CN206183808U - Wearable low -frequency pulse therapy equipment - Google Patents
Wearable low -frequency pulse therapy equipment Download PDFInfo
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- CN206183808U CN206183808U CN201620851189.XU CN201620851189U CN206183808U CN 206183808 U CN206183808 U CN 206183808U CN 201620851189 U CN201620851189 U CN 201620851189U CN 206183808 U CN206183808 U CN 206183808U
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- electromyographic signal
- therapy equipment
- frequency electronic
- electrode slice
- wearable low
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Abstract
The utility model provides a wearable low -frequency pulse therapy equipment. Wearable low -frequency pulse therapy equipment include control module and with the electrode slice that control module connects, wherein, control module includes: a controller. Pulse circuit, it passes through the electrode slice is to the position output pulse that will treat, the myoelectric signal acquisition circuit, it passes through the flesh signal of telecommunication is gathered from the position that will treat to the electrode slice, and six acceleration sensor, the motion state at the position that its measurement will be treated, the controller is right the pulse of pulse circuit output is controlled, and right the flesh signal of telecommunication that the myoelectric signal acquisition circuit was gathered and six acceleration sensor measuring measured values are handled. The utility model discloses a wearable low -frequency pulse therapy equipment supports external equipment's direct control, can efficiently assessed treatment result to carry and convenient to use.
Description
Technical field
The utility model is related to medical instruments field, and in particular to a kind of wearable low-frequency electronic therapy equipment.
Background technology
Low-frequency pulse can be used for the treatment of muscular fatigue and pain, using TENS (Transcutaneous
Electrical Nerve Stimulatior) therapy (TCNS therapy) can effectively alleviate the tired of human muscle
Labor and pain.
Existing low frequency pulse therapeutic equipment mostly uses traditional portable or hand-held, when using and inconvenient, and
There is no wireless communication interface, the direct control of external equipment is not supported.In addition, existing low frequency pulse therapeutic equipment is not accounted for yet
To the evaluation to treatment results, it is impossible to learn that the muscle before and after treatment alleviates the reasonability of degree and therapeutic scheme.
Utility model content
For the deficiency in existing low frequency pulse therapeutic equipment, the purpose of this utility model is to provide a kind of wearable low
Frequency pulse therapy equipment, its support external equipment direct control, can effective evaluation treatment results, and carry and user
Just.
To achieve the above object, the utility model provides following technical scheme:
A kind of wearable low-frequency electronic therapy equipment, the wearable low-frequency electronic therapy equipment includes control module
And the electrode slice being connected with the control module, wherein, the control module includes:Controller;Impulse circuit, it passes through institute
State electrode slice and export pulse to the position to be treated;Electromyographic signal collection circuit, it passes through the electrode slice from the portion to be treated
Position collection electromyographic signal;And six-axle acceleration sensor, the motion state at its position to be treated of measurement;The controller pair
The pulse of impulse circuit output is controlled, and electromyographic signal to electromyographic signal collection circuit collection and described
The measured value of six-axle acceleration sensor measurement is processed.
Further, the control module also includes wireless communication module, and the wireless communication module enters with external equipment
Row communication.
Further, the controller in the control module is integrated with the wireless communication module, the radio communication
Module is bluetooth communication.
Further, the front of the electrode slice is disposed with contact for gathering electromyographic signal and for exomonental
Contact, and the back side of the electrode slice gathers the region of electromyographic signal and for exomonental region including being used for, it is described
Contact for gathering electromyographic signal corresponds to the region for gathering electromyographic signal, described for exomonental contact
Corresponding to described for exomonental region, wherein, the impulse circuit by it is described for exomonental contact and
It is described to export pulse to the position to be treated for exomonental region, and wherein, the electromyographic signal collection circuit leads to
Cross the contact for gathering electromyographic signal and described for gathering the region of electromyographic signal from the position to be treated collection
Electromyographic signal.
Further, the electrode slice is coated with electrode slice diaphragm, and the electrode slice is PET electrode slices, described
For gather electromyographic signal contact and it is described for exomonental contact be button-shaped connector contact, it is described for gathering
The region of electromyographic signal and described for being disposed with medical science Signa Gel on exomonental region.
Further, in the range of 2-160Hz, pulse width is between 9-350us for the impulse circuit tranmitting frequency
Bi-directional square wave electric wave.
Further, the electromyographic signal collection circuit includes electromyographic signal collection sensor, analog-digital converter and puts
Big circuit, wherein, the electromyographic signal collection sensor collection electromyographic signal;The myoelectricity letter that the analog-digital converter will be collected into
Number be converted to data signal;The amplifying circuit is adjusted to the data signal after conversion, amplifies and filtering process.
Further, the side of the control module is provided with the first button and the second button, by the first button and second
Button controls startup and shutdown respectively, and adjusts pulse strength.
Further, the control module is equipped with the finger of the state for indicating the wearable low-frequency electronic therapy equipment
Show lamp.
The beneficial effects of the utility model are:
The utility model employs wearable structure, very convenient when carrying and using;And it is wireless with bluetooth etc.
Transmission channel, can be manipulated by external equipments such as mobile phones;Additionally, the utility model also introduces electromyographic signal sensor
And six-axle acceleration sensor, the treatment results of low-frequency pulse can be evaluated by gathering multidimensional data, and then to user
More preferable therapeutic scheme is provided.
Brief description of the drawings
Figure 1A is the overall schematic of wearable low-frequency electronic therapy equipment of the present utility model;
Figure 1B is the front view of wearable low-frequency electronic therapy equipment of the present utility model;
Fig. 1 C are the side view of wearable low-frequency electronic therapy equipment of the present utility model;
Fig. 2 is the structured flowchart of wearable low-frequency electronic therapy equipment of the present utility model;
Fig. 3 is the overall schematic of the control module of wearable low-frequency electronic therapy equipment of the present utility model;
Fig. 4 is the front view of the control module of wearable low-frequency electronic therapy equipment of the present utility model;
Fig. 5 is the side view of the control module of wearable low-frequency electronic therapy equipment of the present utility model;
Fig. 6 is the top view of the control module of wearable low-frequency electronic therapy equipment of the present utility model;
Fig. 7 is the rearview of the control module of wearable low-frequency electronic therapy equipment of the present utility model;
Fig. 8 is the front schematic view of the electrode slice of wearable low-frequency electronic therapy equipment of the present utility model;
Fig. 9 is the schematic rear view of the electrode slice of wearable low-frequency electronic therapy equipment of the present utility model.
Wherein, reference is as follows:
1 control module;
2 electrode slices;
3 electrode slice diaphragms;
4 first buttons;
5 second buttons.
Specific embodiment
Below, referring to the drawings, the utility model is done by specific embodiment and is further described in detail.Following examples
Only it is exemplary, and is in no way intended to limit the utility model.
Figure 1A to Fig. 1 C be the overall schematic of wearable low-frequency electronic therapy equipment of the present utility model, front view and
Side view.Wearable low-frequency electronic therapy equipment of the present utility model can serve as the slow pain patch of intelligence.
As shown in Figure 1A, wearable low-frequency electronic therapy equipment of the present utility model includes control module 1 and electrode slice
2, control module 1 is for example connected with electrode slice 2 by button-shaped form.
Fig. 2 is the structured flowchart of wearable low-frequency electronic therapy equipment of the present utility model.As shown in Fig. 2 the control
Molding block 1 includes controller 101, impulse circuit 102, electromyographic signal collection circuit 103, six-axle acceleration sensor 104, above-mentioned
Each part is connected by bus 105.The electrode slice 2 is coated with electrode slice diaphragm 3.
Additionally, Fig. 3 to Fig. 7 respectively illustrates the control module of wearable low-frequency electronic therapy equipment of the present utility model
Overall schematic, front view, side view, top view and rearview.
Preferably, the control module 1 in wearable low-frequency electronic therapy equipment of the present utility model can also include nothing
Line communication module, the wireless communication module can be bluetooth communication.
The controller 101 integrally controls wearable low-frequency electronic therapy equipment of the present utility model.Specifically,
The control impulse circuit 102 of the controller 101 exports corresponding treatment pulse, and to the axle of electromyographic signal collection circuit 103 and six
The signal that acceleration transducer 104 is collected is processed, and the result according to controller 101 can be carried out to treatment results
Evaluate.In addition, the controller 101 can be integrated with the wireless communication module, for example controller 101 can use low work(
The CPU of consumption kernel and blue tooth integrated, radio communication is realized by Bluetooth communication.Thus, via wireless communication, can be with
Equipment of the present utility model is manipulated by external equipment.For example, can be in the portable terminal of mobile phone etc.
Corresponding APP is installed, equipment of the present utility model is controlled by APP, the pulse that such as control device is launched
Frequency, width and waveform etc..
The tranmitting frequency of the impulse circuit 102 in the range of 2-160Hz, bidirectional square of the pulse width between 9-350us
Ripple electric wave.Certain low-frequency electrical stimulation pulse, can activate the morphine peptidergic nerves unit of intracerebral, cause endogenous morphine sample many
The release of peptide and produce analgesic effect.
The electromyographic signal collection circuit 103 gathers the electromyographic signal at position to be treated by electrode slice 1, and by after treatment
Electromyographic signal output to controller 101.The electromyographic signal collection circuit 103 includes electromyographic signal collection sensor, modulus
Converter and amplifying circuit.The electromyographic signal collection sensor collection electromyographic signal, specifically, collects human skin
Myoelectricity tranquillization voltage.It is uV ranks because the myoelectricity tranquillization voltage of human skin is very faint, this signal is believed for simulation
Number, so need to be converted to data signal could be used as the accessible signal of controller 101 and data.The analog-digital converter will
The electromyographic signal being collected into is converted to data signal, specifically, can turn digital signal chip (for example using high speed analog signal
AD8221).The amplifying circuit is adjusted to data signal, amplifies and filtering process.The size of electromyographic signal is depended on
The activity of measured muscle.The size of the activity according to muscle is that the muscle before and after evaluable treatment alleviates degree.
The six-axle acceleration sensor 104 measures the motion state at the position to be treated, for example, can measure muscle and exist
The acceleration and angular speed on three axles (that is, X-axis, Y-axis, Z axis) in three Cartesian coordinates, and the survey that will be measured
Controller 101 is arrived in value output.Acceleration and angular speed on the one hand can characterize human body dynamic action and behavior is changed over time
Speed and space motion path, on the other hand can characterize human body static behavior and action incline relative to the angle of reference planes
Oblique degree.The speed and angle of the action under fatigue state are measured under the same demonstration movement by user, with standard without
The speed of the action under debilitating pain state and the numerical value of angle are compared to judge the improvement situation before and after treatment.
As shown in Figure 8 and Figure 9, the electrode slice 2 of wearable low-frequency electronic therapy equipment respectively of the present utility model
Front schematic view and schematic rear view.The front (face being connected with control module 1) of electrode slice 2 is disposed with collection electromyographic signal
Contact and exomonental contact, and the back side (with the face for wanting therapentic part to contact) of electrode slice 2 includes collection electromyographic signal
Region and exomonental region, gather electromyographic signal contact correspond to collection electromyographic signal region, it is exomonental
Contact corresponds to exomonental region, to gather and be disposed with medical science conduction electrocoagulation on the region and exomonental region of electromyographic signal
Glue.In the present embodiment, the electrode slice 2 is rectangular 4 contact PET electrode slices, specific as shown in figure 8, in electrode slice 2
In, the front of electrode slice 2 is disposed with 2 contact As and B for gathering electromyographic signal, is button-shaped connector contact, the two contacts
The medical science Signa Gel of two pieces of circles in corresponding to Fig. 9, medical science Signa Gel is fitted with human body skin when using, and this region is used
In collection electromyographic signal;The front of electrode slice 2 there also is provided 2 exomonental contact C and D, be button-shaped connector contact,
The two contacts correspond to two pieces of square medical science Signa Gels with rounded corners in Fig. 9, medical science Signa Gel and people when using
Body skin attachement, it for exomonental region and the muscle area that is covered is effective treatment area that this region is.Wherein,
The contact and exomonental contact of electromyographic signal are gathered, and the region and exomonental region of collection electromyographic signal do not limit
In the quantity being described in detail above, and it can be other quantity.Electrode slice 2 has minimum conductive resistance, and electric conductivity is good
It is good, and can preferably fit human body skin and grain of meat, it is ensured that equipment of the present utility model and the stickiness of human body, enter
And more effectively treated and gathered signal.
Specifically, wherein, the impulse circuit 102 is by exomonental contact and exomonental region to will
The position output pulse for the treatment of, and wherein, the electromyographic signal collection circuit 103 by gather electromyographic signal contact and
The region for gathering electromyographic signal gathers electromyographic signal from the position to be treated.
In addition, as shown in Figure 1A and Fig. 5, the side of the control module 1 is also provided with the first button 4 and the second button
5, startup and shutdown are controlled by the first button 4 and the second button 5 respectively, and adjust pulse strength.
In addition, as shown in fig. 6, the control module 1 can also be equipped with indicator lamp, to indicate wearable low-frequency pulse to control
Each state for the treatment of equipment.For example, upon power-up, indicator lamp can be lighted;When myalgia is extenuated, indicator lamp can frequency
Dodge;When shutdown, indicator lamp can be closed.
In summary, wearable low-frequency electronic therapy equipment volume of the present utility model is extra small and power consumption is ultralow, portable
Property and operability are superior, can be widely used for extenuating muscular fatigue and myalgia.
Wearable low-frequency electronic therapy equipment of the present utility model is when in use:
First, wearable low-frequency electronic therapy equipment is affixed on the position to be treated by electrode slice diaphragm 3 of tearing;
Second, length is started shooting by the first button 4, when equipment of the present utility model is in open state, opens external equipment
The APP installed in (such as mobile phone portable terminal), equipment can be set up with external equipment automatically by wireless communication module and be connected,
State in being controlled by external equipment;
3rd, the intensity of impulse ejection is automatically or manually controlled by APP, continue 20~30 minutes;During this period, control
The control impulse circuit 102 of device 101 exports corresponding pulse;Electromyographic signal collection circuit 103 gathers electromyographic signal, and by after treatment
Electromyographic signal output to controller 101;Six-axle acceleration sensor 104 measures three of muscle in three Cartesian coordinates
Acceleration and angular speed on individual axle, and controller 101 is arrived in the measured value output that will be measured;Controller 101 pairs is received
Signal processed, for subsequent evaluation;
4th, using finishing, by the shutdown of wearable low-frequency electronic therapy equipment.
In addition, wearable low-frequency electronic therapy equipment of the present utility model can also be not connected to external equipment, and it is direct
The regulation for being increased and being weakened by the first button 4 and the versus pulse strength of the second button 5.
In use, the muscle before and after the data by collecting can be treated with effective evaluation is alleviated degree and is controlled
The reasonability for the treatment of scheme.
Wearable low-frequency electronic therapy equipment of the present utility model is when evaluating treatment results:Work as contraction of muscle
Produce length shortening and tension force increase when, neuromuscular is adjusted by the granting rate of the recruitment of moving cell and moving cell
Both mechanism are made to be controlled.Myocyte keeps relative stability state in tranquillization environment, and its resting potential is about 10-
100uV, now referred to as polarized state.When the stimulated generation excitation time of myocyte, the cell membrane resting potential is subject to neighbouring sodium potassium
The transmembrane movement influence of ion causes ion to change, and produces end plate potential.Myoelectricity is gathered by electromyographic signal collection circuit 103 to believe
Number, the excited intensity of its performance muscle, that is, end plate potential amplitude, and then to differentiate muscle in debilitating pain state and control
Loosen the degree of having an effect under two states after treatment, as one of foundation for evaluating treatment results.Sensed according to six-axle acceleration again
The measurement that device 104 passes through action recognition, i.e. motion state, calculates user and does same in debilitating pain and under loosening two states
Speed of actions and movement range under demonstration movement aid in electromyographic signal to judge treatment results together.
Although being described to the utility model with reference to exemplary embodiment, but it is to be understood that the utility model is not
It is limited to disclosed exemplary embodiment.Explanation most wide should be given to scope of the following claims, so that it covers institute
There are these modified examples and equivalent 26S Proteasome Structure and Function.
Claims (9)
1. a kind of wearable low-frequency electronic therapy equipment, it is characterised in that:The wearable low-frequency electronic therapy equipment bag
Control module and the electrode slice being connected with the control module are included, wherein, the control module includes:
Controller;
Impulse circuit, it exports pulse by the electrode slice to the position to be treated;
Electromyographic signal collection circuit, it gathers electromyographic signal by the electrode slice from the position to be treated;And
Six-axle acceleration sensor, the motion state at its position to be treated of measurement;
The controller is controlled to the pulse that the impulse circuit is exported, and to electromyographic signal collection circuit collection
Electromyographic signal and the measured value of six-axle acceleration sensor measurement are processed.
2. wearable low-frequency electronic therapy equipment according to claim 1, it is characterised in that:
The control module also includes wireless communication module, and the wireless communication module is communicated with external equipment.
3. wearable low-frequency electronic therapy equipment according to claim 2, it is characterised in that:
Controller in the control module is integrated with the wireless communication module, and the wireless communication module is Bluetooth communication
Module.
4. wearable low-frequency electronic therapy equipment according to claim 1, it is characterised in that:
The front of the electrode slice is disposed with contact for gathering electromyographic signal and for exomonental contact, and described
The back side of electrode slice includes region for gathering electromyographic signal and for exomonental region, described for gathering myoelectricity letter
Number contact correspond to the region for gathering electromyographic signal, it is described to correspond to described being used for for exomonental contact
Exomonental region,
Wherein, the impulse circuit by it is described for exomonental contact and it is described for exomonental region to will
The position output pulse for the treatment of, and
Wherein, the electromyographic signal collection circuit is by the contact for gathering electromyographic signal and described for gathering flesh
The region of electric signal gathers electromyographic signal from the position to be treated.
5. wearable low-frequency electronic therapy equipment according to claim 4, it is characterised in that:
The electrode slice is coated with electrode slice diaphragm, and the electrode slice is PET electrode slices, described for gathering myoelectricity letter
Number contact and it is described for exomonental contact be button-shaped connector contact, the region for gathering electromyographic signal
With described for being disposed with medical science Signa Gel on exomonental region.
6. wearable low-frequency electronic therapy equipment according to claim 1, it is characterised in that:
The impulse circuit tranmitting frequency in the range of 2-160Hz, bi-directional square wave electric wave of the pulse width between 9-350us.
7. wearable low-frequency electronic therapy equipment according to claim 1, it is characterised in that:
The electromyographic signal collection circuit includes electromyographic signal collection sensor, analog-digital converter and amplifying circuit,
Wherein, the electromyographic signal collection sensor collection electromyographic signal;The electromyographic signal that the analog-digital converter will be collected into
Be converted to data signal;The amplifying circuit is adjusted to the data signal after conversion, amplifies and filtering process.
8. wearable low-frequency electronic therapy equipment according to claim 1, it is characterised in that:
The side of the control module is provided with the first button and the second button, is controlled out respectively by the first button and the second button
Machine and shutdown, and adjust pulse strength.
9. wearable low-frequency electronic therapy equipment according to claim 1, it is characterised in that:
The control module is equipped with the indicator lamp of the state for indicating the wearable low-frequency electronic therapy equipment.
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CN201620851189.XU CN206183808U (en) | 2016-08-08 | 2016-08-08 | Wearable low -frequency pulse therapy equipment |
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CN201620851189.XU CN206183808U (en) | 2016-08-08 | 2016-08-08 | Wearable low -frequency pulse therapy equipment |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106669029A (en) * | 2016-08-08 | 2017-05-17 | 北京新云医疗科技有限公司 | Wearable low frequency pulse treatment device and control method thereof |
CN109481011A (en) * | 2018-11-02 | 2019-03-19 | 深圳可思美科技有限公司 | Anti-scald method and device based on equipment moving state |
-
2016
- 2016-08-08 CN CN201620851189.XU patent/CN206183808U/en active Active
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106669029A (en) * | 2016-08-08 | 2017-05-17 | 北京新云医疗科技有限公司 | Wearable low frequency pulse treatment device and control method thereof |
CN109481011A (en) * | 2018-11-02 | 2019-03-19 | 深圳可思美科技有限公司 | Anti-scald method and device based on equipment moving state |
CN109481011B (en) * | 2018-11-02 | 2020-07-03 | 深圳可思美科技有限公司 | Anti-scald method and device based on equipment motion state |
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