CN209606936U - External shock wave equipment and protection device thereof - Google Patents

Abstract

The utility model discloses an external shock wave device and a protection device thereof, which are applied to the external shock wave device and comprise an electric energy data detection module which is respectively connected with a power supply and a processor and is used for acquiring electric energy data in the power supply; the time delay power-off module is respectively connected with the power supply and the external shock wave equipment and is used for supplying power to the external shock wave equipment for preset time when the power supply is powered off; the power supply is used for supplying power to the external shock wave equipment; the processor is used for determining that the external shock wave equipment is controlled to shut down when the power supply is powered off according to the electric energy data; wherein the preset time is not less than the time for shutting down the in vitro shock wave equipment. The time-delay power-off module can continuously supply power to the external shock wave equipment for preset time after the power supply is powered off, and the preset time is not less than the time for shutting down the external shock wave equipment, so that a shutdown process is automatically completed before the power supply is completely powered off, related data is convenient to store, related programs or parts are protected from being damaged, and the maintenance cost is reduced.

Description

A kind of extracorporeal shock wave device and its protective device

Technical field

The utility model relates to medical instruments fields, and more particularly to a kind of protective device, the utility model further relates to one Kind extracorporeal shock wave device.

Background technique

Extracorporeal shock wave device is a kind of Medical Devices, needs to close its operating system before disconnecting power supply, so as to Related shutdown process is executed, the operation such as preservation of related data can be carried out in shutdown process, but user is in some cases The power supply of disconnection extracorporeal shock wave device may be forced in the case where being not turned off the operating system of extracorporeal shock wave device, this The loss of related data is likely to result in the case of kind and causes the damage of relative program or component.

Therefore, how to provide a kind of scheme of solution above-mentioned technical problem is that those skilled in the art need to solve at present Problem.

Utility model content

The purpose of the utility model is to provide a kind of protective devices, can be in user's force disconnect extracorporeal shock wave device When power supply, so that extracorporeal shock wave device powers off again after completing shutdown process, convenient for saving related data, and correlation is protected Program or component are not damaged, and reduce maintenance cost；It includes above-mentioned guarantor that the another object of the utility model, which is to provide a kind of, The extracorporeal shock wave device of protection unit, can be in the power supply of user's force disconnect extracorporeal shock wave device, so that extracorporeal shock Wave device powers off again after completing shutdown process, convenient for saving related data, and relative program or component is protected not to be damaged It is bad, reduce maintenance cost.

In order to solve the above technical problems, the utility model provides a kind of protective device, it is applied to extracorporeal shock wave device, Include:

The energy data detection module being connect respectively with power supply and processor, for obtaining the electric energy number in the power supply According to；

The delay cut-off module being connect respectively with the power supply and the extracorporeal shock wave device, in the power supply It is the extracorporeal shock wave device power supply preset time when power-off；

The power supply, for powering for the extracorporeal shock wave device；

The processor controls the external knock wave for determining according to the energy data when power cut-off Equipment shutdown；

Wherein, the preset time is shut down the time used not less than the extracorporeal shock wave device.

Preferably, the processor is the processor of the extracorporeal shock wave device itself.

Preferably, the protective device further include:

The suggestion device being connected to the processor；

Then the processor is also used to control the suggestion device prompt shutdown when having executed shutdown programm and completes.

Preferably, the suggestion device is LED lamp.

Preferably, the energy data detection module is zero cross detection circuit.

Preferably, the delay cut-off module is the internal time-delay relay with energy-storage module.

Preferably, the protective device further include:

The warning device being connected to the processor；

Then the processor is also used to determining the power cut-off and the extracorporeal shock wave device does not shut down time control Make the warning device alarm.

Preferably, the warning device is buzzer.

In order to solve the above technical problems, the utility model additionally provides a kind of extracorporeal shock wave device, including as above any Protective device described in.

The utility model provides a kind of protective device, be applied to extracorporeal shock wave device, including respectively with power supply and The energy data detection module of processor connection, for obtaining the energy data in power supply；Respectively with power supply and extracorporeal shock The delay cut-off module of wave device connection, for being extracorporeal shock wave device power supply preset time in power cut-off；Power supply is used It powers in for extracorporeal shock wave device；Processor controls external knock wave when power cut-off for determining according to energy data Equipment shutdown；Wherein, preset time is shut down the time used not less than extracorporeal shock wave device.

As it can be seen that processor can be determined according to the energy data in extracorporeal shock wave device power supply in the utility model Power cut-off, and the shutdown of external knock wave equipment is controlled, since delay cut-off module can continue as in vitro after power cut-off Wave device power supply preset time is impacted, and is shut down the time used since preset time is not less than extracorporeal shock wave device, When user's force disconnect power supply, extracorporeal shock wave device can complete shutdown stream in the preset time of delay cut-off module for power supply Journey convenient for saving related data, and protects relative program or component not to be damaged, reduces maintenance cost.

The utility model additionally provides a kind of extracorporeal shock wave device, has the identical beneficial effect of protective device as above.

Detailed description of the invention

It, below will be to the prior art and embodiment in order to illustrate more clearly of the technical scheme in the embodiment of the utility model Needed in attached drawing be briefly described, it should be apparent that, the accompanying drawings in the following description is only the utility model Some embodiments for those of ordinary skill in the art without creative efforts, can also be according to this A little attached drawings obtain other attached drawings.

Fig. 1 is a kind of structural schematic diagram of protective device provided by the utility model；

Fig. 2 is the structural schematic diagram of another protective device provided by the utility model.

Specific embodiment

The core of the utility model is to provide a kind of protective device, can be in user's force disconnect extracorporeal shock wave device When power supply, so that extracorporeal shock wave device powers off again after completing shutdown process, convenient for saving related data, and correlation is protected Program or component are not damaged, and reduce maintenance cost；It includes above-mentioned guarantor that another core of the utility model, which is to provide a kind of, The extracorporeal shock wave device of protection unit, can be in the power supply of user's force disconnect extracorporeal shock wave device, so that extracorporeal shock Wave device powers off again after completing shutdown process, convenient for saving related data, and relative program or component is protected not to be damaged It is bad, reduce maintenance cost.

It is practical new below in conjunction with this to keep the objectives, technical solutions, and advantages of the embodiments of the present invention clearer Attached drawing in type embodiment, the technical scheme in the utility model embodiment is clearly and completely described, it is clear that is retouched The embodiment stated is the utility model a part of the embodiment, instead of all the embodiments.Based on the implementation in the utility model Example, every other embodiment obtained by those of ordinary skill in the art without making creative efforts belong to The range of the utility model protection.

Referring to FIG. 1, Fig. 1 is a kind of structural schematic diagram of protective device provided by the utility model, comprising:

The energy data detection module 1 being connect respectively with power supply 3 and processor 4, for obtaining the electric energy number in power supply 3 According to；

The delay cut-off module 2 being connect respectively with power supply 3 and extracorporeal shock wave device, for being when power supply 3 powers off Extracorporeal shock wave device power supply preset time；

Power supply 3, for powering for extracorporeal shock wave device；

Processor 4, control external knock wave equipment shutdown when for determining that power supply 3 powers off according to energy data；

Wherein, preset time is shut down the time used not less than extracorporeal shock wave device.

Specifically, the delay cut-off module 2 in the utility model embodiment can continue as rushing in vitro when power supply 3 powers off Hit wave device power supply preset time, that is to say, that even if user impacts force disconnect in the state that wave device does not shut down in vitro The power supply 3 of extracorporeal shock wave device, it is defeated that extracorporeal shock wave device can continue within a preset time delay cut-off module 2 Electric energy out simultaneously works on, and is shut down convenient for processor 4 using this section of time control external knock wave equipment.

Specifically, energy data can be multiple types, such as voltage value or current value even voltage waveform etc., processing Device 4 can determine the state of 3 power on/off of power supply by energy data, for example, in the case where voltage value is greater than high threshold, then It can determine that power supply 3 is in energized state, and when voltage value is lower than Low threshold, it can determine that power supply 3 is in power-off shape State, and the spread speed of electric energy is very fast, therefore processor 4 can determine power supply 3 readily through energy data On-off electricity condition, in the utility model embodiment, whether processor 4 can be solely focused on power supply 3 in off-position.

Wherein, when processor 4 determines that power supply 3 powers off, since delay cut-off module 2 can be extracorporeal shock wave device The limited time of power supply, only preset time, therefore processor 4 can control external knock wave equipment as soon as possible and execute shutdown Program, such as shutdown command is sent to extracorporeal shock wave device, the effect of shutdown command passes through with user under normal circumstances The effect of operation panel to the shutdown command that extracorporeal shock wave device is sent is identical, and external knock wave equipment can be made to execute Shutdown process, and related data is saved in the process, terminate relative program, protects the peace of data, program and hardware etc. Entirely.

Certainly, other than the shutdown of extracorporeal shock wave device is immediately controlled, processor 4 can also be powered off determining power supply 3 When, using the shutdown of external knock wave equipment is controlled after preset period of time, however, to ensure that extracorporeal shock wave device is thoroughly breaking Smoothly shutdown before electricity, the sum of the time that preset period of time is needed plus shutdown cannot be less than preset time.

Wherein, preset time can independently be set, such as can be set to 15S etc., the mode independently set can be Different types of delay cut-off module 2 etc. is selected, the utility model embodiment is it is not limited here.

Wherein, appointing in the power supply line that power supply 3 is extracorporeal shock wave device can be set in energy data detection module 1 Anticipate position, such as can be set on the input terminal of delay cut-off module 2 etc., the utility model embodiment is it is not limited here.

The utility model provides a kind of protective device, be applied to extracorporeal shock wave device, including respectively with power supply and The energy data detection module of processor connection, for obtaining the energy data in power supply；Respectively with power supply and extracorporeal shock The delay cut-off module of wave device connection, for being extracorporeal shock wave device power supply preset time in power cut-off；Power supply is used It powers in for extracorporeal shock wave device；Processor controls external knock wave when power cut-off for determining according to energy data Equipment shutdown；Wherein, preset time is shut down the time used not less than extracorporeal shock wave device.

As it can be seen that processor can be determined according to the energy data in extracorporeal shock wave device power supply in the utility model Power cut-off, and the shutdown of external knock wave equipment is controlled, since delay cut-off module can continue as in vitro after power cut-off Wave device power supply preset time is impacted, and is shut down the time used since preset time is not less than extracorporeal shock wave device, When user's force disconnect power supply, extracorporeal shock wave device can complete shutdown stream in the preset time of delay cut-off module for power supply Journey convenient for saving related data, and protects relative program or component not to be damaged, reduces maintenance cost.

On the basis of the above embodiments:

Embodiment as one preferred, processor 4 are the processor of extracorporeal shock wave device itself.

Specifically, processor 4 can be external knock wave equipment itself processor 4, in such cases, protective device without Processor need to be additionally added, is reduced costs, and 4 number of processor and route number can be reduced only with a processor 4 Amount, also just reduces the position that may be broken down, the stability of control can be improved, further improve protective value.

Certainly, other than the processor of extracorporeal shock wave device itself, processor 4 can also be other classes additionally added The processor of type, such as single-chip microcontroller etc., the utility model embodiment is it is not limited here.

In order to be preferably illustrated to the utility model embodiment, referring to FIG. 2, Fig. 2 is provided by the utility model Another structural schematic diagram of protective device.

Embodiment as one preferred, the protective device further include:

The suggestion device 5 being connect with processor 4；

Then processor 4 is also used to control the prompt shutdown of suggestion device 5 when having executed shutdown programm and completes.

It is prompted specifically, processor 4 can also impact control suggestion device 5 when wave device has executed shutdown programm in vitro Shutdown is completed, and in such cases, user can recognize that extracorporeal shock wave device has been safely completed pass by suggestion device 5 Machine, user cut off the power 3 without first shutting down again, improve image product.

Embodiment as one preferred, suggestion device 5 are LED (Light Emitting Diode, light emitting diode) Lamp.

Specifically, LED light can prompt shutdown to complete in the form of continuous illumination or flash of light, such as suggestion device 5 can Think the LED light of green, the LED light flash of light that processor 4 can control green is completed to prompt to shut down, in such cases, in order to Guarantee that processor 4 can successfully control the prompt of suggestion device 5, preset time can be made not less than shutdown required time and mentioned The sum of the time required to showing.

In addition, control LED light is extinguished after processor 4 can also only impact wave device shutdown in vitro, mention in this way Show that extracorporeal shock wave device is in off-mode.

Wherein, LED light has many advantages, such as that structure is simple and cheap.

Certainly, suggestion device 5 and its corresponding prompting mode can also be other diversified forms, the utility model embodiment It is not limited here.

Embodiment as one preferred, energy data detection module 1 are zero cross detection circuit 11.

Specifically, zero cross detection circuit 11 can be multiple types, all have that structure is simple, price is low and the service life is long The advantages that, the utility model embodiment is it is not limited here.

Wherein, zero cross detection circuit 11 can issue frequency corresponding with 3 frequency of power supply in the case where power supply 3 is powered Pulse signal can determine that power supply 3 be in energized state after processor 4 receives the pulse signal of the frequency at this time, and when electric When source 3 powers off, zero cross detection circuit 11 can continue to export a high level, and in such cases, processor 4 can be determined Power supply 3 disconnects.

Certainly, other than zero cross detection circuit 11, energy data detection module 1 can also be other multiple types, such as It can be voltage transformer etc., the utility model embodiment is it is not limited here.

Embodiment as one preferred, delay cut-off module 2 are the internal time-delay relay 21 with energy-storage module.

Specifically, time-delay relay 21 has many advantages, such as that small in size, price is low and the service life is long.

Wherein, the pin that different types of time-delay relay 21 is connected in specific connection procedure may be different, Such as time-delay relay 21 2 feet and 7 feet can be connect with power supply 3,6 feet and 8 feet of time-delay relay 21 can be with bodies The connection of combined use of ESWL equipment, in the case where 3 normal power supply of power supply, electric energy can be input to by power supply 3 via 2 feet and 7 feet Inside time-delay relay 21, time-delay relay 21 can power via 6 feet and 8 feet to extracorporeal shock wave device, disconnected in power supply 3 In the case where electricity, after 2 feet and 7 feet of time-delay relay 21 detect that power supply 3 powers off, time-delay relay 21 can be continued through 6 feet and 8 feet are that extracorporeal shock wave device continues preset time of powering, and the utility model embodiment is it is not limited here.

Certainly, other than time-delay relay 21, delay cut-off module 2 can also be other types, and the utility model is implemented Example is it is not limited here.

Embodiment as one preferred, the protective device further include:

The warning device 6 being connect with processor 4；

Then processor 4 is also used to control warning device 6 when determining the power-off of power supply 3 and extracorporeal shock wave device does not shut down Alarm.

Specifically, in view of the restricted lifetime of the protective device in the utility model embodiment, also for making user's shape It is accustomed at good shutdown, the processor 4 in the utility model embodiment is determining the power-off of power supply 3 and extracorporeal shock wave device When the case where not shutting down, the alarm of warning device 6 can control, to warn 3 behavior of directly cutting off the power of user to be at this time It is incorrect, the user can be made to be warned, so as to its smoothly form first shut down cut off the power again 3 good habit.

Embodiment as one preferred, warning device 6 are buzzer.

Specifically, buzzer has many advantages, such as that small in size, price is low and the service life is long.

Certainly, other than buzzer, warning device 6 can also be other multiple types, such as phonetic alarm device etc., sheet Utility model embodiment is it is not limited here.

The utility model additionally provides a kind of extracorporeal shock wave device, including the protective device in such as previous embodiment.

The embodiment of aforementioned protective device is please referred to for the introduction of extracorporeal shock wave device provided by the utility model, this Details are not described herein for utility model embodiment.

Each embodiment in this specification is described in a progressive manner, the highlights of each of the examples are with other The difference of embodiment, the same or similar parts in each embodiment may refer to each other.It should also be noted that, in this theory In bright book, the terms "include", "comprise" or any other variant thereof is intended to cover non-exclusive inclusion, so that including The process, method, article or equipment of a series of elements not only includes those elements, but also its including being not explicitly listed His element, or further include for elements inherent to such a process, method, article, or device.What is do not limited more In the case of, the element that is limited by sentence "including a ...", it is not excluded that include the process, method of the element, article or There is also other identical elements in person's equipment.

The foregoing description of the disclosed embodiments can be realized professional and technical personnel in the field or using originally practical new Type.Various modifications to these embodiments will be readily apparent to those skilled in the art, and determine herein The General Principle of justice can be realized in other embodiments without departing from the spirit or scope of the present utility model.Cause This, the present invention will not be limited to the embodiments shown herein, and is to fit to and principles disclosed herein The widest scope consistent with features of novelty.

Claims (9)

1. a kind of protective device is applied to extracorporeal shock wave device characterized by comprising

The energy data detection module being connect respectively with power supply and processor, for obtaining the energy data in the power supply；

The delay cut-off module being connect respectively with the power supply and the extracorporeal shock wave device, in the power cut-off When for the extracorporeal shock wave device power preset time；

The power supply, for powering for the extracorporeal shock wave device；

The processor controls the extracorporeal shock wave device for determining according to the energy data when power cut-off Shutdown；

Wherein, the preset time is shut down the time used not less than the extracorporeal shock wave device.

2. protective device according to claim 1, which is characterized in that the processor be the extracorporeal shock wave device from The processor of body.

3. protective device according to claim 2, which is characterized in that the protective device further include:

The suggestion device being connected to the processor；

Then the processor is also used to control the suggestion device prompt shutdown when having executed shutdown programm and completes.

4. protective device according to claim 3, which is characterized in that the suggestion device is LED lamp.

5. protective device according to claim 3, which is characterized in that the energy data detection module is zero passage detection electricity Road.

6. protective device according to claim 5, which is characterized in that the delay cut-off module is internal with energy storage mould The time-delay relay of block.

7. protective device according to any one of claims 1 to 6, which is characterized in that the protective device further include:

The warning device being connected to the processor；

Then the processor is also used to control institute when determining that the power cut-off and the extracorporeal shock wave device do not shut down State warning device alarm.

8. protective device according to claim 7, which is characterized in that the warning device is buzzer.

9. a kind of extracorporeal shock wave device, which is characterized in that including protective device as claimed in any one of claims 1 to 8.