connection accumulator, accumulator connection sparking electrode, and high-pressure generating circuit electrion ignites Ignitor group pilot spark, continuous arc circuit is sparked by ignitor generates high-energy, the pilot spark of large volume, makes Sparking electrode group is among the air of ionization, and now accumulator is produced powerful by the repid discharge of sparking electrode group Empty explosive sound and flame, real simulation shot and muzzle flash, solve that existing shot simulator portability is poor, shot sound level is low, sound The problem of matter distortion.

Brief description of the drawings

, below will be to embodiment or prior art in order to illustrate more clearly of the technical scheme in the embodiment of the utility model The required accompanying drawing used is briefly described in description, it should be apparent that, drawings in the following description are only that this practicality is new Some embodiments of type, for those of ordinary skill in the art, without having to pay creative labor, can be with Other accompanying drawings are obtained according to these accompanying drawings.

Fig. 1 is the structured flowchart for the shot simulator that the utility model embodiment one provides；

Fig. 2 is the schematic diagram that circuit occurs for one embodiment mesohigh provided by the utility model；

Fig. 3 is the schematic diagram for continuing arc circuit in one embodiment provided by the utility model；

Fig. 4 is the schematic diagram of accumulator in one embodiment provided by the utility model；

Fig. 5 is ignitor group and discharge electrode group dimensional structure diagram in one embodiment provided by the utility model；

Fig. 6 is the schematic diagram of one embodiment firing circuit provided by the utility model；

Fig. 7 is the schematic diagram of the first energy storage sub-circuit in one embodiment provided by the utility model；

Fig. 8 is the schematic diagram of the second energy storage sub-circuit in one embodiment provided by the utility model.

Embodiment

In describing below, in order to illustrate rather than in order to limit, it is proposed that such as tool of particular system structure, technology etc Body details, thoroughly to understand the utility model embodiment.However, it will be clear to one skilled in the art that there is no these The utility model can also be realized in the other embodiments of detail.In other situations, omit to well-known system, The detailed description of device, circuit and method, in case unnecessary details hinders description of the present utility model.

In order to illustrate technical scheme described in the utility model, illustrated below by specific embodiment.

Fig. 1 shows the structured flowchart for the shot simulator that the utility model embodiment one provides, and details are as follows：

Including ignitor group 101, sparking electrode group 102, firing circuit 103 and accumulator 104.

The ignitor group 101 is located at the inner side of the sparking electrode group 102, the electrode of the ignitor group 101 Highly it is less than the electrode height of the sparking electrode group 102, the firing circuit 103 includes high-pressure generating circuit 1031 and continuous arc Circuit 1032.

First tie point of the high-pressure generating circuit 1031 connects the positive pole of the ignitor group 101 and described respectively First tie point of continuous arc circuit 1032, the second tie point of the high-pressure generating circuit 1031 connect the ignitor respectively The negative pole of group 101 and the second tie point of the continuous arc circuit 1032, the 3rd tie point connection institute of the continuous arc circuit 1032 State the first tie point of accumulator 104, the 4th tie point of the continuous arc circuit 1032 connects the of the accumulator 104 Two tie points, the 3rd tie point of the accumulator 104 connect the positive pole of the sparking electrode group 102, the accumulator 104 the 4th tie point connects the negative pole of the sparking electrode group 102.

Here, ignition power interpolar in the perforation ignition electrode group 101 of high-pressure generating circuit 1031 in firing circuit 103 is passed through Air dielectric, resistance declines rapidly and then continuous arc circuit 1032 is passed through ignitor moment after interelectrode air is breakdown Electric discharge generation high-energy, the pilot spark of large volume, so that the sparking electrode in sparking electrode group 102 is in the air of ionization Central, now accumulator 104 can produce powerful empty quick-fried sound by the sparking electrode repid discharge in sparking electrode group 102 Sound and flame.

Specifically, ignitor group 101 and sparking electrode group 102 are arranged on default insulating materials.Ignitor group 101 Including at least two ignitors, sparking electrode group 102 includes at least two sparking electrodes, has two with ignitor group 101 Ignitor, exemplified by sparking electrode group 102 has four sparking electrodes, the concyclic heart arrangement of six electrodes, two ignitors are located at The inner side of circumference where four sparking electrodes, and the height of two ignitors is less than the height of four sparking electrodes, two points Thermoelectricity pole is correspondingly arranged, and four sparking electrodes correspond to two-by-two.

It is evidenced from the above discussion that the utility model embodiment shot simulator, small volume, light weight, is easy to carry, utilize Electrion lead fire spark, and then storage capacitor electric discharge is ignited, produce knocking and flash of light real simulation shot and muzzle Flame, solve the problems, such as that existing shot simulator portability is poor, shot sound level is low, quality distortion.

In addition, in a specific example, the ignitor group 101 includes the first ignitor 1011 and the second igniting Electrode 1012, the sparking electrode group 102 include the first sparking electrode 1021, the second sparking electrode 1022, the 3rd sparking electrode 1023 and the 4th sparking electrode 1024, the accumulator 104 include the first energy storage sub-circuit and the second energy storage sub-circuit.

First ignitor 1011 is the positive pole of the ignitor group 101, and second ignitor 1012 is The negative pole of the ignitor group 101, first sparking electrode 1021 be the sparking electrode group 102 the first positive pole, institute The second positive pole that the second sparking electrode 1022 is the sparking electrode group 102 is stated, the 3rd sparking electrode 1023 is the electric discharge electricity First negative pole of pole group 102, the 4th sparking electrode 1024 are the second negative pole of the sparking electrode group 102.

First tie point of the high-pressure generating circuit 1031 connects first ignitor 1011 and described continuous respectively First tie point of arc circuit 1032, the second tie point of the high-pressure generating circuit 1031 connect second ignition power respectively Pole 1012 and the second tie point of the continuous arc circuit 1032, the first son in the 3rd tie point of the continuous arc circuit 1032 connect Point connects the first tie point of the first energy storage sub-circuit, and the first son in the 4th tie point of the continuous arc circuit 1032 connects Point connects the second tie point of the first energy storage sub-circuit, the 3rd tie point connection of the first energy storage sub-circuit described the One sparking electrode 1021, the 4th tie point of the first energy storage sub-circuit connects the 3rd sparking electrode 1023, described continuous The second sub- contact in 3rd tie point of arc circuit 1032 connects the first tie point of the second energy storage sub-circuit, described continuous The second sub- contact in 4th tie point of arc circuit 1032 connects the second tie point of the second energy storage sub-circuit, and described the 3rd tie point of two energy storage sub-circuits connects second sparking electrode 1022, the 4th connection of the second energy storage sub-circuit Point connects the 4th sparking electrode 1024.

In addition, in a specific example, the ignitor group and the concyclic heart arrangement of the sparking electrode group, the point Central angle in fiery electrode group between adjacent ignitor is the first predetermined angle, neighbouring discharge electrode in the sparking electrode group Between central angle be the second predetermined angle.

Here, exemplified by also thering are two ignitors, sparking electrode group 102 to have four sparking electrodes with ignitor group 101, Central angle between two ignitors is 180 degree, and the central angle in four sparking electrodes between neighbouring discharge electrode is 60 degree.

In addition, in a specific example, as shown in Fig. 2 the high-pressure generating circuit 1031 include high pressure generator T1, First resistor R1, the first relay JK1 and the first power supply；

The input cathode of the high pressure generator T1 connects the negative pole of first power supply, the high pressure generator T1's Input anode connects one end of the first relay JK1, other end connection first electricity of the first relay JK1 The positive pole in source, the negative pole of output end of the high pressure generator T1 connect the second tie point of the high-pressure generating circuit 1031, institute The output head anode for stating high pressure generator T1 connects one end of the first resistor R1, the other end connection of the first resistor R1 First tie point of the high-pressure generating circuit 1031.

Specifically, the first relay JK1 uses Small current control high current, generally there is two inputs and two outputs End.Here, high pressure generator T1 input anode connect the first relay JK1 negative pole of output end, the first relay it is defeated Go out the positive pole that proper pole connects the first power supply.

In addition, in a specific example, as shown in figure 3, the continuous arc circuit 1032 includes inverter T2, the first electric capacity C1, the second electric capacity C2, second resistance R2, diode D1, rectifier bridge D2, the second relay JK2 and second source；

The input anode of the inverter T2 connects the positive pole of the second source, and the input of the inverter T2 is born Pole connects the negative pole of the second source, and the first output end of the inverter T2 connects one end of the second electric capacity C2, institute The second output end for stating inverter T2 connects the first ac input end of the rectifier bridge D2, the other end of the second electric capacity C2 The second ac input end of the rectifier bridge D2 is connected, the negative pole of output end of the rectifier bridge D2 connects the continuous arc circuit respectively 4th tie point of 1032 the second tie point, the negative pole of the first electric capacity C1 and the continuous arc circuit 1032, the rectification Bridge D2 output head anode connects one end of the second relay JK2 and the 3rd connection of the continuous arc circuit 1032 respectively Point, the other end of the second relay JK2 connect one end of the second resistance R2, the other end point of the second resistance R2 The positive pole of the diode D1 and the positive pole of the first electric capacity C1 are not connected, and the negative pole of the diode D1 connects the continuous arc First tie point of circuit 1032.

Here, second source can be lithium battery.

Rectifier bridge D2 output head anode connects second relay JK2 output head anode and continuous arc circuit 1032 respectively 3rd tie point, the second relay JK2 negative pole of output end connection second resistance R2 one end.

In addition, in a specific example, as shown in figure 4, the accumulator 104 includes 3rd resistor R3, the 3rd electricity Hold C3, the 4th electric capacity C4, the 5th electric capacity C5 and the 6th electric capacity C6；

One end of the 3rd resistor R3 connects the first tie point of the accumulator 104, the 3rd resistor R3's The other end connect respectively the positive pole of the 3rd electric capacity C3, the positive pole of the 4th electric capacity C4, the 5th electric capacity C5 positive pole, The positive pole of the 6th electric capacity C6 and the 3rd tie point of the accumulator 104, the second tie point of the accumulator 104 The negative pole of the 3rd electric capacity C3, the negative pole of the 4th electric capacity C4, the negative pole of the 5th electric capacity C5, described are connected respectively Six electric capacity C6 negative pole and the 4th tie point of the accumulator 104.

Specifically, the concrete composition of the first energy storage sub-circuit in above-mentioned accumulator 104 and the second energy storage sub-circuit can With identical with the concrete composition of the accumulator 104 shown in Fig. 4.

In addition, in a specific example, each ignitor is the igniting of copper material in the ignitor group 101 Electrode, each sparking electrode is the sparking electrode of copper material in the sparking electrode group 102.

In addition, in a specific example, the first resistor R1 is cement resistor.

Here, cement resistor is exactly the resistance with fire clay embedding, i.e., resistive conductor is wound on without on alkaline heat resisting porcelain part, outside Face is fixed plus heat-resisting, moisture-proof and resistant material protection, and wire-wound resistor body is put into square porcelain inframe, with special no combustion Property the filling of heat and flame mud be sealed to form.Cement resistor is one kind of wirewound resistor, and it belongs to the larger resistance of power, can Allow passing through for larger current.Cement resistor has larger appearance and size, shatter-proof, moisture-proof, heat-resisting and good heat radiating, low price etc. Characteristic, it is widely used in the equipment such as power supply adaptor, stereo set, audio frequency dividers, instrument, instrument, television set, automobile.

In addition, in a specific example, the first electric capacity C1 is electrochemical capacitor, and the second electric capacity C2 is nonpolarity Electric capacity, the rectifier bridge D2 are KBL608 rectifier bridges, and the second resistance R2 is cement resistor.

Specifically, electrochemical capacitor is one kind of electric capacity, and metal foil is positive pole (aluminium or tantalum), and the oxidation of metal is close to positive pole Film (aluminum oxide or tantalum pentoxide) is dielectric, and negative electrode is by conductive material, electrolyte (electrolyte can be liquid or solid) Collectively constituted with other materials, because electrolyte is the major part of negative electrode, therefore electrochemical capacitor is gained the name.Electrochemical capacitor price is just Preferably, big, the specified capacity of the capacitance of unit volume can be accomplished very big, meet a variety of application demands.

Two electrodes of polarity free capacitor capacitor can be accessed arbitrarily in circuit, be not in polarity connection in circuit Wrong capacitance damage.

In addition, in a specific example, the 3rd resistor R3 is cement resistor, the 3rd electric capacity C3, described Four electric capacity C4, the 5th electric capacity C5 and the 6th electric capacity C6 are electrochemical capacitor.

Embodiment two

In order to more fully understand said apparatus, the application of the utility model shot simulator detailed below is in fact Example.

This application example can include：

Ignitor group 101, sparking electrode group 102, firing circuit 103 and accumulator 104.

As shown in figure 5, ignitor group 101 includes the first ignitor 1011 and the second ignitor 1012, it is described to put Electric electrode group 102 includes the first sparking electrode 1021, the second sparking electrode 1022, the 3rd sparking electrode 1023 and the 4th electric discharge electricity Pole 1024, the concyclic heart arrangement of six electrodes, the inner side of circumference where two ignitors are located at four sparking electrodes, and two points The height of thermoelectricity pole is less than the height of four sparking electrodes, and the central angle between two ignitors be 180 degree, and four electric discharges are electric The extremely middle interelectrode central angle of neighbouring discharge is 60 degree, and six electrodes are arranged on default insulating materials.

First ignitor 1011 is the positive pole of ignitor group 101, and the second ignitor 1012 is ignitor group 101 Negative pole, the first sparking electrode 1021 be sparking electrode group 102 the first positive pole, the second sparking electrode 1022 is sparking electrode group 102 the second positive pole, the 3rd sparking electrode 1023 are the first negative pole of sparking electrode group 102, and the 4th sparking electrode 1024 is to put Second negative pole of electric electrode group 102.

As shown in fig. 6, firing circuit 103 includes high-pressure generating circuit 1031 and continuous arc circuit 1032.

High-pressure generating circuit 1031 includes high pressure generator T1, first resistor R1, the first relay JK1 and the first power supply. Here, the first power supply is battery pack.

The input cathode of the high pressure generator T1 connects the negative pole of first power supply, the high pressure generator T1's Input anode connects the negative pole of output end of the first relay JK1, the output head anode connection of the first relay JK1 The positive pole of first power supply, the negative pole of output end of the high pressure generator T1 connect the second ignitor 1012, the high pressure Generator T1 output head anode connects one end of the first resistor R1, and the other end of the first resistor R1 connects at first point Thermoelectricity pole 1011.

The continuous arc circuit 1032 includes inverter T2, the first electric capacity C1, the second electric capacity C2, second resistance R2, diode D1, rectifier bridge D2, the second relay JK2 and second source, here, second source are 12V lithium batteries.

The input anode of the inverter T2 connects the positive pole of the second source, and the input of the inverter T2 is born Pole connects the negative pole of the second source, and the first output end of the inverter T2 connects one end of the second electric capacity C2, institute The second output end for stating inverter T2 connects the first ac input end of the rectifier bridge D2, the other end of the second electric capacity C2 The second ac input end of the rectifier bridge D2 is connected, the negative pole of output end of the rectifier bridge D2 connects tie point Vin1- respectively With Vin2-, the negative pole and the second ignitor 1012 of the first electric capacity C1, the output head anode of the rectifier bridge D2 connects respectively Connect the output head anode and tie point Vin1+ and Vin2+ of the second relay JK2, the output end of the second relay JK2 Negative pole connects one end of the second resistance R2, and the other end of the second resistance R2 connects the positive pole of the diode D1 respectively With the positive pole of the first electric capacity C1, the negative pole of the diode D1 connects the first ignitor 1011.

The accumulator 104 includes the first energy storage sub-circuit and the second energy storage sub-circuit.

As shown in fig. 7, the first energy storage sub-circuit includes 3rd resistor R3, the 3rd electric capacity C3, the 4th electric capacity C4, the 5th electric capacity C5 and the 6th electric capacity C6.

One end connection tie point Vin1+ of the 3rd resistor R3, the other end of the 3rd resistor R3 connect institute respectively State the 3rd electric capacity C3 positive pole, the positive pole of the 4th electric capacity C4, the positive pole of the 5th electric capacity C5, the 6th electric capacity C6 Positive pole and the first sparking electrode 1021, the 3rd sparking electrode 1023 connect the negative pole of the 3rd electric capacity C3, the described 4th respectively Electric capacity C4 negative pole, the negative pole of the 5th electric capacity C5, the negative pole and Vin1- of the 6th electric capacity C6.

As shown in figure 8, the second energy storage sub-circuit includes 3rd resistor R3, the 3rd electric capacity C3, the 4th electric capacity C4, the 5th electric capacity C5 and the 6th electric capacity C6.

One end connection tie point Vin2+ of the 3rd resistor R3, the other end of the 3rd resistor R3 connect institute respectively State the 3rd electric capacity C3 positive pole, the positive pole of the 4th electric capacity C4, the positive pole of the 5th electric capacity C5, the 6th electric capacity C6 Positive pole and the second sparking electrode 1022, the 4th sparking electrode 1024 connect the negative pole of the 3rd electric capacity C3, the described 4th respectively Electric capacity C4 negative pole, the negative pole of the 5th electric capacity C5, the negative pole and Vin2- of the 6th electric capacity C6.

Resistance R1 is 20 Ω/10W cement resistors, and electric capacity C1 is 450V/300 μ F electrochemical capacitors, and electric capacity C2 is 630V/2.2 μ F polarity free capacitors, rectifier bridge D2 are KBL608 rectifier bridges, and resistance R2 is 50 Ω/10W cement resistors, and resistance R3 is 30 Ω/10W Cement resistor, electric capacity C3 are 450V/1000 μ F electrochemical capacitors.

Here, the first ignition power in the perforation ignition electrode group 101 of high-pressure generating circuit 1031 in firing circuit 103 is passed through Air dielectric between the ignitor 1012 of pole 1011 and second, resistance declines and then made rapidly after interelectrode air is breakdown Continuous arc circuit 1032 is sparked by ignitor generates high-energy, the pilot spark of large volume, so that sparking electrode group At the first sparking electrode 1021, the second sparking electrode 1022, the 3rd sparking electrode 1023 and the 4th sparking electrode 1024 in 102 Among the air of ionization, now accumulator 104 can pass through the first sparking electrode 1021, second in sparking electrode group 102 Sparking electrode 1022, the 3rd sparking electrode 1023 and the repid discharge of the 4th sparking electrode 1024, produce powerful empty explosive sound and Flame.

It is evidenced from the above discussion that the present embodiment small volume, light weight, being easy to carry, electricity occurs for the high pressure in firing circuit Road connects ignitor group, the continuous arc circuit of ignitor group connection, continues arc circuit connection accumulator, accumulator connection electric discharge Electrode, high-pressure generating circuit electrion are ignited fiery electrode group pilot spark, and continuous arc circuit is sparked life by ignitor Into high-energy, the pilot spark of large volume, sparking electrode group is set to be among the air of ionization, now accumulator passes through electric discharge The repid discharge of electrode group, powerful empty explosive sound and flame, real simulation shot and muzzle flash are produced, solve existing shot mould Intend the problem of device portability is poor, shot sound level is low, quality distortion.

Each technical characteristic of embodiment described above can be combined arbitrarily, to make description succinct, not to above-mentioned reality Apply all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, the scope that this specification is recorded all is considered to be.

Embodiment described above only expresses several embodiments of the present utility model, and its description is more specific and detailed, But therefore it can not be interpreted as the limitation to utility model patent scope.It should be pointed out that the common skill for this area For art personnel, without departing from the concept of the premise utility, various modifications and improvements can be made, these are belonged to The scope of protection of the utility model.Therefore, the protection domain of the utility model patent should be determined by the appended claims.

Claims (10)

1. a kind of shot simulator, it is characterised in that including ignitor group, sparking electrode group, firing circuit and accumulator；

The ignitor group is located at the inner side of the sparking electrode group, and the electrode height of the ignitor group is put less than described The electrode height of electric electrode group, the firing circuit include high-pressure generating circuit and continuous arc circuit；

First tie point of the high-pressure generating circuit connects the positive pole of the ignitor group and the continuous arc circuit respectively First tie point, the second tie point of the high-pressure generating circuit connect the negative pole of the ignitor group and the continuous arc respectively Second tie point of circuit, the 3rd tie point of the continuous arc circuit connects the first tie point of the accumulator, described continuous 4th tie point of arc circuit connects the second tie point of the accumulator, the 3rd tie point connection institute of the accumulator The positive pole of sparking electrode group is stated, the 4th tie point of the accumulator connects the negative pole of the sparking electrode group.

2. shot simulator according to claim 1, it is characterised in that the ignitor group includes the first ignitor With the second ignitor, the sparking electrode group includes the first sparking electrode, the second sparking electrode, the 3rd sparking electrode and the 4th Sparking electrode, the accumulator include the first energy storage sub-circuit and the second energy storage sub-circuit；

First ignitor is the positive pole of the ignitor group, the extremely described ignitor group of second ignition power Negative pole, first sparking electrode are the first positive pole of the sparking electrode group, and second sparking electrode is the electric discharge electricity Second positive pole of pole group, the 3rd sparking electrode are the first negative pole of the sparking electrode group, and the 4th sparking electrode is the electric discharge Second negative pole of electrode group；

First tie point of the high-pressure generating circuit connects the first of first ignitor and the continuous arc circuit respectively Tie point, the second tie point of the high-pressure generating circuit connect the of second ignitor and the continuous arc circuit respectively Two tie points, the first sub- contact in the 3rd tie point of the continuous arc circuit connect the first of the first energy storage sub-circuit and connected Contact, the first sub- contact in the 4th tie point of the continuous arc circuit connect the second connection of the first energy storage sub-circuit Point, the 3rd tie point of the first energy storage sub-circuit connect first sparking electrode, and the of the first energy storage sub-circuit Four tie points connect the 3rd sparking electrode, the second sub- contact connection in the 3rd tie point of the continuous arc circuit described the First tie point of two energy storage sub-circuits, the second sub- contact connection second storage in the 4th tie point of the continuous arc circuit Second tie point of energy sub-circuit, the 3rd tie point of the second energy storage sub-circuit connects second sparking electrode, described 4th tie point of the second energy storage sub-circuit connects the 4th sparking electrode.

3. shot simulator according to claim 1, it is characterised in that the ignitor group and the sparking electrode group The concyclic heart is arranged, and the central angle in the ignitor group between adjacent ignitor is the first predetermined angle, the electric discharge electricity Central angle in the group of pole between neighbouring discharge electrode is the second predetermined angle.

4. shot simulator according to claim 1, it is characterised in that the high-pressure generating circuit includes high pressure Device, first resistor, the first relay and the first power supply；

The input cathode of the high pressure generator connects the negative pole of first power supply, and the input of the high pressure generator is rectified Pole connects one end of first relay, and the other end of first relay connects the positive pole of first power supply, described The negative pole of output end of high pressure generator connects the second tie point of the high-pressure generating circuit, the output end of the high pressure generator Positive pole connects one end of the first resistor, and the other end of the first resistor connects the first connection of the high-pressure generating circuit Point.

5. shot simulator according to claim 1, it is characterised in that the continuous arc circuit includes inverter, the first electricity Appearance, the second electric capacity, second resistance, diode, rectifier bridge, the second relay and second source；

The input anode of the inverter connects the positive pole of the second source, the input cathode connection institute of the inverter State the negative pole of second source, the first output end of the inverter connects one end of second electric capacity, and the of the inverter Two output ends connect the first ac input end of the rectifier bridge, and the other end of second electric capacity connects the of the rectifier bridge Two ac input ends, the negative pole of output end of the rectifier bridge connect the second tie point of the continuous arc circuit, described first respectively 4th tie point of the negative pole of electric capacity and the continuous arc circuit, the output head anode of the rectifier bridge connect respectively described second after One end of electrical equipment and the 3rd tie point of the continuous arc circuit, the other end of second relay connect the second resistance One end, the other end of the second resistance connect the positive pole of the diode and the positive pole of first electric capacity respectively, and described two The negative pole of pole pipe connects the first tie point of the continuous arc circuit.

6. shot simulator according to claim 1, it is characterised in that the accumulator includes 3rd resistor, the 3rd Electric capacity, the 4th electric capacity, the 5th electric capacity and the 6th electric capacity；

One end of the 3rd resistor connects the first tie point of the accumulator, and the other end of the 3rd resistor connects respectively Connect the positive pole of the 3rd electric capacity, the positive pole of the 4th electric capacity, positive pole, the positive pole of the 6th electric capacity of the 5th electric capacity With the 3rd tie point of the accumulator, the second tie point of the accumulator connects the negative of the 3rd electric capacity respectively Pole, the negative pole of the 4th electric capacity, the negative pole of the 5th electric capacity, the of the negative pole of the 6th electric capacity and the accumulator Four tie points.

7. shot simulator according to claim 1, it is characterised in that each ignitor is equal in the ignitor group For the ignitor of copper material, each sparking electrode is the sparking electrode of copper material in the sparking electrode group.

8. shot simulator according to claim 4, it is characterised in that the first resistor is cement resistor.

9. shot simulator according to claim 5, it is characterised in that first electric capacity is electrochemical capacitor, described Two electric capacity are polarity free capacitor, and the rectifier bridge is KBL608 rectifier bridges, and the second resistance is cement resistor.

10. shot simulator according to claim 6, it is characterised in that the 3rd resistor is cement resistor, described Three electric capacity, the 4th electric capacity, the 5th electric capacity and the 6th electric capacity are electrochemical capacitor.