CN209122352U - A kind of control device of shock wave wave source - Google Patents

Abstract

The utility model embodiment provides a kind of control device of shock wave wave source, including power module；First charge-discharge modules；Multiple switch module, switch module include control terminal, first end and second end, and switch module is arranged in a one-to-one correspondence with shock wave wave source, and switch module is used to control the connected state of its first end and second end according to the switch control signal that control terminal inputs；Multiple switch control module, switch control module and switch module correspond, the switch control signal for the wave source control Signal-controlled switch control signal output output that switch control module is used to be inputted according to wave source control signal input；Wave source control module, including multiple wave source control signal outputs, wave source control signal output are electrically connected with wave source control signal input one-to-one correspondence.The utility model embodiment, realizing more set shock wave wave sources can respectively, either simultaneously or alternately work, and reduce the cost and volume of impact wave apparatus.

Description

A kind of control device of shock wave wave source

Technical field

The utility model embodiment is related to shock wave technology more particularly to a kind of control device of shock wave wave source.

Background technique

The development of shock wave technology medically has been more and more widely used.Development and need with shock wave technology It wants, some impact wave devices may need to install two sets or two sets or more of shock wave wave source, so as to cover shock wave when booting more Wave source can be used simultaneously or be used respectively.

Based on above-mentioned needs, a kind of method is by using the manually implemented more set impacts of high pressure change-over switch in the prior art The conversion work of wave wave source.Another method is to use more set high-pressure systems, multiple capacitance groups and cover trigger device more, is realized More set shock wave wave sources either simultaneously or alternately work.

However, the shock wave wave sources that cover cannot be made to work at the same time the method by using high pressure change-over switch, also not more The shock wave wave sources that cover can be made to work alternatively more automatically, and use more set high-pressure systems, multiple capacitance groups and cover trigger device more Method cause that the control device of shock wave wave source is bulky, involves great expense.

Utility model content

The utility model provides a kind of control device of shock wave wave source, and realizing more set shock wave wave sources can divide Not, it either simultaneously or alternately works, while reducing the cost and volume of the control device of shock wave wave source, and then reduce shock wave The cost and volume of device.

In a first aspect, the utility model embodiment provides a kind of control device of shock wave wave source, the shock wave wave source Control device includes:

Power module, power module include the first power supply signal output end and second source signal output end；

First charge-discharge modules, the first charge-discharge modules include the first signal end and second signal end, the first signal end with The electrical connection of first power supply signal output end, second signal end is electrically connected with second source signal output end；

Multiple switch module, switch module include control terminal, first end and second end, switch module and shock wave wave source one One is correspondingly arranged, and the first end of all switch modules is electrically connected with the first signal end, the second end of switch module and corresponding punching The electrical connection of wave wave source is hit, switch module is used to control its first end and second end according to the switch control signal that control terminal inputs Connected state；

Multiple switch control module, switch control module are arranged in a one-to-one correspondence with switch module, and switch control module includes Wave source control signal input, switch control signal output and ground, the switch control signal output of switch control module It holds and is electrically connected with the control terminal of corresponding switch module, what switch control module was used to be inputted according to wave source control signal input Wave source controls the switch control signal of Signal-controlled switch control signal output output；

Wave source control module, the wave source control module include multiple wave source control signal outputs, and wave source controls signal Output end is electrically connected with wave source control signal input one-to-one correspondence.

Wherein, power module further includes power control signal input terminal, and power module is used for defeated according to power control signal The power control signal for entering end input controls the power supply letter of the first power supply signal output end and the output of second source signal output end Number size.

Wherein, the wave source control signal input of switch control module includes the first wave source control signal input and second Wave source control signal input, switch control module include:

First sub- power module, the first sub- power module include third power supply signal output end and the output of the 4th power supply signal End；

The first end of one way conducting device, one way conducting device is electrically connected with third power supply signal output end, one-way conduction The second end of device is electrically connected with the 4th power supply signal output end；

Second charge-discharge modules, the second charge-discharge modules include third signal end and fourth signal end, third signal end with The electrical connection of 4th power supply signal output end；

First coupling module, the first coupling module include the first coupled signal input terminal, the second coupled signal input terminal, the One coupled signal output end and the second coupled signal output end, the first coupled signal input terminal are electrically connected with fourth signal end, the Two coupled signal input terminals are electrically connected with third power supply signal output end, and the first coupled signal output end is as switch control module Switch control signal output end, ground terminal of the second coupled signal output end as switch control module；

Second sub- power module, the second sub- power module include that the 5th power supply signal output end and the 6th power supply signal export End, the 6th power supply signal output end are electrically connected with the second end of one way conducting device and the 4th power supply signal output end；

Second coupling module, the second coupling module include third coupled signal input terminal, the 4th coupled signal input terminal, Three coupled signal output ends and the 4th coupled signal output end, third coupled signal input terminal as switch control module first Wave source control signal input, second wave source control signal input of the 4th coupled signal input terminal as switch control module End, third coupled signal output end are electrically connected with the 5th power supply signal output end, the 4th coupled signal output end and one-way conduction The second end of device is electrically connected.

Wherein, switch control module further include:

Times die block, a times die block include first voltage signal input part, second voltage signal input part, first voltage letter Number output end and second voltage signal output end, first voltage signal input part are electrically connected with third power supply signal output end, and Two voltage signal inputs are electrically connected with the 4th power supply signal output end, first voltage signal output end and one way conducting device First end electrical connection, second voltage signal output end are electrically connected with the second end of one way conducting device.

Wherein, the first coupling module includes two groups of coupling coils, and one group of coupling coil is series at the of the first coupling module Between one coupled signal input terminal and the second coupled signal input terminal, one group of coupling coil is series at the first of the first coupling module Between coupled signal output end and the second coupled signal output end.

Wherein, the second coupling module includes light emitting diode and photistor, and light emitting diode is series at the second coupling Between the third coupled signal input terminal and the 4th coupled signal input terminal of module, the first end of photistor is as the second coupling The third coupled signal output end of block is molded, the second end of photistor is defeated as the 4th coupled signal of the second coupling module Outlet.

Wherein, the wave source control signal output of wave source control module includes the first wave source control signal output and second Wave source control signal output, the first wave source control signal output are electrically connected with corresponding first wave source signal input terminal, the Two wave source signal output ends are electrically connected with corresponding second wave source signal input terminal, and wave source control module is used for by corresponding the One wave source control signal output and the second wave source control signal output export pulse control signal.

Wherein, second source signal output end is electrically connected with ground terminal.

The control device of shock wave wave source provided by the embodiment of the utility model, including power module, the first charge and discharge mould Block, multiple switch module, multiple switch control module and wave source control module, each switch control module control mould according to wave source The wave source control signal of block input exports corresponding switch control signal, so that corresponding switch module opening according to input Close control signal communication or shutdown.Power module charges to the first charge-discharge modules, assembles the first charge-discharge modules High electric energy, in switch module conducting, the first charge-discharge modules spark to shock wave wave source, so that with the switch module pair The shock wave wave source work answered.A set of power module and the first charge-discharge modules are used only, by setting in the utility model embodiment Wave source control module, switch control module are set, switch module respectively, is either simultaneously or alternately connected, and then is realized pair The control of more set shock wave wave sources, realizing more set shock wave wave sources can respectively, either simultaneously or alternately work, and reduce shock wave The cost and volume of wave source control device, and then the cost and volume of impact wave apparatus are reduced, solve makes in the prior art Two sets of wave sources cannot be made to work at the same time with the method for high pressure change-over switch, and use more set high-pressure systems, multiple capacitance groups and The methods of more set trigger devices cause that shock wave device volume is huge, the problem of involving great expense.

Detailed description of the invention

Fig. 1 is a kind of structural schematic diagram of the control device of shock wave wave source provided by the embodiment of the utility model.

Fig. 2 is a kind of structural representation of the control device of specific shock wave wave source provided by the embodiment of the utility model Figure.

Fig. 3 is the structural schematic diagram of switch control module provided by the embodiment of the utility model.

Fig. 4 is the structural schematic diagram of wave source control module provided by the embodiment of the utility model.

Fig. 5 is a kind of structural schematic diagram of specific switch control module provided by the embodiment of the utility model.

Specific embodiment

The utility model is described in further detail with reference to the accompanying drawings and examples.It is understood that herein Described specific embodiment is used only for explaining the utility model, rather than the restriction to the utility model.It further needs exist for It is bright, part relevant to the utility model is illustrated only for ease of description, in attached drawing rather than entire infrastructure.

Fig. 1 is a kind of structural schematic diagram of the control device of shock wave wave source provided by the embodiment of the utility model.This reality It applies example and is applicable to the case where shock wave wave source is controlled, the control device 300 of the shock wave wave source includes power module 310, the first charge-discharge modules 320, multiple switch module 330, multiple switch control module 340 and wave source control module 350, are opened It closes module 330 to be arranged in a one-to-one correspondence with shock wave wave source 360, switch control module 340 is set with the one-to-one correspondence of switch module 330 It sets.Power module 310 includes the first power supply signal output end 311 and second source signal output end 312, the first charge-discharge modules 320 include the first signal end 321 and second signal end 322, and switch module 330 includes control terminal 331, first end 332 and second End 333, switch control module 340 include wave source control signal input 341, switch control signal output end 342 and ground terminal 343, wave source control module 350 includes multiple wave source control signal outputs 351.

Wherein, the first power supply signal of the first signal end 321 and power module 310 of the first charge-discharge modules 320 exports 311 electrical connection of end, the second signal end 322 of the first charge-discharge modules 320 and the second source signal output end of power module 310 312 electrical connections；The first end 332 of all switch modules 330 is electrically connected with the first signal end 321 of the first charge-discharge modules 320, The second end 333 of switch module 330 is electrically connected with corresponding shock wave wave source 360；The switch control of switch control module 340 is believed Number output end 342 is electrically connected with the control terminal 331 of corresponding switch module 330；The wave source of wave source control module 350 controls signal Output end 351 is electrically connected with the one-to-one correspondence of wave source control signal input 341.

Switch module 330 is used to control its first end 332 and second end according to the switch control signal that control terminal 331 inputs 333 connected state, the wave source that switch control module 340 is used to be inputted according to wave source control signal input 341 control signal The switch control signal that control switch control signal output 342 exports.Specifically, as shown in Figure 1, power module 310 passes through First power supply signal output end 311 and second source signal output end 312 charge to the first charge-discharge modules 320, and first Charge-discharge modules 320 gather high electric energy.When switch module 330 is in the conductive state, i.e., the first end 332 of switch module 330 with When second end 333 is connected to, the first charge-discharge modules 320 put 360 moment of shock wave wave source corresponding with the switch module 330 Electricity makes shock wave wave source 360 work.It illustratively, include coil in shock wave wave source 360, electric current generates magnetic field by coil, It pushes shake film movement in shock wave wave source 360 to generate shock wave, realizes and focus, flat fire, or scattering enter human body, carry out corresponding Treatment.

Switch control module 340 is arranged in a one-to-one correspondence with switch module 330, and wave source control module 350 is controlled by wave source Signal output end 351 controls signal to the wave source control signal input 341 of corresponding switch control module 340 output wave source, The switch control that switch control module 340 is exported according to the wave source control Signal-controlled switch control signal output 342 received Signal processed, and switch control signal is exported to the control terminal 331 of corresponding switch module 330, switch module 330 is in control terminal It is connected to or turns off under the control of the switch control signal of 331 inputs.

Illustratively, it is controlled for two shock wave wave sources 360, then the control device of shock wave wave source can be set 300 include two switch modules 330 and two switch control modules 340, wave source control signal output 351 respectively with it is corresponding The wave source control signal input 341 of switch control module 340 is electrically connected.Illustratively, wave source control module 350 can be set When exporting high level, switch module 330 is connected in 340 output switch control signal of switch control module, and wave source also can be set When control module 350 exports low level, switch module 330 is connected in 340 output switch control signal of switch control module, this reality This is not construed as limiting with new embodiment, and height here is relative concept, is not limited high level and low level size It is fixed.

Shock wave source control module 350 can export corresponding wave according to the specifically used needs of shock wave wave source 360 Source controls signal.Illustratively, when the output high level of wave source control module 350 can be set, the output of switch control module 340 is opened Closing control signal is connected switch module 330.

When needing two shock wave wave sources 360 to work at the same time, such as the case where apply acupuncture for both feet, wave source is set The wave source control signal output 351 of control module 350 exports high level, and two switch control modules 340 receive height Level signal, two switch control modules 340 make two switch modules 330 to two 330 output switch control signals of switch module It is both turned on, realizes that two shock wave wave sources 360 work at the same time.

When needing two shock wave wave sources 360 to work alternatively, the wave source control signal output of wave source control module 350 351 can alternately output high level, two be electrically connected with the wave source control signal output 351 of wave source control module 350 open It closes control module 340 and alternately receives high level signal, switch control module 340 then can control two switch modules 330 and hand over For conducting, realize that two shock wave wave sources 360 work alternatively.

When needing two shock wave wave sources 360 to work respectively, the wave source control signal output of wave source control module 350 351 output high level of end, a wave source control signal output 351 export low level, and switch control module 340 then can control one Switch module 330 is connected, and a switch module 330 shutdown realizes that two shock wave wave sources 360 work respectively.

On the basis of above scheme, optionally, second source signal output end 312 can be electrically connected with ground terminal.The Two power supply signal output ends 312 are electrically connected with ground terminal, and power module 310 can be made to charge the first charge-discharge modules 320 Afterwards, high electric energy is assembled in the first signal end 321 of the first charge-discharge modules 320 connecting with the first power supply signal output end 311, So that when switch module 330 is connected, in the high electric energy abrupt release of the first signal end 321 aggregation.

It continues to refer to figure 1, on the basis of above scheme, optionally, power module 310 further includes that power control signal is defeated Enter end 313, the first electricity of power control signal control that power module 310 is used to input according to power control signal input terminal 313 The size for the power supply signal that source signal output end 311 and second source signal output end 312 export.Specifically, power module 310 The power control signal that exports of power control signal input terminal 313 it is different, the first power supply signal output end of power module 310 311 with second source signal output end 312 export power supply signals it is of different sizes, to reach first to power module 310 The adjusting for the power supply signal size that power supply signal output end 311 and second source signal output end 312 export.It needs to illustrate It is that the utility model embodiment is not construed as limiting the physical relationship of power control signal and power supply signal.

Fig. 2 is a kind of structural representation of the control device of specific shock wave wave source provided by the embodiment of the utility model Figure.With reference to Fig. 2, power module 310 can be DC high-voltage power supply 315, and the first charge-discharge modules 320 can be capacitance group 325, Switch module 330 can be high-voltage switch gear, and switch control module 340 can be high voltage pulse generation circuit 345, and wave source controls mould Block 350 can be realized by control circuit 355.For example, DC high-voltage power supply 315 charges to capacitance group 325, control circuit 355 5 circuit output high level can be generated to corresponding high voltage pulse, corresponding high voltage pulse generation circuit 345 is in the high level It can produce high-voltage pulse signal under effect, corresponding high-voltage switch gear 335 is under the action of the high-voltage pulse signal, first end It is connected with second end, corresponding shock wave wave source 365 works.

On the basis of the above embodiments, Fig. 3 is that the structure of switch control module provided by the embodiment of the utility model is shown It is intended to.With reference to Fig. 3, the wave source control signal input 341 of switch control module 340 includes the first wave source control signal input 3411 and the second wave source control signal input 3412, switch control module 340 include the first sub- power module 444, unidirectionally lead Logical device 445, the second charge-discharge modules 446, the first coupling module 447, the second sub- power module 448 and the second coupling module 449.Wherein, the first sub- power module 444 includes third power supply signal output end 4441 and the 4th power supply signal output end 4442, Second charge-discharge modules 446 include third signal end 4461 and fourth signal end 4462, and the first coupling module 447 includes the first coupling Close signal input part 4471, the second coupled signal input terminal 4472, the first coupled signal output end 4473 and the second coupled signal Output end 4474, the second sub- power module 448 include the 5th power supply signal output end 4481 and the 6th power supply signal output end 4482, the second coupling module 449 includes third coupled signal input terminal 4491, the 4th coupled signal input terminal 4492, third coupling Close signal output end 4493 and the 4th coupled signal output end 4494.

The first end 4451 of one way conducting device 445 is electrically connected with third power supply signal output end 4441, one-way conduction device The second end 4452 of part 445 is electrically connected with the 4th power supply signal output end 4442；The third signal end of second charge-discharge modules 446 4461 are electrically connected with the 4th power supply signal output end 4442；First coupled signal input terminal 4471 of the first coupling module 447 with Fourth signal end 4462 is electrically connected, and the second coupled signal input terminal 4472 is electrically connected with third power supply signal output end 4441, the Switch control signal output end 342 of the one coupled signal output end 4474 as switch control module 340, the second coupled signal are defeated Ground terminal 343 of the outlet 4473 as switch control module 340；6th power supply signal output end of the second sub- power module 448 4482 are electrically connected with the second end 4452 of one way conducting device 445 and the 4th power supply signal output end 4442；Second coupling module First wave source control signal input 3411 of the 449 third coupled signal input terminal 4491 as switch control module 340, the Second wave source control signal input 3412 of the four coupled signal input terminals 4492 as switch control module 340, third coupling Signal output end 4493 is electrically connected with the 5th power supply signal output end 4481, the 4th coupled signal output end 4494 and one-way conduction The second end 4452 of device 445 is electrically connected.

Optionally, with continued reference to Fig. 3, switch control module 340 can also include times die block 500, and times die block 500 wraps Include first voltage signal input part 510, second voltage signal input part 520, first voltage signal output end 530 and second voltage Signal output end 540, first voltage signal input part 510 are electrically connected with third power supply signal output end 4441, second voltage letter Number input terminal 520 is electrically connected with the 4th power supply signal output end 4442, first voltage signal output end 530 and one way conducting device 445 first end 4451 is electrically connected, and second voltage signal output end 540 and the second end 4452 of one way conducting device 445 are electrically connected It connects.Times die block 500 can adjust the size for the power supply signal that the first sub- power module 444 exports, and by the signal after adjusting The corresponding end of one way conducting device 445 is transmitted to by first voltage signal output end 530 and second voltage signal output end 540 Mouthful.

Optionally, with continued reference to Fig. 3, the first coupling module 447 may include two groups of coupling coils, one group of coupling coil 4475 be series at the first coupled signal input terminal 4471 of the first coupling module 447 and the second coupled signal input terminal 4472 it Between, one group of coupling coil 4476 is series at the first coupled signal output end 4473 and the second coupling letter of the first coupling module 447 Between number output end 4474.Specifically, including two groups of coupling coils by the first coupling module 447 of setting, voltage tune is being realized While section acts on, the anti-interference of the control device of shock wave wave source is enhanced.

Optionally, with continued reference to Fig. 3, the second coupling module 449 may include light emitting diode 4495 and photistor 4496, light emitting diode 4495 is series at the third coupled signal input terminal 4491 and the 4th coupling letter of the second coupling module 449 Between number input terminal 4492, the first end of photistor 4496 is exported as the third coupled signal of the second coupling module 449 End 4493, fourth coupled signal output end 4494 of the second end of photistor 4496 as the second coupling module 449.Pass through It may include light emitting diode 4495 and photistor 4496 that the second coupling module 449, which is arranged, equally enhance shock wave wave The anti-interference of the control device in source.

Fig. 4 is the structural schematic diagram of wave source control module provided by the embodiment of the utility model.With reference to Fig. 4, wave source control The wave source control signal output 351 of module 350 includes the first wave source control signal output 3511 and the second wave source control letter Number output end 3512, the first wave source control signal output 3511 are electrically connected with corresponding first wave source signal input terminal 3411, Second wave source control signal output 3512 is electrically connected with corresponding second wave source signal input terminal 3412, wave source control module 350 for exporting arteries and veins by corresponding first wave source control signal output 3511 and the second wave source control signal output 3512 Punching control signal.

Illustratively, each switch control module 340 includes that the first wave source signal input terminal 3411 and the second wave source are believed Number input terminal 3412, each wave source control signal output 351 of wave source control module 350 include that the first wave source control signal is defeated Outlet 3511 and the second wave source control signal output 3512, the first wave source signal input of each switch control module 340 End 3411 is electrically connected with the first wave source control signal output 3511 of corresponding wave source control module 350, each switch control Second wave source control signal output of the second wave source signal input terminal 3412 and wave source control module 350 of molding block 340 3512 electrical connections.

Specifically, the sub- power module 444 of the first of switch control module 340 is exported by third power supply signal with reference to Fig. 3 End 4441 and the 4th power supply signal output end 4442 export electric energy, by the first coupling module 447 to the second charge-discharge modules 446 It charges.When the first sub- 444 output voltage of power module is lower, increase input electricity can be reached by voltage-multiplying circuit 500 The effect of pressure.Wave source control module 350 controls signal output by the first wave source control signal output 3511 and the second wave source End 3512 is respectively to the first wave source control signal input 3411 of electrical connection of being corresponding to it and the control signal input of the second wave source End 3412 inputs wave source to wave source control module 350 and controls signal.Assuming that when wave source control signal is high level, the second coupled mode Block 449 is connected, then when wave source control signal is high level, the conducting of light emitting diode 4495 shines, and photistor 4496 exists Diode current flow is connected after shining, so that one way conducting device 445 is connected, the second charge-discharge modules 446 are through the first coupling module Coil 4475 between 447 the first coupled signal input terminal 4471 and the second coupled signal input terminal 4472 sparks, and makees The high electricity of pulse is exported for the first coupled signal output end 4474 of the switch control signal output end 342 of switch control module 340 Pressure, so that corresponding switch module 330 is connected, the shock wave source of electrical connection corresponding with the switch module 330 is started to work.

Fig. 5 is a kind of structural schematic diagram of specific switch control module provided by the embodiment of the utility model.With reference to figure 5, optionally, the first sub- power module 444 is AC power source 4440, wherein A2 is the anode of AC power source, and A1 is AC power source Cathode；One way conducting device 445 can be silicon-controlled SR, wherein and E1 is the anode of silicon-controlled SR, and E2 is silicon-controlled cathode, E3 is silicon-controlled control electrode；Second charge-discharge modules 446 are capacitor C, and the first coupling module 447 is transformer T, the second son electricity Source module 448 can be internal electric source, and the second coupling module 449 is isolation optocoupler GL.

Optionally, series resistance R1 between capacitor C and transformer T.Optionally, silicon-controlled SR cathode E2 and isolation optocoupler GL Between series limiting resistor R2.Optionally, series diode D between voltage-multiplying circuit and silicon-controlled SR, wherein D1 is diode Anode, D2 are the cathode of diode.

Illustratively, with reference to Fig. 5, the wave source control signal that wave source control module 350 exports is high level, isolation optocoupler GL Conducting, so that silicon-controlled SR is connected, capacitor C sparks through transformer T, and the switch control as switch control module 340 is believed First coupled signal output end 4474 of number output end 342 exports pulse high-voltage, so that corresponding switch module 330 is led Logical, the shock wave source of electrical connection corresponding with the switch module 330 is started to work.

For example, believing when controlling two shock wave wave sources if wave source control module 350 is controlled by wave source respectively The switch control module 340 while the identical control signal that sends of number output end 351 to electrical connection of being corresponding to it, then two switches Control module 340 sends conducting to two switch modules 330 simultaneously or cut-off signals, two shock wave wave sources work at the same time； When wave source control module 350 passes through switch control module of the wave source control signal output 351 to electrical connection of being corresponding to it respectively 340 phase revertive control signals sent simultaneously the and control signal is with time-interleaved variation, then two switch control modules 340 Conducting or cut-off signals alternately are sent to two switch modules 330, two shock wave wave sources work alternatively；When wave source controls mould Block 350 respectively by switch control module 340 from wave source control signal output 351 to electrical connection of being corresponding to it simultaneously transmission Phase revertive control signal and when remaining unchanged whithin a period of time, two switch control modules 340 are during this period of time to two Switch module 330 sends opposite control signal, realizes that only one shock wave source works.

The control device of shock wave wave source provided in this embodiment, including power module, the first charge-discharge modules, Duo Gekai Module, multiple switch control module and wave source control module, each switch control module is closed to be inputted according to wave source control module Wave source controls signal and exports corresponding switch control signal, so that corresponding switch module is believed according to the switch control of input Number connection or shutdown.Power module charges to the first charge-discharge modules, and the first charge-discharge modules is made to assemble high electric energy, When switch module is connected, the first charge-discharge modules spark to shock wave wave source, so that impact corresponding with the switch module The work of wave wave source.A set of power module and the first charge-discharge modules are used only in the utility model embodiment, by the way that wave source control is arranged Molding block, switch control module enable switch module respectively, to be either simultaneously or alternately connected, and then realize to more set impacts The control of wave wave source, realizing more set shock wave wave sources can respectively, either simultaneously or alternately work, and reduce the control of shock wave wave source The cost and volume of device, and then the cost and volume of impact wave apparatus are reduced, it solves and is turned in the prior art using high pressure The method for changing switch cannot be such that two sets of wave sources work at the same time, and use more set high-pressure systems, multiple capacitance groups and more set triggerings The method of device causes that shock wave device volume is huge, the problem of involving great expense.

Note that above are only the preferred embodiment and institute's application technology principle of the utility model.Those skilled in the art's meeting Understand, the utility model is not limited to specific embodiment described here, is able to carry out for a person skilled in the art various bright Aobvious variation, readjustment and substitution is without departing from the protection scope of the utility model.Therefore, although passing through above embodiments The utility model is described in further detail, but the utility model is not limited only to above embodiments, is not departing from It can also include more other equivalent embodiments in the case that the utility model is conceived, and the scope of the utility model is by appended Scope of the claims determine.

Claims (8)

1. a kind of control device of shock wave wave source characterized by comprising

Power module, the power module include the first power supply signal output end and second source signal output end；

First charge-discharge modules, first charge-discharge modules include the first signal end and second signal end, first signal End is electrically connected with the first power supply signal output end, and the second signal end is electrically connected with the second source signal output end It connects；

Multiple switch module, the switch module include control terminal, first end and second end, the switch module and shock wave wave Source is arranged in a one-to-one correspondence, and the first end of all switch modules is electrically connected with first signal end, the switch module Second end is electrically connected with corresponding shock wave wave source, and the switch control that the switch module is used to be inputted according to the control terminal is believed Number control the connected state of its first end and second end；

Multiple switch control module, the switch control module are arranged in a one-to-one correspondence with the switch module, the switch control Module includes wave source control signal input, switch control signal output and ground, the switch of the switch control module Control signal output is electrically connected with the control terminal of corresponding switch module, and the switch control module is used for according to the wave source The wave source control signal of control signal input input controls the switch control signal of the switch control signal output end output；

Wave source control module, the wave source control module include multiple wave source control signal outputs, and the wave source controls signal Output end is electrically connected with wave source control signal input one-to-one correspondence.

2. control device according to claim 1, which is characterized in that the power module further includes that power control signal is defeated Enter end, the power control signal control described first that the power module is used to input according to the power control signal input terminal The size of power supply signal output end and the power supply signal of second source signal output end output.

3. control device according to claim 1, which is characterized in that the wave source control signal of the switch control module is defeated Entering end including the first wave source control signal input and the second wave source control signal input, the switch control module includes:

First sub- power module, the first sub- power module include third power supply signal output end and the output of the 4th power supply signal End；

One way conducting device, the first end of the one way conducting device is electrically connected with the third power supply signal output end, described The second end of one way conducting device is electrically connected with the 4th power supply signal output end；

Second charge-discharge modules, second charge-discharge modules include third signal end and fourth signal end, the third signal End is electrically connected with the 4th power supply signal output end；

First coupling module, first coupling module include the first coupled signal input terminal, the second coupled signal input terminal, the One coupled signal output end and the second coupled signal output end, the first coupled signal input terminal and fourth signal end electricity Connection, the second coupled signal input terminal are electrically connected with the third power supply signal output end, and first coupled signal is defeated Switch control signal output end of the outlet as the switch control module, the second coupled signal output end be used as described in open Close the ground terminal of control module；

Second sub- power module, the second sub- power module include that the 5th power supply signal output end and the 6th power supply signal export End, the 6th power supply signal output end are electrically connected with the second end of the one way conducting device and the 4th power supply signal output end It connects；

Second coupling module, second coupling module include third coupled signal input terminal, the 4th coupled signal input terminal, Three coupled signal output ends and the 4th coupled signal output end, the third coupled signal input terminal is as the switch control mould First wave source control signal input of block, second wave of the 4th coupled signal input terminal as the switch control module Source control signal input, the third coupled signal output end are electrically connected with the 5th power supply signal output end, and described Four coupled signal output ends are electrically connected with the second end of the one way conducting device.

4. control device according to claim 3, which is characterized in that the switch control module further include:

Times die block, described times of die block include first voltage signal input part, second voltage signal input part, first voltage letter Number output end and second voltage signal output end, the first voltage signal input part and third power supply signal output end electricity Connection, the second voltage signal input part are electrically connected with the 4th power supply signal output end, and the first voltage signal is defeated Outlet is electrically connected with the first end of the one way conducting device, the second voltage signal output end and the one way conducting device Second end electrical connection.

5. control device according to claim 3, which is characterized in that first coupling module includes two groups of coupling lines Circle, one group of coupling coil are series at the first coupled signal input terminal and the second coupled signal input terminal of first coupling module Between, one group of coupling coil is series at the first coupled signal output end and the output of the second coupled signal of first coupling module Between end.

6. control device according to claim 3, which is characterized in that second coupling module include light emitting diode and Photistor, the light emitting diode are series at third coupled signal input terminal and the 4th coupling of second coupling module Between signal input part, the first end of the photistor is exported as the third coupled signal of second coupling module End, fourth coupled signal output end of the second end of the photistor as second coupling module.

7. control device according to claim 3, which is characterized in that the wave source control signal of the wave source control module is defeated Outlet includes the first wave source control signal output and the second wave source control signal output, and the first wave source control signal is defeated Outlet is electrically connected with corresponding first wave source signal input terminal, and the second wave source signal output end is believed with corresponding second wave source The electrical connection of number input terminal, the wave source control module is for passing through corresponding first wave source control signal output and the second wave source Control signal output exports pulse control signal.

8. control device according to claim 1, which is characterized in that the second source signal output end and ground terminal electricity Connection.