JP3651265B2 - Low frequency treatment device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a low-frequency treatment device that performs low-frequency treatment by energizing a human body through an electrode attached to the human body with a high-voltage pulse.
[0002]
[Prior art]
A conventional general low-frequency treatment device performs waveform treatment by shaping a boosted high-voltage direct current into a high-voltage pulse, and applying a continuous high-voltage pulse current to an affected part of the human body via an electrode. Further, the stimulation intensity has a volume dial or the like so that the user can change it according to his / her preference.
[0003]
[Problems to be solved by the invention]
However, the conventional low frequency treatment device described above is used when the user operates the volume dial suddenly suddenly, or when the volume dial etc. moves unintentionally by the external force. There was a problem that a strong stimulus was suddenly applied to the person, causing discomfort and danger.
[0004]
Also, in order to avoid the danger, when the amount of fluctuation in strength is large, there are things that gradually increase the strength to reach the target strength, but such as volume dial etc. that the user does not intend Since even a motion is accepted, it is not possible to cope with a person who cannot immediately shift his will to motion, such as an elderly person.
The present invention has been made paying attention to the above-mentioned problems, and when the strength dial moves greatly to the stronger side, the stimulation intensity is not changed or the low frequency treatment device that limits the amount of increase in strength. The purpose is to provide.
[0005]
[Means for Solving the Problems]
The low-frequency treatment device according to claim 1 of the present application is a means for performing low-frequency treatment and adjusting strength by energizing a human body through an electrode attached to the human body with a high-voltage pulse. A means for determining whether or not the strength of the strength adjustment means has moved more than the amount of movement set in the time set in the direction in which the stimulation intensity is increased Means for prohibiting the change of the stimulation intensity when the movement is greater than the amount of movement.
[0006]
The low-frequency treatment device according to claim 2 has a means for performing low-frequency treatment and adjusting strength by energizing the human body through an electrode attached to the human body with a high-voltage pulse. In the above, the means for determining whether or not the strength of the strength adjusting means has moved larger than the movement amount set within the time set in the direction in which the stimulation intensity is increased, and And means for limiting the increase in stimulation strength to a set increase upper limit value when it moves greatly.
[0007]
In these low-frequency treatment devices, if the intensity adjustment means moves greatly within a certain time in the direction in which the stimulation intensity increases, the stimulation intensity is not changed, or the set upper limit of stimulation intensity is set. Therefore, it does not react as it is to the operation of the abrupt strength adjusting means not intended by the user, and it is safe and uncomfortable.
[0008]
Moreover, the low frequency treatment device according to claim 3 has a means for performing low frequency treatment and adjusting strength by energizing the human body through an electrode attached to the human body with a high voltage pulse. In the above, the means for determining whether or not the strength of the strength adjusting means has moved larger than the movement amount set within the time set in the direction in which the stimulation intensity is weakened, and And means for forcing the stimulus strength to zero when it moves greatly.
[0009]
According to this low frequency treatment device, if the intensity adjustment means moves greatly within a certain time in the direction in which the stimulation intensity becomes weak, if the stimulation intensity is set to 0, the user can perform low frequency treatment. If you feel uncomfortable or want to stop the low frequency treatment immediately, if you operate the strength dial quickly in the direction of weakening the stimulus, the strength stimulus can be reduced to 0 with less operation amount than before. .
[0010]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the present invention will be described in more detail with reference to embodiments. FIG. 1 is a plan view of a low frequency treatment device according to an embodiment of the present invention. The low frequency treatment device includes a main body case 1 and electrodes 2 and 3, and the main body case 1 includes a main body portion 4 and a handle portion 5. On the surface of the main part 4, there are a part key such as a shoulder key 6, a waist key 7, a sole key 8, an arm key 9, a leg key 10, a joint key 11, and the like. 14, a key 15 and a power key 16 are provided. A display unit 17 is provided at the center. The handle 5 is provided with an endlessly rotatable strength dial (strength adjusting means) 18 on the right side and a speed dial (speed adjusting means) 19 on the left side. Here, the strength dial 18 can display 0 to 15 levels, and the speed dial 19 can display 1 to 15 levels on the display unit 17.
[0011]
FIG. 2 is a circuit diagram of the low-frequency treatment device according to this embodiment. In terms of circuit, this low frequency treatment device includes a power supply circuit 22 including a battery 21, a booster circuit 23 that boosts the voltage of the power supply circuit 22 to about 100 V, a microcomputer 24, a strength dial 18, a speed dial 19, and the like. operation switch section 25 including the key switch, the transistor Tr _1, Tr _2, ......, applied voltage control unit 26 including the Tr _5, the transistor _{Tr 6, Tr 7, Tr 8} , ......, waveform shaping and outputs including Tr ₁₁ and a current detection unit 28 including the parts 27 and transistor Tr _12,. The electrodes 2 and 3 are connected to the jack 29 of the output unit 27. Signals D ₁ of the microcomputer 24, ..., the state of D _5, the transistors Tr _1, ..., Tr ₅ is ON / OFF, resistor entering parallel to the boosted power supply is switched selected, the electrodes 2 and 3 The applied voltage is adjusted. When the signal D ₅ is output from the microcomputer 24, the transistor Tr ₆ is turned on during that time, and when the signal D ₇ is output, the transistor Tr ₇ is turned on and the jack 29 applies an alternating positive / negative pulse voltage. Is done.
[0012]
Further, the microcomputer 24 reads signals from the strength dial 18 and the speed dial 19 of the operation switch section 25, and the electrode 2 connected to the jack 29 is supplied with a pulse voltage of strength and speed corresponding to the reading. 3 is applied. The signal fetching processing operation from the operation switch unit 25 of the microcomputer 24 will be described with reference to the flowchart shown in FIG.
[0013]
When the power is turned on and the operation starts, the strength is set to 0 (step ST1). In this case, the rotary encoder of the strength dial 18 seems to output some digital value, but the microcomputer 24 treats the value at this point as zero. Next, it is determined whether the strength dial 18 has been turned in the + direction (step ST2). If the operator tries to increase the strength and rotates the strength dial 18 in the + direction, this determination is YES, and the routine proceeds to step ST3, where the dial rotation amount is read. Next, it is determined whether or not the strength dial is suddenly increased greatly by determining whether the dial rotation amount has been rotated more than 5 scales (steps) within 0.5 seconds (step ST4). If the determination in step ST4 is YES, it is determined that there is a rapid increase, the current strength is increased by +5, the value is set as the strength (step ST5), and the strength display (scale) is set at 15 (step ST6). Do not become stronger than 5 scales in one operation, and suppress the strength from becoming extremely large instantly.
[0014]
In the case of determination NO in step ST4, it is assumed that there is no sudden increase, and the rotation scale amount is added to the current strength to obtain a new strength (step ST7), and it is determined whether the strength exceeds 15 ( In step ST8, if YES, the strength is set to 15 (step ST69, return). If NO, return directly to step ST2.
[0015]
If the dial is not turned in the + direction in step ST2, it is subsequently determined whether the dial is turned in the-direction (step ST9). If this determination is also NO, neither of + and-is turned, and therefore it waits for the dial to be turned in steps ST2 and ST9. When the strength dial is turned in the-direction, the determination in step ST9 is YES, and the dial rotation amount is read (step ST10). Then, it is determined whether it has been turned more than 5 scales within 0.5 seconds (step ST11). If the determination is YES, the strength is forcibly set to 0 (step ST12) and the process returns. In the case of determination NO in step ST11, the rotation scale amount is subtracted from the current strength (step ST12), and it is determined whether or not the strength is smaller than zero. If the determination is NO, the process returns to step ST2, and if the determination is YES, the strength is forced to 0 (step ST14), and the process returns to step ST2.
[0016]
【The invention's effect】
According to the first and second aspects of the present invention, when the strength adjusting means moves greatly within a certain time in the direction in which the stimulus strength is increased, the change of the stimulus strength is not changed, or Since it is made to increase only up to the set upper limit of the stimulation intensity, it does not react as it is to the operation of the sudden intensity adjusting means not intended by the user, and it is safe and uncomfortable.
[0017]
Further, according to the invention of claim 3, when the strength adjusting means moves greatly within a certain time in a direction in which the stimulus strength becomes weak, the strength is set to 0. If you feel uncomfortable with low-frequency treatment or want to stop low-frequency treatment immediately, if you operate the surface dial faster in the direction of weakening the stimulus, the intensity stimulation will be less than the conventional one Can be zero.
[Brief description of the drawings]
FIG. 1 is an external plan view of a low frequency treatment device according to an embodiment of the present invention.
FIG. 2 is a circuit diagram showing an internal circuit of the low frequency treatment device according to the embodiment;
FIG. 3 is a flowchart for explaining a processing operation when the strength dial of the low frequency treatment device according to the embodiment is operated.
[Explanation of symbols]
1 Main body case 2, 3 Electrode 5 Handle 18 Strength dial 19 Speed dial

Claims (6)

In a low-frequency treatment device that has a means for adjusting the strength by applying a high-voltage pulse to the human body through an electrode attached to the human body, the strength of the strength adjusting means is strong. Means for determining whether or not the movement has moved larger than the set amount of movement within the set time, and if the movement has moved larger than the set amount of movement, change the stimulation strength. A low-frequency treatment device comprising a prohibiting means. In a low-frequency treatment device that has a means for adjusting the strength by applying a high-voltage pulse to the human body through an electrode attached to the human body, the strength of the strength adjusting means is strong. Means for determining whether or not it has moved more than the set amount of movement within the time set in the direction of increasing the strength, and if it has moved more than the set amount of movement, increase the stimulation strength. And a means for limiting to the set increase upper limit value. In a low-frequency treatment device that has a means for adjusting the strength by applying a high-voltage pulse to the human body through an electrode attached to the human body, the strength of the strength adjusting means is strong. Means for determining whether or not the movement amount is larger than the set movement amount within the time set in the direction of weakening, and when the movement amount is larger than the set movement amount, the stimulation intensity is set to 0. And a means for forcing the low frequency treatment device. The strength adjusting means for adjusting the strength uses a rotary encoder, a digital switch, a pulse switch, or the like for the dial, and varies the stimulus strength according to the amount of movement of the dial. The low frequency treatment device according to claim 2 or claim 3. 4. The low frequency treatment device according to claim 1, further comprising means for forcing the stimulation intensity to zero when the power is turned on and when the treatment mode is changed and selected. 4. The low-frequency treatment device according to claim 1, further comprising means for forcing the stimulation speed to a set initial value when the power is turned on.

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