CN204017152U - Transcutaneous electric nerve stimulation device - Google Patents
Transcutaneous electric nerve stimulation device Download PDFInfo
- Publication number
- CN204017152U CN204017152U CN201420442590.9U CN201420442590U CN204017152U CN 204017152 U CN204017152 U CN 204017152U CN 201420442590 U CN201420442590 U CN 201420442590U CN 204017152 U CN204017152 U CN 204017152U
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- output unit
- unit
- nerve stimulation
- electrically connected
- stimulation device
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Abstract
A kind of transcutaneous electric nerve stimulation device, connect with plugging for a tactile device of subsides, and provide electric current to touch device to these subsides, these subsides are touched device and are comprised multiple electrode patch, and two electrode probes.This transcutaneous electric nerve stimulation device comprise a housing unit in vacuum shape, one be arranged in order to provide the power subsystem of power supply, to be multiplely arranged at the output unit be electrically connected in this housing unit and with this power subsystem at intervals in this housing unit, and one wears this housing unit and the control unit be electrically connected with described output unit.This control unit comprises multiple intensity adjustment knob be electrically connected with described output unit respectively, and each intensity adjustment knob distinctly can control the intensity of each output unit electric current, and therefore user can adjust for the demand of different affected part, lifting operation convenience.
Description
Technical field
This utility model relates to a kind of electrical stimulation device, particularly relates to a kind of for stimulating the electrical stimulation device of nerve.
Background technology
Electrical stimulating therapy stimulates specific acupoint, nerve by the electric current of suitable intensity and frequency, or muscle produces coffee in brain with exciting human, so as to producing a kind of therapeutic modality of suppression or pain of releiving, owing to being almost free from side effects, therefore be widely used in naturopathy field, also there is effect of health care massage.Be affected part is placed between two opposite electrodes during treatment, then make affected part be energized to treat, or be attached at affected part with electrode patch and treat with conductive electric current.
Consulting Fig. 1, is an existing transcutaneous electric nerve stimulation device 1, connects, and provide electric current to touch device 2 to these subsides with plugging for a tactile device 2 of subsides.This transcutaneous electric nerve stimulation device 1 comprises a housing unit 11, the power subsystem 12, be arranged in this housing unit 11 and to be arranged in this housing unit 11 and to be electrically connected with this power subsystem 12 and can the output unit 13 of output current controllably, and one to be arranged on this housing unit 11 and control unit 14 in order to control this output unit 13.
This output unit 13 comprises two and longitudinally arranges and the first outfan 131 wearing this housing unit 11, and four horizontal arranged and wear the second outfan 132 of this housing unit 11.Described first outfan 131 is respectively contrary electrode, and described second outfan 132 is identical electrode.This control unit 14 comprises one and is arranged on this housing unit 11 in order to control the intensity adjustment knob 141 of this output unit 13, one to be arranged on this housing unit 11 at intervals with this intensity adjustment knob 141 and frequency adjustment knob 142 in order to control this output unit 13, one to be arranged on this housing unit 11 at intervals with this frequency adjustment knob 142 and sensitivity adjustment knob 143 in order to control this output unit 13, one to be arranged on this housing unit 11 at intervals with this sensitivity adjustment knob 143 and amplitude adjustment knob 144 in order to control this output unit 13, and one to be arranged on this housing 11 and the phase place adjustment knob 145 be positioned at above described first outfan 131.These subsides are touched device 2 and are comprised the electrode probe 21 that two are inserted in described first outfan 131 respectively, and multiple electrode patch 22 being inserted in described second outfan 132 respectively.
This transcutaneous electric nerve stimulation device 1 supplies power supply by this power subsystem 12, and via this output unit 13, the electric current after conversion is exported to the subsides be attached on human body and touches device 2, such as described electrode probe 21 is adhered on the two ends of affected part, or wherein one or more electrode patchs 22 are affixed on affected part, to reach the effect providing electrotherapy, and adjust the intensity of this output unit 13 output currents, frequency, sensitivity, amplitude and phase place by this control unit 14.
User uses multiple electrode patch 22 carrying out often having the course for the treatment of simultaneously, or described electrode patch 22 of being arranged in pairs or groups by described electrode probe 21 is used in the demand of different affected part, but this transcutaneous electric nerve stimulation device 1 only has an output unit 13, the electric current making this control unit 14 only simultaneously can adjust described first outfan 131 and described second outfan 132 to export, but the electric current that described first outfan 131 and described second outfan 132 export cannot be adjusted severally, therefore the intensity of galvanism can not be adjusted according to the demand of different affected part and impression, very inconvenient.
Summary of the invention
The purpose of this utility model is to provide a kind of demand according to different affected part and impression to adjust the transcutaneous electric nerve stimulation device of the intensity of galvanism respectively.
This utility model transcutaneous electric nerve stimulation device, connect with plugging for a tactile device of subsides, and provide electric current to touch device to these subsides, these subsides are touched device and are comprised multiple electrode patch, and two electrode probes.This transcutaneous electric nerve stimulation device comprises: housing unit in hollow form, one be arranged in order to provide the power subsystem of power supply, to be multiplely arranged at the output unit be electrically connected in this housing unit and with this power subsystem at intervals in this housing unit, and one wears this housing unit and the control unit be electrically connected with described output unit.Each output unit can transfer the electric current that this power subsystem provides to required output current controllably.This control unit comprises multiple intensity adjustment knob be electrically connected with described output unit respectively, and each intensity adjustment knob distinctly can control the intensity of each output unit electric current.
The purpose of this utility model and solve its technical problem and also can be applied to the following technical measures to achieve further.
Preferably, aforementioned transcutaneous electric nerve stimulation device, the frequency adjustment knob be electrically connected with described output unit while that wherein this control unit also comprising, this frequency adjustment knob controls the frequency of described output unit output current simultaneously.
Preferably, aforementioned transcutaneous electric nerve stimulation device, wherein this control unit also comprises multiple frequency adjustment knob be electrically connected with described output unit respectively, and each frequency adjustment knob distinctly can control the frequency of each output unit output current.
Preferably, aforementioned transcutaneous electric nerve stimulation device, the mode adjustment button be electrically connected with described output unit while that wherein this control unit also comprising, this mode adjustment button controls the phase place of described output unit output current simultaneously.
Preferably, aforementioned transcutaneous electric nerve stimulation device, wherein this control unit also comprises multiple mode adjustment button be electrically connected with described output unit respectively, and each mode adjustment button distinctly can control the phase place of each output unit output current.
Preferably, aforementioned transcutaneous electric nerve stimulation device, wherein each output unit comprises the first outfan that one of them electrode patch that can these subsides be supplied to touch device plugs electrical connection.
Preferably, aforementioned transcutaneous electric nerve stimulation device, it is contrary that one of them output unit also comprises two electrodes, and the described electrode probe that can these subsides be supplied to touch device plugs the second outfan of electrical connection respectively.
Preferably, aforementioned transcutaneous electric nerve stimulation device, wherein this power subsystem comprises a power supply unit, a side and the wire ends be electrically connected with this power supply unit being arranged at this housing unit, and a bottom surface and the battery holder be electrically connected with this power supply unit being arranged at this housing unit, this wire ends is in order to connect ac power cord, and this battery holder is in order to put battery to provide this power supply unit power supply.
The beneficial effects of the utility model are: by the described intensity adjustment knob of this control unit, distinctly can control the intensity of described output unit institute output current, therefore user can adjust for the demand of different affected part, lifting operation convenience.
Accompanying drawing explanation
Fig. 1 is an axonometric chart, and an existing transcutaneous electric nerve stimulation device is described;
Fig. 2 is an axonometric chart, and an embodiment of this utility model transcutaneous electric nerve stimulation device is described;
Fig. 3 is a upward view, aid illustration Fig. 2;
Fig. 4 is a front view, aid illustration Fig. 2;
Fig. 5 is an axonometric chart, illustrates in this embodiment, plugs the state of two electrode probes; And
Fig. 6 is an axonometric chart, illustrates in this embodiment, plugs the state of two electrode patchs.
Detailed description of the invention
Below in conjunction with drawings and Examples, this utility model is described in detail.
Consult Fig. 2, for an embodiment of this utility model transcutaneous electric nerve stimulation device 3, comprise a housing unit 31, in hollow form to be arranged in order to provide the power subsystem 32, four of power supply to be arranged at intervals in this housing unit 31 and the output unit 33 be electrically connected with this power subsystem 32 in this housing unit 31, and one wears this housing unit 31 and the control unit 34 be electrically connected with described output unit 33.
Consult Fig. 2 and Fig. 3, this power subsystem 32 comprises a power supply unit 321, and is arranged at the side of this housing unit 31 and the wire ends 322 be electrically connected with this power supply unit 321, and a bottom surface and the battery holder 323 be electrically connected with this power supply unit 321 being arranged at this housing unit 31.This wire ends 322 connects ac power cord, and this battery holder 323 puts battery, to provide this power supply unit 321 power supply.
Consult Fig. 2 and Fig. 4, each output unit 33 comprises first outfan 331, and described first outfan 331 electrode is identical, and is transversely spaced.One of them output unit 33 also comprises the second contrary outfan 332 of two electrodes, and described second outfan 332 is longitudinally spaced, and with the first outfan 331 of this output unit 33 separately.Be electrically connected the frequency adjustment knob 342 of the power frequency controlling described output unit 33 while that this control unit 34 comprising four intensity adjustment knobs be electrically connected with described output unit 33 respectively 341, with described output unit 33, and be electrically connected the mode adjustment button 343 of the current phase controlling described output unit 33 with described output unit 33 while of one.Each intensity adjustment knob 341 is longitudinally spaced with the first outfan 331 of corresponding output unit 33.
Consult Fig. 5 and Fig. 6, this transcutaneous electric nerve stimulation device 3 can paste tactile device 4 for one and plug connection, and these subsides are touched device 4 and comprised two electrode probes 41, and multiple electrode patch 42.One of them electrode probe 41 is inserted on one of them second outfan 332 of this output unit 33, another electrode probe 41 depending on splicing ear kind and another second outfan 332 of this output unit 33 can be inserted in, or to be inserted in as illustrated in fig. 5 on the first outfan 331 of one of them output unit 33.Described electrode patch 42 can be inserted on the first outfan 331 of described output unit 33 as illustrated in fig. 6 respectively.The current intensity that described output unit 33 exports distinctly can be controlled by described intensity adjustment knob 341, again the electric current after adjustment is delivered on corresponding electrode probe 41 and electrode patch 42, with the demand according to user, intensity different course for the treatment of is carried out to different affected parts, and further Current Regulation can be done to described output unit 33 by this frequency adjustment knob 342 and this mode adjustment button 343.
What needs further illustrated is, the quantity of this frequency adjustment knob 342 and mode adjustment button 343 also can be four, and the frequency and the pattern that distinctly control described output unit 33 output currents is connected respectively with described output unit 33, also can set up in order to control the described current amplitude of output unit 33 and the adjustment knob of sensitivity simultaneously or distinctly, not as limit.
In sum, the intensity of described output unit 33 output currents distinctly can be controlled by described intensity adjustment knob 341, to carry out intensity different course for the treatment of to the different affected part of impression, and coordinate this frequency adjustment knob 342 and this mode adjustment button 343 to adjust frequency and the phase place of electric current further, and the convenience of lifting operation, so really the purpose of this utility model can be reached.
Claims (8)
1. a transcutaneous electric nerve stimulation device, connect with plugging for a tactile device of subsides, and provide electric current to touch device to these subsides, these subsides are touched device and are comprised multiple electrode patch, and two electrode probes, this transcutaneous electric nerve stimulation device comprises a housing unit in hollow form, and one is arranged in this housing unit in order to provide the power subsystem of power supply, it is characterized in that: this transcutaneous electric nerve stimulation device also comprises multiple being arranged at intervals in this housing unit and the output unit be electrically connected with this power subsystem, and one wears this housing unit and the control unit be electrically connected with described output unit, each output unit can transfer the electric current that this power subsystem provides to required output current controllably, this control unit comprises multiple intensity adjustment knob be electrically connected with described output unit respectively, each intensity adjustment knob distinctly can control the intensity of each output unit electric current.
2. transcutaneous electric nerve stimulation device as claimed in claim 1, is characterized in that: the frequency adjustment knob be electrically connected with described output unit while that this control unit also comprising, this frequency adjustment knob controls the frequency of described output unit output current simultaneously.
3. transcutaneous electric nerve stimulation device as claimed in claim 1, it is characterized in that: this control unit also comprises multiple frequency adjustment knob be electrically connected with described output unit respectively, and each frequency adjustment knob distinctly can control the frequency of each output unit output current.
4. transcutaneous electric nerve stimulation device as claimed in claim 1, is characterized in that: the mode adjustment button be electrically connected with described output unit while that this control unit also comprising, this mode adjustment button controls the phase place of described output unit output current simultaneously.
5. transcutaneous electric nerve stimulation device as claimed in claim 1, it is characterized in that: this control unit also comprises multiple mode adjustment button be electrically connected with described output unit respectively, and each mode adjustment button distinctly can control the phase place of each output unit output current.
6. transcutaneous electric nerve stimulation device as claimed in claim 1, is characterized in that: each output unit comprises the first outfan that one of them electrode patch that can touch device for these subsides plugs electrical connection.
7. transcutaneous electric nerve stimulation device as claimed in claim 1, is characterized in that: it is contrary that one of them output unit of described output unit also comprises two electrodes, and the described electrode probe that can touch device for these subsides plugs the second outfan of electrical connection respectively.
8. transcutaneous electric nerve stimulation device as claimed in claim 1, it is characterized in that: this power subsystem comprises a power supply unit, a side and the wire ends be electrically connected with this power supply unit being arranged at this housing unit, and a bottom surface and the battery holder be electrically connected with this power supply unit being arranged at this housing unit, this wire ends is in order to connect ac power cord, and this battery holder is in order to put battery to provide this power supply unit power supply.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201420442590.9U CN204017152U (en) | 2014-08-07 | 2014-08-07 | Transcutaneous electric nerve stimulation device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201420442590.9U CN204017152U (en) | 2014-08-07 | 2014-08-07 | Transcutaneous electric nerve stimulation device |
Publications (1)
Publication Number | Publication Date |
---|---|
CN204017152U true CN204017152U (en) | 2014-12-17 |
Family
ID=52057068
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201420442590.9U Expired - Fee Related CN204017152U (en) | 2014-08-07 | 2014-08-07 | Transcutaneous electric nerve stimulation device |
Country Status (1)
Country | Link |
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CN (1) | CN204017152U (en) |
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2014
- 2014-08-07 CN CN201420442590.9U patent/CN204017152U/en not_active Expired - Fee Related
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20141217 Termination date: 20200807 |