CN101879075A - Energy-saving protection method of ultrasonic imaging equipment and device thereof - Google Patents

Abstract

The invention discloses an energy-saving protection method of ultrasonic imaging equipment and a device thereof, aiming to solve the problem that the system can mistakenly enter the energy-saving protection mode when the ultrasonic probe is continuously used for a long term. The method particularly comprises the following steps: detecting and judging whether the probe is in an operating condition, if the probe is not operating, judging whether the keyboard is operating, if the keyboard is not operating, judging whether the non-operating time of the keyboard exceeds the preset time threshold, and if the non-operating time of the keyboard exceeds the preset time threshold, entering the energy-saving protection mode. The method and the device can ensure that the system can not enter the energy-saving protection mode when the ultrasonic probe is continuously used for a long term, thereby bringing great convenience for the user.

Description

A kind of energy-saving protection method of supersonic imaging apparatus and device thereof

Technical field

The present invention relates to the technical field of supersonic imaging apparatus, what be specifically related to is the energy-saving protection method of supersonic imaging apparatus and the device of realizing energy-saving protective.

Background technology

The energy-saving protective program of ultrasonic image-forming system mainly is for service life of protecting device screen and ultrasonic probe (when being in the energy-saving protective state in system; ultrasonic probe can be closed); simultaneously, also played the effect of power saving for portable ultrasound imaging equipment.In existing supersonic imaging apparatus; the energy-saving protective program is generally the energy-saving protective program; its way generally is: the time threshold that an energy-saving protective is set; system detects the keyboard how long user does not have operating equipment; if should the time surpass the threshold value that is provided with; then enter the energy-saving protective state, close ultrasonic probe emission simultaneously, and blank screen (having simple literal or logo shows) or have picture, simple animation to show.This method has a defective; promptly, systems soft ware whether using ultrasonic probe owing to can't detecting user; if user is not according to the keyboard of equipment, but also when using the ultrasonic probe scanogram, system also can enter into the energy-saving protective state behind certain threshold time.Such as the doctor use ultrasonic probe give the anemia of pregnant woman, when the cardiac observes image, or the doctor can use ultrasonic probe for a long time when holding a consultation.Just may often appear in this case when observing image and the energy-saving protective state occurs, and the doctor has to stir trace ball or could continue by lower keyboard.So just many inconvenience have been brought to user.

Summary of the invention

The present invention is directed to the deficiency of prior art, a kind of energy-saving protection method and device thereof of supersonic imaging apparatus is provided.

A kind of energy-saving protection method of supersonic imaging apparatus comprises:

Detection also judges whether detecting head is in running order, if detecting head not in working order, then detects the operational circumstances of keyboard, if detecting head is in running order, does not then enter the energy-saving protective state;

According to the result of detected keyboard operation situation, judge whether keyboard is operated, if keyboard is operated, then do not enter the energy-saving protective state, if keyboard is operated, judge then whether the operating time does not surpass the Preset Time threshold value to keyboard;

The operating time does not then enter the energy-saving protective state above the Preset Time threshold value when keyboard.

A kind of device that uses the energy-saving protection method of supersonic imaging apparatus comprises: detecting head, keyboard, probe hanger and main frame also comprise:

Detection module is connected with detecting head or probe hanger, is used to detect the duty of detecting head;

First judge module is connected with detection module, is used for judging according to the data of detection module whether detecting head is in running order;

Second judge module is connected with first judge module with keyboard, is used for judging the operational circumstances of keyboard when first judge module obtains the not in running order conclusion of detecting head;

The 3rd judge module is connected with second judge module, is used for when keyboard is operated, and judges whether the operating time does not surpass the Preset Time threshold value to keyboard;

Execution module is connected with the 3rd judge module, is used for entering the energy-saving protective state when keyboard when the operating time surpasses the Preset Time threshold value.

A kind of energy-saving protection method of supersonic imaging apparatus comprises:

Detection also judges whether keyboard is operated, if keyboard is operated, does not then enter the energy-saving protective state, if keyboard is operated, judges then whether the operating time surpasses the Preset Time threshold value to keyboard;

The operating time is not then detected the duty of detecting head above the Preset Time threshold value when keyboard;

Judge the duty of detecting head,,, then do not enter the energy-saving protective state if detecting head is in running order if detecting head not in working order, then enters the energy-saving protective state.

A kind of device that uses the energy-saving protection method of supersonic imaging apparatus comprises: detecting head, keyboard, probe hanger and main frame also comprise:

First judge module is connected with keyboard, is used to judge the operational circumstances of keyboard;

Second judge module is connected with first judge module, is used for when keyboard is operated, and judges whether the operating time does not surpass the Preset Time threshold value to keyboard;

Detection module is connected with detecting head or probe hanger, is connected with second judge module simultaneously, is used for when keyboard when the operating time is above the Preset Time threshold value duty of detection detecting head;

The 3rd judge module is connected with detection module, is used for judging according to the data of detection module whether detecting head is in running order;

Execution module is connected with the 3rd judge module, is used for entering the energy-saving protective state when detecting head is not in running order.

A kind of energy-saving protection method of supersonic imaging apparatus comprises:

Detect simultaneously and judge that detecting head is whether in running order and whether operate with keyboard;

If keyboard is operated, then do not enter the energy-saving protective state, if keyboard is operated, judge then whether the operating time does not surpass the Preset Time threshold value to keyboard;

Judge the not in running order and keyboard of detecting head not the operating time condition that surpasses the Preset Time threshold value whether set up simultaneously, if set up simultaneously, then enter the energy-saving protective state, if do not set up simultaneously, then do not enter the energy-saving protective state.

A kind of device that uses the energy-saving protection method of supersonic imaging apparatus comprises: detecting head, keyboard, probe hanger and main frame also comprise:

First judge module is connected with keyboard, is used to judge the operational circumstances of keyboard;

Second judge module is connected with first judge module, is used for when keyboard is operated, and judges whether the operating time does not surpass the Preset Time threshold value to keyboard;

Detection module is connected with detecting head or probe hanger, is used to detect the duty of detecting head;

The 3rd judge module is connected with detection module, is used for judging according to the data of detection module whether detecting head is in running order;

The 4th judge module is connected with the 3rd judge module with second judge module, be used to judge the not in running order and keyboard of detecting head the operating time condition that surpasses the Preset Time threshold value whether set up simultaneously;

Execution module is connected with the 4th judge module, is used for entering the energy-saving protective state when the not in running order and keyboard of detecting head when the operating time condition that surpasses the Preset Time threshold value is not set up simultaneously.

In order to solve the problem that can enter energy-saving protective automatically when the supersonic imaging apparatus long-time continuous is used; the energy-saving protection method of supersonic imaging apparatus of the present invention and device thereof provide a new Rule of judgment that enters the energy-saving protective state for ultrasonic image-forming system, are promptly adding Rule of judgment " whether ultrasonic probe hangs on the probe hanger of ultrasonic device main frame (being whether user is using ultrasonic probe) " on the Rule of judgment basis of " whether the time of user inoperation keyboard surpasses the time threshold that is provided with ".And must satisfy above two conditions simultaneously the time, the energy-saving protective program could be moved.

Like this, when the doctor needed long-time continuous to use ultrasonic probe, system can not enter the energy-saving protective state yet, thereby made diagnosis interference-free, for user and diagnosis and treatment process provide a great convenience.

Description of drawings

Fig. 1 is the workflow diagram of the energy-saving protection method embodiment one of a kind of supersonic imaging apparatus of the present invention;

Fig. 2 is another workflow diagram of the energy-saving protection method embodiment one of a kind of supersonic imaging apparatus of the present invention;

Fig. 3 is the workflow diagram of the device embodiment one of a kind of energy-saving protection method that uses supersonic imaging apparatus of the present invention;

Fig. 4 is the workflow diagram of the energy-saving protection method embodiment two of a kind of supersonic imaging apparatus of the present invention;

Fig. 5 is another workflow diagram of the energy-saving protection method embodiment two of a kind of supersonic imaging apparatus of the present invention;

Fig. 6 is the workflow diagram of the device embodiment two of a kind of energy-saving protection method that uses supersonic imaging apparatus of the present invention;

Fig. 7 is the workflow diagram of the energy-saving protection method embodiment three of a kind of supersonic imaging apparatus of the present invention;

Fig. 8 is another workflow diagram of the energy-saving protection method embodiment three of a kind of supersonic imaging apparatus of the present invention;

Fig. 9 is the workflow diagram of the device embodiment three of a kind of energy-saving protection method that uses supersonic imaging apparatus of the present invention.

The specific embodiment

In order to make purpose of the present invention, technical scheme and advantage clearer,, the present invention is further elaborated below in conjunction with drawings and Examples.Should be appreciated that specific embodiment described herein only in order to explanation the present invention, and be not used in qualification the present invention.

Specific implementation method of the present invention as shown in Figure 1.Concrete steps are as follows:

101. detection also judges whether detecting head is in running order

If detecting head not in working order, then detects the operational circumstances of keyboard,, then do not enter the energy-saving protective state if detecting head is in running order.

102. judge the operational circumstances of keyboard

If keyboard is operated, then do not enter the energy-saving protective state, if keyboard is operated, judge then whether the operating time does not surpass the Preset Time threshold value to keyboard.

103. judge whether the operating time does not surpass the Preset Time threshold value to keyboard

If keyboard not the operating time surpass the Preset Time threshold value, then enter the energy-saving protective state, if keyboard not the operating time be no more than the Preset Time threshold value, then do not enter the energy-saving protective state.

104. enter the energy-saving protective state

Or,

105. do not enter the energy-saving protective state according to condition

Wherein, detect also and judge whether in running order step can comprise detecting head: with the method for the transmission signal between monitoring detecting head and main frame in real time, or with judge the number of popping one's head on the probe hanger whether with probe socket on the equal method of the ultrasonic probe linking number that is connected detect and judge whether detecting head in running order.

Further, monitor in real time in the method for the transmission signal between detecting head and main frame in described usefulness, can use various softwares that the transmission signal between detecting head and the main frame is monitored in real time, when monitoring when not carrying out signal exchange between detecting head and the main frame, it is not in running order that this is defined as detecting head.

For a better understanding of the present invention among the embodiment with judge the number of popping one's head on the probe hanger whether with probe socket on the method that equates of the ultrasonic probe linking number that is connected detect and judge whether detecting head in running order, with another embodiment the present invention is made detailed description below, please, be specially referring to Fig. 2:

201. judge the ultrasonic probe linking number A that is connected with main frame by host module

When A=0, illustrate that ultrasonic main frame does not connect ultrasonic probe.This moment, initialization system judged directly whether user has operated the keyboard of ultrasonic device, if operated the energy-saving protective state that then do not enter; If not operation keyboard then system continue to judge whether the time of operation keyboard has not surpassed the energy-saving protective time threshold that is provided with to user: then do not enter into the energy-saving protective state if surpass this time threshold value, if then enter the energy-saving protective state above this time threshold value.

When A=1 arrives N (for portable ultrasonic system General N=2, N may be bigger for car-type), illustrate that ultrasonic main frame has connected one or above ultrasonic probe.Judge that by the ultrasonic probe recloser ultrasonic probe of placing on the main frame probe hanger counts B then.

202. whether judge the number B that pops one's head on the probe hanger equates with the ultrasonic probe linking number A that is connected with main frame

When B＜A, illustrate that ultrasonic probe number on the main frame probe hanger is less than the ultrasonic probe number that is connected on the main frame, promptly have the ultrasonic probe that is connected on the main frame to be placed on the outside, think then that user is using ultrasonic probe this moment, and system does not enter the energy-saving protective state;

When B=A, illustrate that ultrasonic probe number on the main frame probe hanger equals to be connected the ultrasonic probe number on the main frame, the ultrasonic probe that promptly has been connected on the main frame all is placed on the main frame probe hanger, then think that user is not using ultrasonic probe this moment, and enter the step of judging whether keyboard is operated.

203. whether judge keyboard operates

System judges whether user has operated the keyboard of ultrasonic device again, if operated the energy-saving protective state that then do not enter.

If operation keyboard system then not, continue then to judge whether the time of operation keyboard has not surpassed the energy-saving protective time threshold of setting to user.

204. judge whether the time of operation keyboard has not surpassed the energy-saving protective time threshold that is provided with to user

Then do not enter into the energy-saving protective state if surpass this time threshold value, then enter the energy-saving protective state if surpass this time threshold value.

205. enter the energy-saving protective state

Or,

206. do not enter guard mode according to condition

The present invention has increased Rule of judgment 2 " whether the ultrasonic probe number of placing on ultrasonic probe linking number and the ultrasonic device probe hanger equates (being whether user is using ultrasonic probe) " when advancing on the energy-saving protective state Rule of judgment basis of " whether the time of user inoperation keyboard surpasses the time threshold that is provided with ".Allow system can not enter the energy-saving protective state in use, have more hommization.

Also in conjunction with the accompanying drawings the device of method correspondence of the present invention is described in further detail below by the above-mentioned specific embodiment.Please, be specially referring to Fig. 3:

Detection module 301 is connected with detecting head or probe hanger, is used to detect the duty of detecting head;

First judge module 302 is connected with detection module 301, is used for judging according to the data of detection module 301 whether detecting head is in running order, and signal is sent to second judge module 303;

Second judge module 303 is connected with first judge module 302 with keyboard, is used for judging the operational circumstances of keyboard when first judge module 302 obtains the not in running order conclusion of detecting head, and signal is sent to the 3rd judge module 304;

The 3rd judge module 304 is connected with second judge module 303, is used for when keyboard is operated, judge keyboard not the operating time whether surpass the Preset Time threshold value, and signal is sent to execution module 305;

Execution module 305 is connected with the 3rd judge module 304, is used for entering the energy-saving protective state when keyboard when the operating time surpasses the Preset Time threshold value.

Wherein, detection module 301 comprises:

Host module 3011 is connected with main frame, is used to judge the ultrasonic probe linking number that connects on the probe socket, and transmits control signal to first judge module 302;

Hanger detecting module 3012 is connected with detecting head or probe hanger, is used to judge the ultrasonic probe number of placing on the main frame probe hanger, and transmits control signal to first judge module 302.

Specific implementation method of the present invention can also adopt following method, and please referring to Fig. 4, concrete steps are as follows:

401. judge the operational circumstances of keyboard

If keyboard is operated, then do not enter the energy-saving protective state, if keyboard is operated, judge then whether the operating time does not surpass the Preset Time threshold value to keyboard.

402. judge whether the operating time does not surpass the Preset Time threshold value to keyboard

If keyboard not the operating time be no more than the Preset Time threshold value, then do not enter the energy-saving protective state,

If keyboard not the operating time surpass the Preset Time threshold value, then detect and judge whether detecting head in running order.

403. detection also judges whether detecting head is in running order

If detecting head not in working order, then enters the energy-saving protective state,, then do not enter the energy-saving protective state if detecting head is in running order.

404. enter the energy-saving protective state

Or,

405. do not enter the energy-saving protective state according to condition

Wherein, detect also and judge whether in running order step can comprise detecting head: with the method for the transmission signal between monitoring detecting head and main frame in real time, or with judge the number of popping one's head on the probe hanger whether with probe socket on the equal method of the ultrasonic probe linking number that is connected detect and judge whether detecting head in running order.

Further, monitor in real time in the method for the transmission signal between detecting head and main frame in described usefulness, can use various softwares that the transmission signal between detecting head and the main frame is monitored in real time, when monitoring when not carrying out signal exchange between detecting head and the main frame, it is not in running order that this is defined as detecting head.

For a better understanding of the present invention among the embodiment with judge the number of popping one's head on the probe hanger whether with probe socket on the method that equates of the ultrasonic probe linking number that is connected detect and judge whether detecting head in running order, with another embodiment the present invention is described below, please referring to Fig. 5, specific implementation method is as follows:

Whether operated the keyboard of ultrasonic device 501. judge user

If operated the energy-saving protective state that then do not enter; If not operation keyboard then system continue to judge whether the time of operation keyboard has not surpassed the energy-saving protective time threshold of setting to user.

502. judge whether the time of operation keyboard has not surpassed the energy-saving protective time threshold that is provided with to user

Then do not enter into the energy-saving protective state if surpass this time threshold value;

Then enter into the step of judging that detecting head is whether in running order if surpass this time threshold value.

503. judge the ultrasonic probe linking number A that is connected with main frame.

When A=0, illustrate that ultrasonic main frame does not connect ultrasonic probe.Directly enter into the energy-saving protective state.

When A=1 arrives N (for portable ultrasonic system General N=2, N may be bigger for car-type), illustrate that ultrasonic main frame has connected one or above ultrasonic probe.Judge that by the ultrasonic probe recloser ultrasonic probe of placing on the main frame probe hanger counts B then.

504. whether judge the number B that pops one's head on the probe hanger equates with the ultrasonic probe linking number A that is connected with main frame

When B＜A, illustrate that ultrasonic probe number on the main frame probe hanger is less than the ultrasonic probe number that is connected on the main frame, promptly have the ultrasonic probe that is connected on the main frame to be placed on the outside, think then that user is using ultrasonic probe this moment, and system does not enter the energy-saving protective state;

When B=A, illustrate that ultrasonic probe number on the main frame probe hanger equals to be connected the ultrasonic probe number on the main frame, the ultrasonic probe that promptly has been connected on the main frame all is placed on the main frame probe hanger, then thinks that user is not using ultrasonic probe this moment.This moment, ultrasonic system entered into the energy-saving protective state.

505. enter the energy-saving protective state

Or,

506. do not enter the energy-saving protective state according to condition

The specific implementation method flow process of present embodiment is: first Rule of judgment " whether the time of operation keyboard does not surpass the time threshold that is provided with to user "; and then Rule of judgment " whether user is using ultrasonic probe "; allow system can not enter the energy-saving protective state in use, have more hommization.

Also in conjunction with the accompanying drawings the device of method correspondence of the present invention is described in further detail below by the above-mentioned specific embodiment.Please, be specially referring to Fig. 6:

First judge module 601 is connected with keyboard, is used to judge the operational circumstances of keyboard, and sends control signals to second judge module 602;

Second judge module 602 is connected with first judge module 601, is used for when keyboard is operated, and judges that whether the operating time does not surpass the Preset Time threshold value, and send control signals to detection module 603 to keyboard;

Detection module 603 is connected with detecting head or probe hanger, is connected with second judge module 602 simultaneously, be used for when keyboard when the operating time is above the Preset Time threshold value, and the duty of detection detecting head, and send control signals to the 3rd judge module 604;

The 3rd judge module 604 is connected with detection module 603, is used for judging according to the data of detection module 603 whether detecting head is in running order, and sends control signals to execution module 605;

Execution module 605 is connected with the 3rd judge module 604, is used for entering the energy-saving protective state when detecting head is not in running order.

Wherein, detection module 603 comprises:

Host module 6031 is connected with main frame, is used to judge the ultrasonic probe linking number that connects on the probe socket, and transmits control signal to the 3rd judge module 604;

Hanger detecting module 6032 is connected with detecting head or probe hanger, is used to judge the ultrasonic probe number of placing on the main frame probe hanger, and transmits control signal to the 3rd judge module 604.

Specific implementation method of the present invention can also adopt following method, and please referring to Fig. 7, concrete steps are as follows:

Whether operate with keyboard 701. detect simultaneously and judge that detecting head is whether in running order

If keyboard is operated, then do not enter the energy-saving protective state, if keyboard is operated, judge then whether the operating time does not surpass the Preset Time threshold value to keyboard;

If detecting head is in running order, then do not enter the energy-saving protective state, if detecting head is not in running order, then forwards to and judge the operating time condition establishment whether simultaneously that surpasses the Preset Time threshold value of the not in running order and keyboard of detecting head.

702. judge whether the operating time does not surpass the Preset Time threshold value to keyboard

If the operating time does not surpass the Preset Time threshold value to keyboard; then do not enter the energy-saving protective state; if keyboard not the operating time surpass the Preset Time threshold value, then forward to and judge the operating time condition establishment whether simultaneously that surpasses the Preset Time threshold value of the not in running order and keyboard of detecting head.

703. judge the not in running order and keyboard of detecting head the operating time condition that surpasses the Preset Time threshold value whether set up simultaneously

If set up simultaneously, then enter the energy-saving protective state, if do not set up simultaneously, then do not enter the energy-saving protective state.

704. enter the energy-saving protective state

Or,

705. do not enter the energy-saving protective state according to condition

Wherein, detect also and judge whether in running order step can comprise detecting head: with the method for the transmission signal between monitoring detecting head and main frame in real time, or with judge the number of popping one's head on the probe hanger whether with probe socket on the equal method of the ultrasonic probe linking number that is connected detect and judge whether detecting head in running order.

Further, monitor in real time in the method for the transmission signal between detecting head and main frame in described usefulness, can use various softwares that the transmission signal between detecting head and the main frame is monitored in real time, when monitoring when not carrying out signal exchange between detecting head and the main frame, it is not in running order that this is defined as detecting head.

For a better understanding of the present invention among the embodiment with judge the number of popping one's head on the probe hanger whether with probe socket on the method that equates of the ultrasonic probe linking number that is connected detect and judge whether detecting head in running order, with another embodiment the present invention is described below, please referring to Fig. 8, each concrete steps of implementation method are as follows:

801. judge the ultrasonic probe linking number A that is connected with main frame

When A=0, illustrate that ultrasonic main frame does not connect ultrasonic probe, enter into step and judge whether above-mentioned two Rule of judgment are set up simultaneously.

When A=1 arrives N (for portable ultrasonic system General N=2, N may be bigger for car-type), illustrate that ultrasonic main frame has connected one or above ultrasonic probe.Judge that by the ultrasonic probe recloser ultrasonic probe of placing on the main frame probe hanger counts B then.

Count B 802. judge the ultrasonic probe of placing on the main frame probe hanger

When B＜A, illustrate that ultrasonic probe number on the main frame probe hanger is less than the ultrasonic probe number that is connected on the main frame, promptly have the ultrasonic probe that is connected on the main frame to be placed on the outside, think then that user is using ultrasonic probe this moment, and system does not enter the energy-saving protective state;

When B=A, illustrate that ultrasonic probe number on the main frame probe hanger equals to be connected the ultrasonic probe number on the main frame, the ultrasonic probe that promptly has been connected on the main frame all is placed on the main frame probe hanger, then thinks that user is not using ultrasonic probe this moment.Enter into step and judge whether above-mentioned two Rule of judgment are set up simultaneously.

803. when judging the ultrasonic probe linking number A that is connected with main frame, judge whether user has operated the keyboard of ultrasonic device

If operated the energy-saving protective state that then do not enter, if not operation keyboard then system continue to judge whether the time of operation keyboard has not surpassed the energy-saving protective time threshold of setting to user.

804. judge whether the time of operation keyboard has not surpassed the energy-saving protective time threshold that is provided with to user

Then do not enter into the energy-saving protective state if surpass this time threshold value, judge whether above-mentioned two Rule of judgment are set up simultaneously if then enter into step above this time threshold value.

805. whether judge above-mentioned two Rule of judgment sets up simultaneously

System does not enter into the energy-saving protective state if do not set up then simultaneously, and system enters into the energy-saving protective state if set up then simultaneously.

806. enter the energy-saving protective state

Or,

807. do not enter the energy-saving protective state according to condition

The specific implementation method flow process of present embodiment is: judge " whether the time of user inoperation keyboard surpasses the time threshold that is provided with " and " whether ultrasonic probe hangs on the probe hanger of ultrasonic device main frame (being whether user is using ultrasonic probe) " simultaneously; allow system can not enter the energy-saving protective state in use, have more hommization.

Also in conjunction with the accompanying drawings the device of method correspondence of the present invention is described in further detail below by the above-mentioned specific embodiment.Please, be specially referring to Fig. 9:

First judge module 901 is connected with keyboard, is used to judge the operational circumstances of keyboard, and sends control signals to second judge module 902;

Second judge module 902 is connected with first judge module 901, is used for when keyboard is operated, and judges that whether the operating time does not surpass the Preset Time threshold value, and send control signals to detection module 903 to keyboard;

Detection module 903 is connected with detecting head or probe hanger, is used to detect the duty of detecting head, and sends control signals to the 3rd judge module 904;

The 3rd judge module 904 is connected with detection module 903, is used for judging according to the data of detection module 903 whether detecting head is in running order, and sends control signals to the 4th judge module 905;

The 4th judge module 905, be connected with the 3rd judge module 904 with second judge module 902, be used to judge the not in running order and keyboard of detecting head the operating time condition that surpasses the Preset Time threshold value whether set up simultaneously, and send control signals to execution module 906;

Execution module 906 is connected with the 4th judge module 905, is used for entering the energy-saving protective state when the not in running order and keyboard of detecting head when the operating time condition that surpasses the Preset Time threshold value is not set up simultaneously.

Wherein, detection module 903 comprises:

Host module 9031 is connected with main frame, is used to judge the ultrasonic probe linking number that connects on the probe socket, and transmits control signal to the 3rd judge module 904;

Hanger detecting module 9032 is connected with detecting head or probe hanger, is used to judge the ultrasonic probe number of placing on the main frame probe hanger, and transmits control signal to the 3rd judge module 904.

The above only is preferred embodiment of the present invention, not in order to restriction the present invention, all any modifications of being done within the spirit and principles in the present invention, is equal to and replaces and improvement etc., all should be included within protection scope of the present invention.

Claims (19)

1. the energy-saving protection method of a supersonic imaging apparatus is characterized in that, comprising:

Detection also judges whether detecting head is in running order, if detecting head is in running order, does not then enter the energy-saving protective state, if detecting head not in working order, then detects the operational circumstances of keyboard;

According to the result of detected keyboard operation situation, judge whether keyboard is operated, if keyboard is operated, then do not enter the energy-saving protective state, if keyboard is operated, judge then whether the operating time does not surpass the Preset Time threshold value to keyboard;

If the operating time does not then enter power save mode above the Preset Time threshold value when keyboard; The operating time does not then enter the energy-saving protective state above the Preset Time threshold value when keyboard.

2. the energy-saving protection method of supersonic imaging apparatus according to claim 1 is characterized in that, describedly judges detecting head in running order comprising whether:

Detect the ultrasonic probe number that is connected with main frame;

Ultrasonic probe number on the detection probe hanger, and judge whether consistently with the detected ultrasonic probe number that is connected with main frame, if consistent, it is not in running order then to be defined as detecting head, if inconsistent, it is in running order then to be defined as detecting head.

3. the energy-saving protection method of supersonic imaging apparatus according to claim 2; it is characterized in that; after the ultrasonic probe number that described detection is connected with main frame, also comprise:, then directly forward to and judge whether keyboard is operated if when to detect the ultrasonic probe number that is connected with main frame be zero.

4. the energy-saving protection method of supersonic imaging apparatus according to claim 1 is characterized in that, describedly judges that detecting head is whether in running order and also comprises:

The real-time transmission signal between monitoring detecting head and main frame, when monitoring when not having the transmission signal between detecting head and main frame, it is not in running order then to be defined as detecting head.

5. according to the energy-saving protection method of claim 3 or 4 described supersonic imaging apparatus, it is characterized in that described energy-saving protective state comprises: the screen protection state.

6. the device of the energy-saving protection method of a use supersonic imaging apparatus as claimed in claim 1 comprises: detecting head, keyboard, probe hanger and main frame, it is characterized in that, and also comprise:

Detection module is connected with detecting head or probe hanger, is used to detect the duty of detecting head;

First judge module is connected with detection module, is used for judging according to the data of detection module whether detecting head is in running order;

Second judge module is connected with first judge module with keyboard, is used for judging the operational circumstances of keyboard when first judge module obtains the not in running order conclusion of detecting head;

The 3rd judge module is connected with second judge module, is used for when keyboard is operated, and judges whether the operating time does not surpass the Preset Time threshold value to keyboard;

Execution module is connected with the 3rd judge module, is used for entering the energy-saving protective state when keyboard when the operating time surpasses the Preset Time threshold value.

7. the device of the energy-saving protection method of use supersonic imaging apparatus according to claim 6 is characterized in that, described detection module comprises: host module, be connected with main frame, and be used to judge total linking number of the ultrasonic probe that is connected with main frame;

The hanger detecting module is connected with detecting head or probe hanger, is used to judge the ultrasonic probe number of placing on the main frame probe hanger.

8. the energy-saving protection method of a supersonic imaging apparatus is characterized in that, comprising:

Detection also judges whether keyboard is operated, if keyboard is operated, does not then enter the energy-saving protective state, if keyboard is operated, judges then whether the operating time surpasses the Preset Time threshold value to keyboard; The operating time is not then detected the duty of detecting head above the Preset Time threshold value when keyboard; Judge the duty of detecting head,,, then do not enter the energy-saving protective state if detecting head is in running order if detecting head not in working order, then enters the energy-saving protective state.

9. the energy-saving protection method of supersonic imaging apparatus according to claim 8 is characterized in that, describedly judges detecting head in running order comprising whether: detect the ultrasonic probe number that is connected with main frame; Ultrasonic probe number on the detection probe hanger, and judge whether consistently with the detected ultrasonic probe number that is connected with main frame, if consistent, it is not in running order then to be judged as detecting head, if inconsistent, it is in running order then to be judged as detecting head.

10. the energy-saving protection method of supersonic imaging apparatus according to claim 9; it is characterized in that; after the ultrasonic probe number that described detection is connected with main frame, also comprise:, then directly forward the energy-saving protective state that enters to if when to detect the ultrasonic probe number that is connected with main frame be zero.

11. the energy-saving protection method of supersonic imaging apparatus according to claim 8; it is characterized in that; describedly judge that detecting head is whether in running order and also comprise: monitor the transmission signal between detecting head and main frame in real time; do not exist transmission during signal between detecting head and main frame when monitoring, it is not in running order then to be defined as detecting head.

12. the device of the energy-saving protection method of a use supersonic imaging apparatus as claimed in claim 8 comprises: detecting head, keyboard, probe hanger and main frame, it is characterized in that, also comprise:

First judge module is connected with keyboard, is used to judge the operational circumstances of keyboard;

Second judge module is connected with first judge module, is used for when keyboard is operated, and judges whether the operating time does not surpass the Preset Time threshold value to keyboard;

Detection module is connected with detecting head or probe hanger, is connected with second judge module simultaneously, is used for when keyboard when the operating time is above the Preset Time threshold value duty of detection detecting head;

The 3rd judge module is connected with detection module, is used for judging according to the data of detection module whether detecting head is in running order;

Execution module is connected with the 3rd judge module, is used for entering the energy-saving protective state when detecting head is not in running order.

13. the device of the energy-saving protection method of use supersonic imaging apparatus according to claim 12 is characterized in that, described detection module comprises: host module, be connected with main frame, and be used to judge total linking number of the ultrasonic probe that is connected with main frame;

The hanger detecting module is connected with detecting head or probe hanger, is used to judge the ultrasonic probe number of placing on the main frame probe hanger.

14. the energy-saving protection method of a supersonic imaging apparatus is characterized in that, comprising:

Detect simultaneously and judge that detecting head is whether in running order and whether operate with keyboard;

If keyboard is operated, then do not enter the energy-saving protective state, if keyboard is operated, judge then whether the operating time does not surpass the Preset Time threshold value to keyboard; Judge the not in running order and keyboard of detecting head not the operating time condition that surpasses the Preset Time threshold value whether set up simultaneously, if set up simultaneously, then enter the energy-saving protective state, if do not set up simultaneously, then do not enter the energy-saving protective state.

15. the energy-saving protection method of supersonic imaging apparatus according to claim 14 is characterized in that, describedly judges detecting head in running order comprising whether: detect the ultrasonic probe number that is connected with main frame; Ultrasonic probe number on the detection probe hanger, and judge whether consistently with the detected ultrasonic probe number that is connected with main frame, if consistent, it is not in running order then to be judged as detecting head, if inconsistent, it is in running order then to be judged as detecting head.

16. the energy-saving protection method of supersonic imaging apparatus according to claim 15; it is characterized in that; after the ultrasonic probe number that described detection is connected with main frame, also comprise: if when detecting the ultrasonic probe number that is connected with main frame and being zero, then directly forward to judge the not in running order and keyboard of detecting head the operating time above the establishment whether simultaneously of the condition of Preset Time threshold value.

17. the energy-saving protection method of supersonic imaging apparatus according to claim 14 is characterized in that, describedly judges that detecting head is whether in running order and also comprises:

The real-time transmission signal between monitoring detecting head and main frame, when monitoring when not having the transmission signal between detecting head and main frame, it is not in running order then to be defined as detecting head.

18. the device as the energy-saving protection method of the use supersonic imaging apparatus of claim 14 comprises: detecting head, keyboard, probe hanger and main frame, it is characterized in that, also comprise:

First judge module is connected with keyboard, is used to judge the operational circumstances of keyboard;

Second judge module is connected with first judge module, is used for when keyboard is operated, and judges whether the operating time does not surpass the Preset Time threshold value to keyboard;

Detection module is connected with detecting head or probe hanger, is used to detect the duty of detecting head;

The 3rd judge module is connected with detection module, is used for judging according to the data of detection module whether detecting head is in running order;

The 4th judge module is connected with the 3rd judge module with second judge module, be used to judge the not in running order and keyboard of detecting head the operating time condition that surpasses the Preset Time threshold value whether set up simultaneously;

Execution module is connected with the 4th judge module, is used for entering the energy-saving protective state when the not in running order and keyboard of detecting head when the operating time condition that surpasses the Preset Time threshold value is not set up simultaneously.

19. the device of the energy-saving protection method of use supersonic imaging apparatus according to claim 18 is characterized in that, described detection module comprises: host module, be connected with main frame, and be used to judge total linking number of the ultrasonic probe that is connected with main frame;

The hanger detecting module is connected with detecting head or probe hanger, is used to judge the ultrasonic probe number of placing on the main frame probe hanger.

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