JP2005065732A - Low-frequency therapy apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a low-frequency therapy apparatus with which safety is secured by limiting the strength of stimuli applied by thermotherapy and electrotherapy, and the therapy meeting a demand of a patient can be performed. <P>SOLUTION: A heating section generates two or more kinds of heat with different operating temperatures and electric stimulation in a range not to overstimulate is applied based on an exothermic setting condition of the heating section, so that a user can freely instruct the heating, and based on the exothermic setting condition of the heating section following the instruction, the operation such as that the electric stimulation and the heating operate simultaneously, the electric stimulation and the heating operate alternatively, a part of the electric stimulation and the heating operate simultaneously, and the intensity of the electric stimulation changes can be performed to follow the instruction of the user as much as possible, so that the excess stimulation is prevented and the safety is secured. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention includes a treatment element having a heat generation part that generates heat and a conductor part that applies electrical stimulation, and a treatment signal generation part that generates a treatment signal in the heat generation part and the conductor part of the treatment element. The present invention relates to a low-frequency treatment device, and more particularly, to a low-frequency treatment device in which heat generation of a heat generating portion and electrical stimulation of a conductor portion do not become excessive.
[0002]
[Prior art]
A conventional low frequency treatment device is disclosed in Japanese Patent No. 3113383, and will be described below with reference to FIG. In this conventional low frequency treatment device, a selection is made to select a thermal mode in which only the heat generation control circuit 161a for controlling the heating element 181a of the therapeutic conductor is operated, and a combined mode in which the heat generation control circuit 161a and the treatment current generation circuit 161b are operated. And a control circuit 161c for reducing the amount of heat generated by the heating element 181a when selecting the combination mode, compared to when selecting the thermal mode. As described above, according to the conventional low-frequency treatment, the heating element 181a generates heat when the heating mode is selected. In this heating mode, the heating element 181a generates a large amount of heat, and the treatment lead 180 becomes relatively high in temperature. When the combination mode is selected, the thermal treatment by the heat generation of the heating element 181a and the electric treatment by the treatment current are performed at the same time, and a high therapeutic effect is obtained by the synergistic effect. Since the calorific value of the body 181a is reduced, the synergistic effect between the thermal treatment and the electric treatment does not become too strong.
[0003]
[Patent Property 1] Japanese Patent No. 3113383
[0004]
[Problems to be solved by the invention]
As described above, since the conventional low frequency treatment device is configured, there is a thermal mode and a combined mode, and in the thermal mode in which the heating element of the treatment lead is used alone, the calorific value is high, and the calorific value of this thermal mode If the electrical treatment with the treatment current is performed at the same time, the stimulation becomes too strong for the user and lacks completeness.Therefore, when the thermal treatment with fever and the electrical treatment with the treatment current are performed at the same time, By reducing the calorific value, it prevents the stimulation from becoming too strong, but some people feel the hyperthermia stimulation strong and the electrotherapy stimulation weak, and some thermotherapy stimulation. The patient feels weak and strongly feels the stimulation of the electrotherapy, and the heat treatment by the fever and the electrotherapy with the treatment current are different for each person, and the calorific value is simply reduced. Only method that has the problem that it is difficult to provide a stimulus is not too strong treatment in all of the user. In addition, usually, the user is provided with a means of changing the strength of the electric treatment by the treatment current, and the calorific value is not sufficiently lowered when the user enters the combination mode when receiving a strong electric treatment. If the stimulation given by the thermotherapy and electric therapy is too strong, or if the thermotherapy and electrotherapy are being received in the combination mode, the strength of the electrotherapy by the treatment current can be reduced by means of changing the intensity of the electrotherapy. There is a problem that the stimulation given by the hyperthermia treatment and the electric treatment becomes stronger by strengthening. Furthermore, by changing the strength of the electrotherapy with the treatment current using the means for changing the strength of the electrotherapy in the combination mode, the fever is adjusted to the maximum strength of the electrotherapy so that the stimulation is not too strong. Although it is conceivable to determine the stimulus of the thermotherapy, this method has a problem that the stimulus given by the thermotherapy and the electrotherapy is weak when the strength of the electrotherapy is weak.
[0005]
Therefore, in order to solve the above-mentioned problem, the present invention is a low frequency capable of performing treatment according to the request of the user after ensuring the safety by preventing the stimulation given by the thermal treatment and the electric treatment from being too strong. An object is to provide a treatment device.
[0006]
[Means for Solving the Problems]
The low frequency treatment device according to the present invention includes a treatment element having a heat generating part that generates heat and a conductor part that applies electrical stimulation, and a therapeutic signal that generates a therapeutic signal in the heat generation part and the conductor part of the treatment element. In a low-frequency treatment device including a signal generation unit, the heat generation unit generates a plurality of types of heat generation having different operating temperatures, and performs electrical stimulation within a range that does not cause excessive stimulation based on the heat generation setting state of the heat generation unit. As described above, in the present invention, the heat generating part generates a plurality of types of heat generated at different operating temperatures, and the electric stimulation is performed within a range that does not cause excessive stimulation based on the heat generation setting state of the heat generating part. Based on the heat generation setting state of the heat generating unit according to this instruction, electrical stimulation and heat generation operate simultaneously, electrical stimulation and heat generation operate alternately, or electrical stimulation and heat generation match. It is possible to operate at the same time as much as possible according to the user's instructions by operating the parts at the same time or changing the intensity of electrical stimulation, and it is possible to prevent excessive stimulation and ensure safety .
[0007]
The low frequency treatment device according to the present invention includes a treatment element having a heat generating part that generates heat and a conductor part that applies electrical stimulation, and a therapeutic signal that generates a therapeutic signal in the heat generation part and the conductor part of the treatment element. In a low-frequency treatment device including a signal generation unit, the heat generation unit generates at least two types of heat generation with different operation temperatures, the heat generation with a high operation temperature is a first heat generation, and the heat generation with a low operation temperature is a second heat generation When receiving an instruction to perform first heat generation during electrical stimulation, when receiving an instruction to perform electrical stimulation during first heat generation, or performing electrical stimulation and first heat generation When the instruction is received, the electrical stimulation and the first heat generation are alternately operated. As described above, in the present invention, a treatment element having a heat generating part that generates heat and a conductor part that applies electrical stimulation, and a treatment signal generator that generates a treatment signal in the heat generation part and the conductor part of the treatment element. The heat generation unit generates at least two types of heat generation with different operation temperatures, the heat generation with a high operation temperature is the first heat generation, the heat generation with the low operation temperature is the second heat generation, and the first during the electrical stimulation When receiving an instruction to perform heat generation, when receiving an instruction to perform electrical stimulation during the first heat generation, or when receiving an instruction to perform electrical stimulation and first heat generation Since the electrical stimulation and the first heat generation are operated alternately, the user can receive the heat generation at a plurality of operating temperatures according to the user's selection, and the user can always operate When instructed to perform the first heat generation during electrical stimulation, the first heat generation Even when instructed to perform electrical stimulation or when instructed to perform electrical stimulation and first heat generation, the simultaneous operation of the first heat generation and electrical stimulation is automatically avoided. , It is safe for the patient without being injured due to excessive stimulation, and for the user, other work can be performed with peace of mind without excessive stimulation due to erroneous operation or confirmation error, for example, If the patient is an elderly person and the person is the family of the elderly person, the user may be misoperated, such as when the person is not used to it. The device cannot be stopped, but it can be used with confidence without giving excessive stimulation to the user. Although the electrical stimulation and the first heat generation are alternately operated, a treatment other than the rest period, the electrical stimulation and the first heat generation may be inserted between the electrical stimulation and the first heat generation. Here, the second heat generation may be not only a heat generation effect but also a heat generation effect having a heat retention effect and a heat generation effect having an effect of preventing a cool feeling in the attached state, and may also be a heat generation having a heat effect.
[0008]
Moreover, the low frequency treatment device according to the present invention generates a treatment signal in a treatment element having a heat generation part that generates heat and a conductor part that applies electrical stimulation, and the heat generation part and the conductor part of the treatment element. In a low-frequency treatment device comprising a therapeutic signal generation unit, when the heat generation unit generates multiple types of heat generation with different operation temperatures and receives an instruction to generate heat at one operation temperature during electrical stimulation, When an instruction is given to perform electrical stimulation during heat generation at the operating temperature, or when an instruction is given to perform electrical stimulation and heat generation at one operating temperature, the one operating temperature is equal to or higher than the predetermined temperature. When this occurs, electrical stimulation and heat generation at one operating temperature are operated alternately. As described above, in the present invention, when the heat generating unit generates a plurality of types of heat generated at different operating temperatures and receives an instruction to generate heat at one operating temperature during electrical stimulation, When an instruction is given to perform electrical stimulation, or an instruction is given to perform electrical stimulation and heat generation at one operating temperature, and the one operating temperature is equal to or higher than a predetermined temperature, the electrical stimulation And heat generation at one operating temperature are alternately operated, so if the user operates to instruct to generate heat at one operating temperature during electrical stimulation, the user is generating heat at one operating temperature. Even if it is instructed to perform electrical stimulation or when it is instructed to perform electrical stimulation and heat generation at one operating temperature, the one operating temperature is not less than the predetermined value. Automatically when the electrical stimulus and one operating temperature Heat is operated alternately, and in any case, it can be used in combination with electrical stimulation and heat generation while preventing excessive stimulation according to the user's request. .
[0009]
In addition, the low frequency treatment device according to the present invention has a continuous operation time of electrical stimulation and a continuous operation time of heat generation of 1 second or more when the electrical stimulation and the heat generation are alternately operated as necessary. . As described above, in the present invention, when the electrical stimulation and the heat generation are alternately operated, the electrical stimulation continuous operation time and the heat generation continuous operation time are 1 second or longer. One treatment time with fever is too short. Specifically, the stimulus of fever is received while the stimulus remains, or the stimulus remains with the stimulus of fever. However, it is not possible to prevent the stimulation from becoming excessive as a result, because it is equivalent to receiving electrical stimulation and stimulation of fever at the same time. For example, the user can receive the stimulation of the treatment after switching without being affected by the stimulation of the treatment before switching, and can ensure safety without the stimulation being excessive.
[0010]
The low frequency treatment device according to the present invention is such that when the electrical stimulation and the heat generation are alternately operated as necessary, the continuous operation time of the electrical stimulation is longer than the continuous operation time of the heat generation. As described above, in the present invention, when the electrical stimulation and the heat generation are alternately operated, since the continuous operation time of the electrical stimulation is equal to or longer than the continuous operation time of the heat generation, the stimulation feels pain when receiving the electrical stimulation. If it is not, the fever stimulus remains for a while without feeling pain. In the case of fever, the temperature of the treatment element does not decrease at once, but gradually decreases. This is because the user feels a fever stimulus until the level falls below the level. Thus, the fever stimulus remains, and the electrical stimulus is unlikely to remain. Thus, the user can receive the stimulation of fever and electrical stimulation equally.
[0011]
Moreover, the low frequency treatment device according to the present invention is continuously performed until the first heat generation reaches the operating temperature when the electrical stimulation and the heat generation are alternately operated as necessary. As described above, in the present invention, when the electrical stimulation and the heat generation are alternately operated, the first heat generation is continuously performed until the operating temperature is reached. Therefore, before the electrical stimulation and the heat generation are alternately operated, When there is no fever, the treatment element is about the same as the room temperature if it is just pasted, or it is about the same as the body temperature if the treatment element is pasted for a while. The treatment element can be raised to the operating temperature even when heat is generated for the first time, and the heat treatment can be performed smoothly immediately after the start of the alternate operation. It can also be continued until the first fever reaches the operating temperature and the normal fever is treated, and the user can receive a complete heat treatment from the first fever. When the electrical stimulation and the first heat generation are alternately operated, the continuous operation time of the electrical stimulation is set to be equal to or longer than the continuous operation time of the heat generation. In this case, until the first heat generation reaches the operation temperature. The continuous operation time is treated as an exception, and the continuous operation time of the electrical stimulation immediately after the first heat generation does not need to be longer than the continuous operation time until the first heat generation reaches the operation temperature.
[0012]
In addition, according to the present invention, there is provided adjusting means for adjusting the continuous operation time of the electrical stimulation and the continuous operation time of the heat generation when the electrical stimulation and the heat generation are alternately operated as necessary. As described above, in the present invention, when the electrical stimulation and the heat generation are alternately operated, since the adjustment means for adjusting the continuous operation time of the electrical stimulation and the continuous operation time of the heat generation is provided, the user relates to the adjustment means. If you want to adjust the continuous operation time of electric stimulation and the continuous operation time of fever easily using a dial, etc., and want to receive treatment of electric stimulation and treatment of fever, the rate of treatment of electric stimulation Can be realized by increasing the continuous operation time of electrical stimulation, while on the other hand, when increasing the rate of heat treatment, it can be realized by increasing the continuous operation time of fever. We can provide treatment tailored to your needs.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
(First embodiment of the present invention)
A low frequency treatment device according to a first embodiment of the present invention will be described with reference to the drawings. 1 is a perspective view of the low-frequency treatment device according to the present embodiment with the lid portion closed, FIG. 2 is a perspective view of the low-frequency treatment device according to the present embodiment with the lid portion open, and FIG. 4 is a rear perspective view of the low frequency treatment device according to the embodiment, FIG. 4 is a front view of a switch unit of the low frequency treatment device according to the present embodiment, and FIG. 5 is a block configuration of a control unit of the low frequency treatment device according to the present embodiment. FIG. 6, FIG. 6 is a waveform diagram of applying the filter method of the low frequency treatment device according to the present embodiment, FIG. 7 is a schematic view of the contents stored in the ROM of the low frequency treatment device according to the present embodiment, and FIG. It is a wave form diagram of the append system application of a low frequency treatment device.
[0014]
In each of the drawings, the low-frequency treatment device according to the present embodiment includes a lid portion 1 that can be opened and closed and provided with a liquid crystal display 11, a switch portion 2 provided with a plurality of switches, and a storage having a certain storage capacity. Unit 3, an AC adapter 4 for converting AC to DC, an AC adapter storage unit 5 capable of storing the AC adapter 4, a power cable 7 connected to the AC adapter 4 and supplying power from a power jack, It has a treatment element having a heat generation part 81a that generates heat and a conductor part 81b that provides electrical stimulation, and a treatment signal generation part 61c that generates a treatment signal in the heat generation part 81a and the conductor part 81b of the treatment element. And a heat generating part 81a generates at least two kinds of heats having different operating temperatures by the output of the therapeutic signal from the therapeutic signal generating part 61c, and generates heat having a high operating temperature as a first value. If you are instructed to generate heat during the electrical stimulation, the electrical stimulation will be applied during the heat generation when the heat is generated. When receiving an instruction to perform, or when receiving an instruction to perform electrical stimulation and heat generation, electrical stimulation and heat generation are alternately operated. The heat generated by the heat is a heat generated having a heat effect, and the heat generated by the heater is a heat generated by the heat retaining effect of the assembly pad.
The lid portion 1 is located at a central portion excluding both sides of the upper surface, is pivotally provided on one side of the main body, has a liquid crystal display 11 on the inner surface, and the liquid crystal display 11 appears in an opened state.
[0015]
As shown in FIG. 2, the storage unit 3 can be pulled out from the left side surface, and a magnet 31 is disposed in the back direction. A magnet (not shown) having a polarity opposite to the magnet 31 is inserted into the storage unit 3 of the main body. The storage unit 3 cannot be pulled out unless it is pulled with a certain amount of force at the time of insertion, and the storage unit 3 is moved so that the low-frequency treatment device body is carried and the body is inclined. Is not pulled out naturally. Further, the storage unit 3 can store treatment elements such as the assembly pad 8. In addition, a replacement pad 84 for replacement can be stored, and an instruction manual or the like can be stored as long as it is within the storage size of the storage unit 3.
[0016]
As shown in FIG. 4, the switch unit 2 includes a “power on / off” button 2a, a “shoulder” button 2b, a “back” button 2c, a “waist” button 2d, an “arm / leg” button 2e, and a “joint”. ”Button 2f,“ My Memory ”button 2g,“ Function ”button 2h,“ Start / Stop ”button 2i,“ Pause ”button 2j,“ Lock ”button 2k,“ 15 min / 30 min ”button 2l,“ Strong ” "S" dial 2m, "polarity switch" button 2n, "continuous / intermittent" button 2o, "memory" button 2p, "speed" button 2q, "thermal therapy" button 2r, "heater" button 2s, "preheat" button 2t, “ON / OFF” button 2u, “strong / weak” button 2v, and “15 minutes / 30 minutes” button 2w.
[0017]
The “power on / off” button 2a is a button for turning on / off the power. The “shoulder” button 2b, “back” button 2c, “waist” button 2d, “arm / leg” button 2e and “joint” button 2f are buttons (automatic course buttons) for automatic course selection. The “My Memory” button 2g is a button for calling treatment contents recorded in advance by the memory function. The “function” button 2h is a button used when selecting the treatment content based on the waveform. The “start / stop” button 2i is a button used as a trigger for starting treatment when performing low-frequency treatment. The “pause” button 2j is a button for temporarily stopping all outputs (low frequency / heat). The “lock” button 2k is a button for not accepting key input and dial input to prevent erroneous operation during treatment by pressing the button (however, “power on / off” button and “start” Only accept / stop button). The “15 minutes / 30 minutes” button 21 is a button for alternately switching the set value of the treatment time to 15 minutes or 30 minutes. The “strength” dial 2m is a dial for adjusting the strength of stimulation of the low frequency treatment. The “polarity switching” button 2n is a button for changing the sensation by the set pad from “standard (+)”, “reverse (−)”, “alternate” or “simultaneous”. The “continuous / intermittent” button 2o is a button for switching to “intermittent” or “continuous”. The “memory” button 2p is a button for storing and reproducing the contents of the custom course together with operation attributes such as use time, polarity, and continuous intermittent setting. The “speed” button 2q is a button for increasing or decreasing the tempo of treatment. The “thermal therapy” button 2r is a button for performing thermal therapy with a heater with a built-in pad. The “heater” button 2s is a button for energizing the heater with a built-in pad very slightly during low-frequency treatment to enhance the heat-retaining effect of the pad. The “preheat” button 2t is a button for warming the adhesive pad of the assembly pad in advance in order to prevent a cool feeling when the assembly pad is applied to the body. The “ON / OFF” button 2u is a button for switching energization ON / OFF of the thermal treatment mat. The “strong / weak” button 2v is a button for switching the strength of the thermotherapy when using the thermotherapy mat. The “15 minutes / 30 minutes” button 2w is a button for switching the treatment time of the heat treatment using the heat treatment mat.
[0018]
The AC adapter 4 includes an AC adapter jack 41 for connecting an AC adapter plug 73, a converter for converting AC to DC, and a DC jack 42 for outputting a DC current. Further, there is a DC cable 44 that joins the DC jack 42 and the supply port jack 43 disposed in the main body.
[0019]
The AC adapter storage unit 5 can store a storage unit on the bottom surface and several AC adapters 4 having different shapes. The AC adapter 4 having a different shape differs in size from the AC adapter 4 depending on the output content. Normally, the higher the output, the larger the size and the greater the amount of heat generated. For example, in order to perform a thermal treatment, since a large output is required, a high-output AC adapter 4 is necessary, and a large AC adapter housing portion 5 is also required. Therefore, the AC adapter 4 having a lower output than the AC adapter 4 at the time of the thermal treatment may be used, and the AC adapter housing 5 may be similarly small. In other words, the AC adapter storage unit 5 needs to be compatible with the two types of AC adapters 4. In addition, this is not only used when the AC adapter 4 is selected depending on whether or not the user performs thermotherapy, but also has a low frequency having a thermotherapy function by molding the AC adapter storage portion 5 with a certain mold. A low-frequency treatment device that is manufactured as a treatment device and does not have a thermal treatment function with the same mold can also be produced. This is made possible by the fact that the AC adapter storage 5 is compatible with either AC adapter 4. In this specific example, two AC adapters 4 have been described. However, the present invention is not limited to this, and AC adapter storage portions 5 corresponding to more AC adapters 4 can be formed. The AC adapter storage unit 5 has a lid 53. The low frequency treatment device is turned over, the AC adapter 4 is stored in the AC adapter storage unit 5, and the lid 53 is used to perform low frequency treatment. The AC adapter 4 is prevented from being detached from the low frequency treatment device when the device is turned upside down. Also, the lid 53 is provided with several partitions 54, and the partition 54 occupies a space that is not occupied by the AC adapter 4 at the time of storage in the space of the AC adapter storage portion 5. The AC adapter 4 does not move even when is moved. A knob 51 is provided close to the lid 53 of the AC adapter storage section 5 on the bottom surface of the low frequency treatment device, and the lid 53 is easily fixed by engaging the knob 51 of the main body and the knob hole 55 of the lid. A slider 52 is provided on the knob 51 of the main body. When the slider 52 is slid, the knob 51 of the main body is retracted and the lid 53 is easily opened.
[0020]
As shown in FIG. 5, the control unit 6 includes a circuit board 61 that outputs a low-frequency therapeutic device signal and the like, and a switch board 62 that detects on / off of the switch. The circuit board 61 is disposed under the switch base 62, and is configured by a two-stage base. The switch board 62 transmits to the circuit board 61 which button of each button of the switch unit 2 has been pressed. The circuit board 61 is supplied from a microcomputer 61a that performs various controls, a ROM 61b that records body display information and character display information read by the microcomputer 61a, a treatment signal generation unit 61c that generates a treatment signal, and the AC adapter 4. And an electric circuit 61d for distributing the electricity to each part. The ROM 61b also records massage information read by the therapeutic signal generator 61c, and the therapeutic signal generator 61c generates a therapeutic signal based on the massage information. In some cases, the circuit board 61 and the switch board 62 are integrated, and the circuit board 61 includes the switch board 62. Although the control unit 6 is configured with a double-layered base as described above, the control unit 6 is not limited to this and may be configured with a single base.
[0021]
The microcomputer 61a is connected to the ROM 61b, the liquid crystal display 11, the treatment signal generation unit 61c, the switch unit 2, and the LED lamp by a cable or a bus (not shown), and transmits and receives signals. The microcomputer 61a reads the display signal and massage information stored in the ROM 61b. Therefore, the display information and massage information are transmitted and received on the cable or bus, and other information specified by the microcomputer 61a for the ROM 61b. A control signal for the ROM 61b is transmitted from the microcomputer 61a to the ROM 61b. The massage information read from the ROM 61b by the microcomputer 61a is transmitted to the therapeutic signal generator 61c. The microcomputer 61a transmits display information read from the ROM 61b to the liquid crystal display 11. Here, in addition to transmitting the display information read from the ROM 61b to the liquid crystal display 11 as it is, the microcomputer 61a can perform information processing on the display information and transmit the display information to the liquid crystal display 11. For example, Then, by performing information processing on the body display information in which only a part of the body is displayed, only the part of the body can be transmitted to the liquid crystal display 11 as display information whose color has been changed. The microcomputer 61a receives information indicating which switch is pressed from the switch unit 2, and transmits a control signal for turning on or off a specific LED lamp to the LED lamp.
[0022]
The therapeutic signal generator 61c receives massage information corresponding to the massage course recorded in the ROM 61b via the microcomputer 61a, and generates a therapeutic signal based on the massage information. The generated therapeutic signal is output to the set pad 8 which is a connected therapeutic element. Here, two set pads 8 are prepared. Turns on when the set pad 8 is connected to the low frequency treatment device, turns off when the set pad 8 is not connected, and turns on when the connected set pad 8 is performing the thermal treatment However, a total of four LED lamps are prepared in the lower part of the liquid crystal display 11 for the thermotherapy LED lamps 11 that are extinguished when not being used. The connection LED lamp 10 and the thermal treatment LED lamp 11 form a set, and correspond to the set pad 8A and the set pad 8B, respectively. The connection LED lamp 10A and the thermal treatment LED lamp 11A correspond to the group pad 8A, and the connection LED lamp 10B and the thermal treatment LED lamp 11B correspond to the group pad 8B.
[0023]
The set pad 8 includes two pads 81, a treatment signal cord 82 for transmitting a treatment signal output from the treatment signal generator to the pad 81, and a pad plug connected to the jack 9 of the low frequency treatment device body. 83. The set pad 8 has a cord reel 85 that can be stored compactly. This cord reel 85 is provided with a sticking portion 85a to which the pad 81 can be stuck on both sides, and a reel portion 85b is formed between the two sticking portions 85a, which is a groove into which a therapeutic signal cord is wound. More specifically, the width of the reel portion is slightly narrower than the diameter of the hand-held portion of the pad plug 83, and the two pads 81 of the assembled pad 8 are attached to the attachment portion of the cord reel for treatment. After the signal cord 82 is wound around the reel portion, the hand-held portion of the pad plug 83 can be fitted into the reel portion to maintain the winding state. Thus, the wound state can be maintained, and the treatment signal cord 82 is not easily separated and can be easily stored in the storage unit 3. The therapeutic signal generation unit 61c is configured to be divided into a heat generation signal generation unit and a conductor signal generation unit. The massage signal is received by the therapeutic signal generator 61c from the ROM 61b via the microcomputer 61a. The massage information is also divided into massage information related to the heat generating part 81a and massage information related to the guiding part 81b, and the massage related to the heat generating part 81a is detected by the microcomputer 61a. Information is output to the heat generation signal generator 61ci, and massage information regarding the conductor part 81b is output to the conductor signal generator 61cii. Based on the massage information related to the heat generating part 81a to which the heat generating signal generating part 61ci is input, the therapeutic signal related to the heat generating part 81a is generated, and based on the massage information related to the conductive part 81b to which the signal generating part 61cii is input. Thus, a treatment signal related to the guiding portion 81b is generated.
[0024]
This set pad 8 is a treatment element having a heat generating part 81a that generates heat and a conductor part 81b that gives electrical stimulation. Specifically, the pad 81 has a heat generating part 81a and a conductor part 81b, and is used for treatment. The signal code 82 is also divided into two systems. One system is for sending a therapeutic signal related to the heat generating part 81a to the heat generating part 81a, and the other one system is for sending a therapeutic signal related to the conductive part 81b to the conductive part 81b. It is.
[0025]
Two types of therapeutic signals relating to the heat generating part 81a are prepared, the therapeutic signal relating to the heat generating part 81a having a high operating temperature is used as a thermal signal, and the therapeutic signal relating to the heat generating part 81a having a low operating temperature is used as a heater signal. When the user presses the “thermal therapy” button 2r of the switch unit 2, the switch unit 2 outputs to the microcomputer 61a that the “thermal therapy” button 2r has been pressed, and the microcomputer 61a sends massage information about the heating unit 81a from the ROM 61b. Is output to the heat generation unit signal generation unit 61ci, and the heat generation unit signal generation unit 61ci outputs a thermal signal to the heat generation unit 81a based on the massage information regarding the heat generation unit 81a. On the other hand, when the user presses the “heater” button 2s of the switch unit 2, the switch unit 2 outputs to the microcomputer 61a that the “heater” button 2s has been pressed, and the microcomputer 61a sends massage information about the heat generating unit 81a from the ROM 61b. Is output to the heat generation unit signal generation unit 61ci, and the heat generation unit signal generation unit 61ci outputs a heater signal to the heat generation unit 81a based on massage information regarding the heat generation unit 81a.
[0026]
In the present embodiment, when receiving an instruction of electrical stimulation and heat generation of heat, when the user presses the “thermal treatment” button 2r while applying electrical stimulation by the conductor 81b, or In some cases, the user presses the switch unit 2 (“shoulder” button 2b, “back” button 2c, etc.) related to electrical stimulation while the heat generating unit 81a generates heat. Here, in the case where a switch for giving an instruction of electrical stimulation and heat generation is provided, the case where the switch is pressed is also included. At these times, the microcomputer 61a alternately operates electrical stimulation and heat generation. In order to operate electrical stimulation and heat generation alternately, the microcomputer 61a receives the output of the switch unit 2, reads the massage information related to the heat generation unit 81a and the massage information related to the conductor 81b, and generates the heat generation unit. It is necessary to output to the signal generator 61ci and the signal generator 61cii for the conductor, but if it is output as it is, the heat is generated and the patient is overstimulated to give electrical stimulation. Therefore, for example, it is necessary to perform special output processing on the massage information related to the heat generating portion 81a and the massage information related to the guiding portion 81b read by the microcomputer 61a. The microcomputer 61a can determine from the output of the switch unit 2 that it has been instructed to receive electrical stimulation and heat generation before reading the massage information from the ROM 61b, and stores it in the ROM 61b in advance before reading the massage information. The continuous operation time of the heat generating part 81a and the continuous operation time of the conductor part 81b are read out. Then, the microcomputer 61a counts the continuous operation time, outputs massage information related to the heat generating portion 81a within the continuous operation time of the heat generating portion 81a, and outputs massage information related to the heat generating portion 81a outside the continuous operation time of the heat generating portion 81a. Don't do it. On the other hand, the microcomputer 61a similarly counts the continuous operation time, outputs massage information related to the conductor part 81b within the continuous operation time of the conductor part 81b, and conducts outside the continuous operation time of the conductor part 81b. The massage information regarding 81b is not output. By alternately providing the continuous operation time of the heat generating portion 81a and the continuous operation time of the conductor portion 81b, it is possible to operate electrical stimulation and heat generation alternately. In this case, the massage information related to the guiding portion 81b has passed even when the massage information related to the guiding portion 81b has not been output, and the massage information related to the guiding portion 81b as a whole has not been output. Massage time does not change. A method for alternately operating electrical stimulation and heat generation is a filter method (see FIG. 6). In addition to this filter method, there is an append method (see FIG. 8), which combines massage information related to the conductor 81b and massage information related to the heat generating portion 81a, and sequentially processes the massage information. Although it is not necessary to count the passage of time separately, since the massage information is combined, the massage time of the massage information is the massage time of the massage information related to the guiding portion 81b and the massage time of the massage information related to the heating portion 81a. Is equal to the sum of Comparing FIG. 6B and FIG. 8B, it can be seen that the total time of FIG. 8 is increased by the continuous operation time of the heat generating portion 81a. In addition, in the waveform of the conductor part 81b in FIGS. 6B, 6C, and 8B, the dotted line indicates that no treatment signal is output to the conductor part 81b and electrical stimulation is not performed. .
[0027]
In the present embodiment, when receiving an instruction of electrical stimulation and heating of the heater, in this embodiment, when the user presses the “heater” button 2s while applying electrical stimulation by the conductor 81b, or There is a case where the user presses the switch unit 2 (“shoulder” button 2b, “back” button 2c, etc.) relating to electrical stimulation while the heater 81 generates heat from the heat generating unit 81a. Here, in the case where a switch for giving instructions of electrical stimulation and heat generation of the heater is provided, the case where the switch is pressed is also included. At these times, the microcomputer 61a simultaneously operates electrical stimulation and heat generation of the heater. In order to operate the electrical stimulation and the heat generation of the heater at the same time, the microcomputer 61a receives the output of the switch unit 2 and reads the massage information related to the heat generation unit 81a and the massage information related to the conductor 81b in response to the output from the switch unit 2. By outputting the signal to the signal generator 61ci and the conductor signal generator 61cii, the heat generator signal generator 61ci outputs a heater signal to the heat generator 81a based on the massage information related to the heat generator, and the heat generator 81a generates heat. At the same time, the signal generating unit 61cii for the guiding part outputs a treatment signal for the guiding part to the guiding part 81b based on the massage information related to the guiding part, and the guiding part 81b gives electrical stimulation.
[0028]
In addition, while the “thermal therapy” button 2r is pressed to perform the thermal therapy, the thermal therapy LED lamp 2R formed adjacent to the “thermal therapy” button is turned on, and the thermal therapy is stopped. In this case, the thermal treatment LED lamp 2R is turned off. Similarly, while the “heater” button 2s is pressed and warmed, the heater LED lamp 2S formed adjacent to the “heater” button 2s is turned on, and when the heater is stopped or the assembly pad 8 When the heater is finished, the heater LED lamp 2S is turned off. Similarly, when the “preheating” button 2t is pressed and warmed, the preheating LED lamp 2T formed adjacent to the “preheating” button 2t is turned on to stop preheating or preheating. When is finished, the preheating LED lamp 2T is turned off.
[0029]
The power cable 7 has a power plug 71 to be plugged into a power outlet (not shown) at one end and an AC adapter plug 73 to be plugged into the AC adapter jack 41 at the other end, between the power plug 71 and the AC adapter plug 73. Cable 72 is located.
[0030]
Next, the operation of using the low frequency treatment device according to this embodiment will be described. In this use operation, it is assumed that the massage operation duration for the heat generating portion 81a stored in the ROM 61b is 15 seconds and the massage operation duration for the guiding portion 81b is 45 seconds. Further, it is assumed that the microcomputer 61a is based on a filter method that requires counting. The information stored in the ROM 61b is as shown in FIG. 7, and a to i at the right arrow indicate an address address. The address address on the ROM 61b is associated with each switch of the switch unit 2, the output of the switch unit 2 is input to the microcomputer 61a, and the microcomputer reads the information on the ROM using the address address corresponding to the output as an argument. Specifically, when the user presses the “thermal therapy” button 2r, it is input that the button related to the microcomputer 61a is pressed, and the microcomputer 61a reads the information at address a from the ROM 61b and generates 45 [° C.] heat. The massage information regarding the part 81a is output to the heat generation part signal generation part 61ci, the heat generation part signal generation part 61ci outputs a thermal signal of 45 [° C.] to the heat generation part 81a of the pad 81, and the heat generation part 81a outputs 45 [° C.]. The operating temperature rises to 45 [° C].
[0031]
The user inserts the power plug 71 of the AC adapter 7 of the present low frequency treatment device into an outlet. Here, the AC adapter 4 is already stored in the AC adapter storage unit 5. The user inserts the pad plug 83 of the set pad 8 into the jack 9A of the low frequency treatment device. Here, the jack 9 includes a jack 9A and a jack 9B. By inserting the pad plug 83 of the assembled pad 8 into the jack 9A, the assembled pad 8 becomes the assembled pad 8A, and the pad plug 83 of the assembled pad 8 is inserted into the jack 9B. Is inserted into the set pad 8B. The user presses the “ON / OFF” button 1a to turn on the power of the low frequency treatment device. When the power is turned on, the microcomputer 61a automatically reads the display information of the initial screen from the ROM 61b and outputs it to the liquid crystal display 11. The liquid crystal display 11 displays the initial screen. Further, since the pad plug 83 of the set pad 8 is inserted into the jack 9A when the power is turned on, the connection LED lamp 10A is turned on, and the set pad 8 into which the pad plug is inserted becomes the set pad 8A. With this connection LED lamp 10A, the user can confirm that the set pad 8A is properly connected by looking at the screen. Therefore, when the pad plug 83 of the set pad 8 is not inserted into the jack 9A, or when it is not inserted properly, the connection LED lamp 10A is not turned on, and the user can connect the pad plug 83 of the set pad 8 to the user. You will notice that it is not plugged into jack 9A or is not plugged in properly. After the initial screen is displayed, the microcomputer 61a then selects “automatic course or manual” from the ROM 61b by pressing the automatic course button or “function” button. Is displayed on the liquid crystal display 11.
[0032]
When the user presses the automatic course button, first, the microcomputer 61a reads the body display information corresponding to the automatic course button from the ROM 61b and displays it on the liquid crystal display 11. In addition to the figure of the body, the body display information includes information on where to put the set pad 8 and the body displayed on the liquid crystal display 11 displays the position where the set pad 8 should be attached. It is displayed over the body. Furthermore, the microcomputer 61a reads from the ROM 61b the character display information “Please stick the assembly pad at the displayed sticking position and press the start button.” The liquid crystal display 11 on which the body is displayed. To display. The user sees the display of the body and characters on the liquid crystal display 11, attaches it to the position of the user's body similar to the attachment position displayed on the liquid crystal display 11, and presses the “start” button 2 i. . When the “start” button 2 i is pressed, the microcomputer 61 a confirms that the set pad 8 is inserted into the jack 9, further detects the human body, and the set pad 8 is attached to the user. It is confirmed that the microcomputer 61a is pressed by the user only when the pad plug 83 of the set pad 8 is inserted into the jack 9 and the pad 81 of the set pad 8 is attached to the user. The massage information corresponding to the automatic course button is read from the ROM 61b and output to the therapeutic signal generator 61c. The therapeutic signal generator 61c outputs a therapeutic signal to the set pad 8 based on the massage information that is input. When the set pad 8 is not inserted into the jack 9 or when the set pad 8 is not attached to the human body, the microcomputer 61a reads the character display information from the ROM 61b and displays it on the liquid crystal display 11. Tell the caregiver. Here, in the human body detection, if one pad 81 of the set pad 8 and the other pad 81 are conductive, it is determined that they are attached to the human body, and if they are not conductive, the human body is detected. It is determined that the state is not attached.
[0033]
Thus, according to the display on the liquid crystal display 11, treatment by the conductor portion of the pad 81, that is, electrical stimulation can be given. On the other hand, treatment by the heat generating portion 81a of the pad 81, that is, treatment by generating heat is performed by pressing the “thermal treatment” button 2r or the “heater” button 2s. The “heat treatment” button 2r or the “heater” button 2s is always effective as long as the low-frequency treatment device is turned on, and can be treated by the heat generating portion 81a. In addition, several steps can be performed according to the display of the liquid crystal display 11 similarly to the treatment by the above-mentioned guiding part, and the heating part 81a can be treated.
[0034]
Up to this point, the separate use operations of the treatment by the conductor part 81b and the treatment by the heat generating part 81a have been described. However, the use operation in the case of receiving an instruction from the electrical stimulation and the heat generation from the heat, A case where the user presses the “thermal treatment” button 2r while applying electrical stimulation by the unit 81b will be described. For example, press the “Auto Course” button or “Function” button to select it. When the user presses the “shoulder” button 2b, the microcomputer 61a reads the body display information around the shoulder from the ROM 61b and displays it on the liquid crystal display 11. In the display on the liquid crystal display 11, the position where the pad 81 of the set pad 8 is to be pasted is displayed on the display around the shoulder, and further, “the set pad is pasted at the displayed sticking position”. Please press the start button. " In response to this display, the user sticks the pad 81 of the set pad 8 on the body of the user at the same position as the display sticking position, and presses the “start / stop” button 2i. This initiates low frequency treatment. Thereafter, during the low-frequency treatment that is the treatment by the guide portion 81b, the low-frequency treatment user presses the “thermal treatment” button 2r. The microcomputer 61a determines that it is a case where an instruction of electrical stimulation and heat generation is received by the output of the “thermal treatment” button 2r. First, if there is no designation, information on the address g of the filter system is read from the ROM 61b. This information is information on the operation duration of 15 [seconds] for the treatment by the heat generating part 81a and 45 [seconds] for the treatment by the guiding part. Further, the microcomputer 61a reads information on the ROM 61b using an address address corresponding to the output as an argument. The microcomputer 61a reads out the information at address a according to the output of the “thermal treatment” button 2r from the ROM 61b, outputs massage information regarding the heat generating part of 45 [° C.] to the heat generating part signal generating part 61ci, and generates the heat generating part signal generating part 61ci. Outputs a thermal signal of 45 [° C.] to the heat generating portion 81a of the pad 81, and the heat generating portion 81a generates heat at an operating temperature of 45 [° C.]. Here, since the operation duration time read out earlier is 15 [seconds] for the treatment by the heat generating part 81a, the operation temperature is 45 [° C.] and heat is generated for 15 [seconds]. ], And the treatment with the heat generating part 81a is performed for 15 [seconds] after 45 [seconds]. Such treatment is repeatedly performed during the treatment time of the guiding portion 81b. After the treatment time of the guiding portion 81b is finished, the treatment of the guiding portion 81b is finished, and thereafter, the treatment instruction of the guiding portion 81b is instructed. Until then, the treatment of the heat generating portion 81a is performed again until the “thermal treatment” button 2r is pressed.
[0035]
The case where the user presses the switch unit 2 (“shoulder” button 2b, “back” button 2c, etc.) relating to electrical stimulation when the heat generating unit 81a generates heat is described. The user sticks the pad 81 of the set pad 8 on the body of the user and presses the “thermal treatment” button 2r. Thereby, the treatment of the heat generating portion 81a starts. If the power is on, the “function” button is valid, and when the user presses the “shoulder” button 2b, the body display information around the shoulder is read from the ROM 61b and displayed on the liquid crystal display 11. In the display on the liquid crystal display 11, the position where the pad 81 of the set pad 8 is to be pasted is displayed on the display around the shoulder, and further, “the set pad is pasted at the displayed sticking position”. Please press the start button. " In response to this display, the user re-sticks the pad 81 of the set pad 8 onto the body of the user at the same position as the display sticking position, and presses the “start / stop” button 2i. The microcomputer 61a determines that it is a case where an instruction of electrical stimulation and heat generation is received by the output of the “shoulder” button 2b. First, if there is no designation, information on the address g of the filter method is read from the ROM 61b. The information read out is information on the operation duration of 15 [seconds] for the treatment by the heat generating part 81a and 45 [seconds] for the treatment by the guiding part. Further, the microcomputer 61a reads information on the ROM 61b using an address address corresponding to the output as an argument. The microcomputer 61a reads out information from the e address to the g address according to the output of the “shoulder” button 2b from the ROM 61b, and outputs massage information regarding the 45 [° C.] conductor part 81b to the conductor part signal generation part 61cii, The conductor part signal generation part 61cii outputs a knocking treatment signal to the conductor part 81b of the pad 81, and the conductor part 81b performs a beating operation. Here, since the treatment by the heat generating portion 81a is 15 [seconds], the operation duration time read out earlier is 15 [seconds], so that the treatment by the above-mentioned guiding portion is performed for 45 [seconds] and after this [45 [seconds] has elapsed, 15 [seconds] The treatment by the heat generating portion 81a is performed, and the treatment by the guiding portion 81b is performed again for 45 [seconds]. Such treatment is repeatedly performed during the treatment time of the guiding portion 81b. After the treatment time of the guiding portion 81b is finished, the treatment of the guiding portion 81b is finished, and thereafter, the treatment instruction of the guiding portion 81b is instructed. Until then, the treatment of the heat generating portion 81a is performed again until the “thermal treatment” button 2r is pressed.
[0036]
Thus, according to the low frequency treatment device according to the present embodiment, the set pad 8 having the heat generating portion 81a that generates heat and the conductor portion 81b that provides electrical stimulation, and the heat generating portion 81a and the conductor of the set pad 8 are provided. And a control unit 6 having a therapeutic signal generation unit 61c for generating a therapeutic signal in the unit 81b, and at least two types of heat generation units 81a having different operating temperatures by the output of the therapeutic signal of the therapeutic signal generation unit 61c When heat is generated, heat generated at a high operating temperature is set as heat, heat generated at a low operating temperature is set as a heater, and instructions for electrical stimulation and heat generated by heat are received, electrical stimulation and heat generated by heating are operated alternately. When receiving instructions for electrical stimulation and heat generation from the heater, the electrical stimulation and the heat generation are operated simultaneously. Therefore, the heat generation and the electrical stimulation are not always performed at the same time. Become mysterious It is safe for the user without having to perform any other work without worrying about excessive stimulation due to erroneous operations or confirmation mistakes. For example, the user is an elderly person If the patient is a family member of the elderly, the user may be misoperated, such as when the user is not used to it.If the elderly person is bedridden, the device cannot be turned off by himself / herself. It can be used with confidence without giving it to the user.
[0037]
In the low frequency treatment device according to the present embodiment, as the operation duration time elapses, the operation duration time of the heat generating portion 81a starts when the operation duration time of the guide portion 81b elapses. The treatment has been switched to the treatment of fever (as shown in FIG. 6C, it can be seen that the treatment of the conductor portion 81b is stopped at the portion indicated by the alternate long and short dash line). When switching to treatment, it can also be switched at a timing without electrical stimulation or at a timing with little electrical stimulation, which can be realized by switching when the voltage level of the treatment signal of the conductor part 81b is low, It is possible to prevent excessive stimulation more accurately without switching when the user feels.
[0038]
In addition, in the low-frequency treatment device according to the present embodiment, it is possible to perform a soft start that gradually increases stimulation from the start of operation of electrical stimulation or heat generation, and when the body is not accustomed to electrical stimulation or heat generation, Can be avoided. In particular, in the switching from the treatment by the conduction part 81b to the treatment by the heat generation part 81a, and the change from the treatment by the heat generation part 81a to the treatment by the conduction part 81b, the stimulation is gradually performed from the start of switching the electrical stimulation and the heat generation. By making it increase, when the stimulus before the switching remains in the user, it is possible to prevent an excessive stimulus from being superimposed on the stimulus after the switching. Similarly, in the low-frequency treatment device according to the present embodiment, it is possible to perform a soft end that gradually reduces the stimulation of the electrical stimulation and heat generation before the end of the operation, and from the treatment by the conductor portion 81b to the heat generation portion 81a. In the switching to the treatment and the switching from the treatment by the heat generating portion 81a to the treatment by the guiding portion 81b, the stimulation before switching is reduced by gradually reducing the electrical stimulation or the heat generation from the end of the switching. It is possible to receive the stimulus after switching without remaining in the user, and to prevent excessive stimulation. Furthermore, safer treatment can be performed by combining soft start and soft end.
[0039]
Further, in the low frequency treatment device according to the present embodiment, switching from the treatment by the conduction part 81b to the treatment by the heat generation part 81a and the switching from the treatment by the heat generation part 81a to the treatment by the conduction part 81b. It is also possible to perform treatment after switching with a time not to perform treatment between the previous treatment and the treatment after switching, and when the stimulation of the treatment before switching remains, overlap with the treatment after switching. Thus, it is possible to prevent excessive stimulation. In particular, the stimulation of thermal fever is due to the fact that the temperature of the treatment child is high due to the heat generated by the heat, and that temperature does not decrease all at once. However, the user may feel that he / she is continuously receiving heat treatment, but by setting a period of no treatment between heat treatment and electrical stimulation treatment, heat treatment and electrical stimulation It is possible to completely prevent simultaneous treatment with the above.
[0040]
Further, in the low frequency treatment device according to the present embodiment, when the thermal treatment is started, the pad 81 is not warmed up, and there is a possibility that the temperature cannot be increased to the operating temperature within the initial duration of the thermal operation. The initial temperature rises to the operating temperature without being constrained by the operation time of the heat, and can be switched to the treatment of the lead part, and the heat treatment at an appropriate temperature from the start of the heat treatment Can receive.
[0041]
Further, in the low frequency treatment device according to the present embodiment, the use operation has been described for the filter method shown in FIG. 6, but the append method shown in FIG. 8 can also be used, and the append method uses the conductor part 81b. The massage information related to the heat generation part 81a is combined into a series of massage information, and the massage information is sequentially processed. The heat treatment part 81a treatment and the guide part 81b treatment process are known in advance. The treatment of the heat generating portion 81a is also completed when at least the treatment related to the massage information is completed, and it is not necessary to press the “thermal treatment” button 2r to finish the thermal treatment. If necessary, a series of massage information can be displayed on the liquid crystal display to inform the user of the treatment process.
[0042]
Moreover, in the low frequency treatment device according to the present embodiment, the operating temperature of the heat and the operating temperature of the heater are set, but the user sets the operating temperature of the heat and the operating temperature of the heater by providing an upper limit. It is also possible to treat the heat generating part 81a appropriately according to the request of the user. Furthermore, a rewritable recording area is assigned to each user or each user, and the set operating temperature of the heat and the operating temperature of the heater can be recorded, which is optimal for each user or user. The heat generating part 81a can be treated.
[0043]
In addition, the low frequency treatment device according to the present embodiment is configured to generate heat of two types of operating temperatures, but can generate heat of different types of operating temperatures and generate heat of one operating temperature during electrical stimulation. If you are instructed to perform electrical stimulation during the heat generation at one operating temperature, or received an instruction to perform electrical stimulation and heat generation at one operating temperature In this case, when one operating temperature is equal to or higher than a predetermined temperature, the electric stimulus and the heat generated at the one operating temperature may be alternately operated. When the operating temperature of the heat generation is arbitrarily adjusted, when the specified operating temperature of the heat generation exceeds a predetermined value, the electrical stimulation and the heat generation are automatically operated alternately, and the operation using the combination of the electrical stimulation and the heat generation. To meet the user's requirements At the same time, it is possible to ensure the safety.
[0044]
(Second embodiment of the present invention)
A low-frequency treatment device according to a second embodiment of the present invention will be described with reference to the drawings. FIG. 9 is a view showing an example of the display on the liquid crystal display of the low frequency treatment device according to the present embodiment.
The low frequency treatment device according to the present embodiment is configured in the same manner as the low frequency treatment device according to the first embodiment, and when the electrical stimulation and the heat generation of heat are operated alternately, the continuous operation time of the electrical stimulation and It is different in that an adjusting means for adjusting the continuous operation time of heat generation is provided.
[0045]
This adjusting means is implemented by the microcomputer 61a, and the user adjusts the button in association with a certain button so that the adjusting means on the microcomputer 61a can continue the operation of the conductor 81b in accordance with the user's adjustment. The time and the continuous operation time of the heat generating part 81a are adjusted. A certain button is, for example, by pressing and holding the “thermal treatment” button 2r in association with the “thermal treatment” button 2r and the “strength” dial 2m, so that the “strength” dial 2m From the dial for adjusting the strength, it becomes a dial for adjusting the continuous operation time of the conductor portion 81b and the continuous operation time of the heat generating portion 81a. Here, the dial for adjusting the continuous operation time of the conductor part 81b and the continuous operation time of the heat generating part 81a is configured using two buttons, but the conductor part 81b is also used even if one button is used. Can be used as a dial for adjusting the continuous operation time of the heat generating portion 81a and the continuous operation time of the heat generating portion 81a. Further, the continuous operating time of the conductor portion 81b and the continuous operating time of the heat generating portion 81a are newly adjusted. Additional dials may be provided.
[0046]
The adjustment of the continuous operation time of the conductor part 81b and the continuous operation time of the heat generating part 81a is performed by setting the sum of the continuous operation time of the conductor part 81b and the continuous operation time of the heat generating part 81a as one cycle continuous operation time. The continuous operation time of the heat generating part 81a defined in the frequency therapy device is set to 50 [%], and the continuous operation time of the heat generating part 81a can be adjusted to be greater than 0 [%] and less than 100 [%]. By subtracting one cycle of continuous operation time from the continuous operation time of 81a, the continuous operation time of the conductor part 81b can be realized. Here, the adjustable range is limited to 100 [%], but it can also be configured to be able to be adjusted to 100 [%] or more in order to satisfy substantially all of one cycle duration in the continuous operation time of the heat generating portion 81a. .
[0047]
Next, the operation of using the low frequency treatment device according to this embodiment will be described. In the following explanation, regarding the use operation when receiving an instruction of electrical stimulation and heat generation, especially when the user presses the “thermal treatment” button 2r while applying electrical stimulation by the conductor 81b. It is about. For example, select “Auto Course or Manual” by pressing the Auto Course button or the “Function” button. When the user presses the “shoulder” button 2b, the microcomputer 61a reads the body display information around the shoulder from the ROM 61b and displays it on the liquid crystal display 11. In the display on the liquid crystal display 11, the position where the pad 81 of the set pad 8 is to be pasted is displayed on the display around the shoulder, and further, “the set pad is pasted at the displayed sticking position”. Please press the start button. " In response to this display, the user sticks the pad 81 of the set pad 8 on the body of the user at the same position as the display sticking position, and presses the “start / stop” button 2i. This initiates low frequency treatment. Thereafter, during the low-frequency treatment that is the treatment by the guiding portion, the low-frequency treatment user presses the “thermal treatment” button 2r. The microcomputer 61a determines that it is a case where an instruction of electrical stimulation and heat generation is received by the output of the “thermal treatment” button 2r. First, if there is no designation, information on the address g of the filter system is read from the ROM 61b. This information is information on the operation duration of 15 [seconds] for the treatment by the heat generating part 81a and 45 [seconds] for the treatment by the guiding part 81b. Further, the microcomputer 61a reads information on the ROM 61b using an address address corresponding to the output as an argument. The microcomputer 61a reads out the information at address a according to the output of the “thermal treatment” button 2r from the ROM 61b, outputs massage information regarding the heat generating part of 45 [° C.] to the heat generating part signal generating part 61ci, and generates the heat generating part signal generating part 61ci. Outputs a thermal signal of 45 [° C.] to the heat generating part 81a of the pad 81, and the heat generating part generates heat at an operating temperature of 45 [° C.]. Here, since the operation duration time read out earlier is 15 [seconds] for the treatment by the heat generating part 81a, the operation temperature is 45 [° C.] and heat is generated for 15 [seconds]. ], And the treatment with the heat generating part 81a is performed for 15 [seconds] after 45 [seconds]. Such treatment is repeatedly performed during the treatment time of the guiding portion 81b. After the treatment time of the guiding portion 81b is finished, the treatment of the guiding portion 81b is finished, and thereafter, the treatment instruction of the guiding portion 81b is instructed. Until then, the treatment of the heat generating portion 81a is performed again until the “thermal treatment” button 2r is pressed. At the same time, the treatment of the conductor part 81b and the treatment of the heat generating part 81a are performed at the same time on the liquid crystal display 11 as shown in FIG. Can be used to change the percentage of continuous operation time. ”Is displayed. The user or the user who is the user presses the “thermal treatment” button 2r for a long time, and adjusts the “strength” dial 2m between the continuous operation time of the conductor portion 81b and the continuous operation time of the heat generating portion 81a. Then, the “strength” dial 2m is rotated to adjust the continuous operation time of the conductor portion 81b and the continuous operation time of the heat generating portion 81a. While the dial is being adjusted, a gauge indicating the ratio between the continuous operation time of the conductor 81b and the continuous operation time of the heat generating part 81a is displayed on the liquid crystal display 11 (see FIG. 9). Can be adjusted. Further, the “strength” dial 2m can be an endless button (dial) so that accurate adjustment can be performed.
[0048]
As described above, according to the low-frequency treatment device according to the present embodiment, when the electrical stimulation and the heat generation of heat are operated alternately, the continuous operation time of the conductor portion 81b and the continuous operation time of the heat generation portion 81a are adjusted. Since the adjustment means is provided, the user can easily adjust the continuous operation time of the conductor part 81b and the continuous operation time of the heat generating part 81a by using a dial or the like associated with the adjustment means. When you want to receive treatment and fever treatment, if you want to increase the rate of electrical stimulation treatment, you can increase the duration of electrical stimulation, while on the other hand, if you want to increase the rate of thermal treatment, This can be realized by extending the continuous operation time of the fever, and can provide treatments that meet the needs of the user.
[0049]
(Third embodiment of the present invention)
A low frequency treatment device according to a third embodiment of the present invention will be described with reference to FIG. FIG. 10 is a view showing an example of the display on the liquid crystal display of the low frequency treatment device according to the present embodiment.
The low-frequency treatment device according to the present embodiment is configured in the same manner as the low-frequency treatment device according to the first embodiment, and the heat generation unit 81a generates a plurality of types of heat generation with different operating temperatures, and the heat generation setting state of the heat generation unit Based on this, electrical stimulation is performed in a range that does not cause excessive stimulation.
[0050]
The heat generation setting state refers to the content set by the user regarding heat generation, that is, the content specified by the user using buttons, switches, or the like regarding heat generation. More specifically, the user presses the “heat treatment” button 2r to instruct heat treatment, presses the “heater” button 2s to instruct heat retention, and presses the “preheat” button 2t. Indicates that preheating is instructed. Further, when the dial can change the operating temperature of the heat generating portion 81a, it indicates that the operating temperature designated by using the dial is instructed. Here, there are a case where a heat generation operation has already been performed based on this heat generation setting state and a case where a heat generation operation has been performed yet.
[0051]
The electrical stimulation based on the heat generation setting state means that the electrical stimulation and the heat generation are simultaneously operated based on the heat generation setting state (see FIG. 10A), and the electric stimulation and the heat generation based on the heat generation setting state. (Refer to FIG. 6 (b)), a part of electrical stimulation and heat generation are simultaneously operated based on the heat generation setting state (see FIG. 10 (b)), and electricity based on the heat generation setting state. This refers to operating the electrical stimulation by changing the intensity of the stimulation (see FIG. 10C). Hereinafter, the case will be specifically described. Note that, in the above-described embodiments, since the electrical stimulation and the heat generation are alternately operated based on the heat generation setting state, only the rest will be described. The simultaneous operation of electrical stimulation and heat generation based on the heat generation setting state means that, for example, as shown in FIG. 10 (a), a treatment signal related to the lead portion and a treatment signal related to the heat generation portion are output simultaneously. This is the case. For example, as shown in FIG. 10 (b), the simultaneous operation of partial electrical stimulation and heat generation based on the heat generation setting state means that a treatment signal related to a period conductor portion x and a treatment related to a heat generation portion are shown in FIG. This corresponds to an operation in which the signal is not output at the same time, and the treatment signal related to the conductor portion and the treatment signal related to the heat generating portion are output at the same time in the figure. For example, as shown in FIG. 10C, changing the intensity of the electrical stimulation based on the heat generation setting state and operating the electrical stimulation has a magnitude that is inversely proportional to the magnitude of the therapeutic signal related to the heating section. An operation that outputs a therapeutic signal related to the guiding portion is applicable.
[0052]
By such electrical stimulation based on the fever setting state, treatment can be performed in a range that does not cause excessive stimulation. That is, for example, if the range does not cause excessive stimulation, electrical stimulation and heat generation are simultaneously operated based on the heat generation setting state. If this operation results in excessive stimulation, the electrical stimulation is performed based on the heat generation setting state. When the electrical stimulation is activated by changing the intensity of the electric field, and this operation causes excessive stimulation, the electrical stimulation and the heat generation are alternately operated based on the heat generation setting state. In the case of stimulation, the configuration may be such that the electrical stimulation is operated by changing the strength of the electrical stimulation based on the heat generation setting state. Moreover, it is also possible to operate by combining electrical stimulations based on the respective heat generation setting states.
[0053]
As described above, according to the low-frequency treatment according to the present embodiment, the heat generating portion 81a generates a plurality of types of heat having different operating temperatures, and performs electrical stimulation within a range that does not cause excessive stimulation based on the heat generation setting state of the heat generating portion. Therefore, the user can freely instruct heat generation, and based on the heat generation setting state of the heat generating part according to this instruction, electrical stimulation and heat generation can be operated simultaneously, or electrical stimulation and heat generation can be operated alternately. In addition, the electrical stimulation and fever can be operated at the same time, or the intensity of the electrical stimulation can be changed to operate as much as possible according to the instructions of the user, and prevent excessive stimulation. Safety can be ensured.
[0054]
In addition, in the low frequency treatment device according to the present embodiment, when a dial that can continuously change the operating temperature of the heat generating portion (that is, different from a dial that can change the operating temperature only discretely) is provided, this dial When the heat generation setting state is continuously changed by the above, it is possible to perform electrical stimulation based on the heat generation setting state, and the continuous heat generation setting state operates while continuously changing the electric stimulation in response to the change. Can do. For example, when the operation temperature of the heat generating portion is instructed to be gradually changed from 40 [° C.] to 45 [° C.] using the dial, the conductor portion is related to the continuous change in the heat setting state. It is possible to operate by changing the magnitude of the therapeutic signal from 100 [%] to 50 [%]. Here, 100 [%] may be, for example, the magnitude of the therapeutic signal related to the guiding portion that the low frequency treatment device is based on, or the magnitude of the treating signal related to the guiding portion before the change. Also good.
[0055]
【The invention's effect】
As described above, in the present invention, the heat generating part generates a plurality of types of heat generated at different operating temperatures, and electric stimulation is performed within a range that does not cause excessive stimulation based on the heat generation setting state of the heat generating part. In response to the heat generation setting state of the heat generating unit according to this instruction, electrical stimulation and heat generation operate simultaneously, electrical stimulation and heat generation operate alternately, electrical stimulation and heat generation It is possible to operate partly simultaneously or change the intensity of electrical stimulation so that it can operate as much as possible according to the instructions of the user, and to prevent excessive stimulation and ensure safety There is an effect that can be done.
[0056]
Further, in the present invention, a treatment element having a heat generation part for generating heat and a conductor part for applying electrical stimulation, and a treatment signal generation part for generating a treatment signal at the heat generation part and the conductor part of the treatment element The heat generating part generates at least two types of heat generation with different operating temperatures, the heat generation with a high operating temperature is the first heat generation, the heat generation with the low operating temperature is the second heat generation, and the first during the electrical stimulation When instructed to perform heat generation, instructed to perform electrical stimulation during the first heat generation, or instructed to perform electrical stimulation and first heat generation, Since the electrical stimulation and the first heat generation are alternately operated, the user can receive the heat generation at a plurality of operation temperatures according to the user's selection, and the user can always operate the electric heat. If you are instructed to generate the first fever during stimulation, Even when instructed to perform air stimulation or when instructed to perform electrical stimulation and first heat generation, simultaneous operation of the first heat generation and electrical stimulation is automatically avoided, It is safe for the user without being injured due to excessive stimulation, and the user can also perform other work with peace of mind without causing excessive stimulation due to erroneous operation or confirmation error. If the caregiver is an elderly person and the caregiver is the family of the elderly person, the user may be misoperated, such as when the caregiver is unfamiliar, and if the elderly person is bedridden, the device cannot be turned off alone. However, there is an effect that it can be used with confidence without giving excessive stimulation to the user.
[0057]
Further, in the present invention, when the heat generating section generates a plurality of types of heat generated at different operating temperatures and is instructed to generate heat at one operating temperature during electrical stimulation, When an instruction is given to perform stimulation or when an instruction is given to perform electrical stimulation and heat generation at one operating temperature, when one operating temperature is equal to or higher than a predetermined temperature, Since the user operates alternately with the heat generated at one operating temperature, if the user operates to instruct to generate heat at one operating temperature during electrical stimulation, Even when instructed to perform electrical stimulation, or even instructed to perform electrical stimulation and heat generation at one operating temperature, the one operating temperature was not less than the specified value. When automatically heated with electrical stimulation and one operating temperature The effect of being able to be used in combination with electrical stimulation and heat generation while preventing excessive stimulation according to the user's request in any case Have
[0058]
Further, in the present invention, when the electrical stimulation and the heat generation are alternately operated, the continuous operation time of the electrical stimulation and the continuous operation time of the heat generation are 1 second or longer. The treatment time for each is too short. Specifically, an electrical stimulus is received and a fever stimulus is received while the stimulus remains, or a fever stimulus is received and the stimulus remains. In other words, it is equivalent to receiving electrical stimulation, i.e., electrical stimulation and fever stimulation at the same time for the user, and as a result, it cannot be prevented that the stimulation becomes excessive. The user has the effect of receiving the stimulation of the treatment after switching without being influenced by the stimulation of the treatment before switching, and ensuring safety without the stimulation being excessive.
[0059]
In the present invention, when the electrical stimulation and the heat generation are alternately operated, the continuous operation time of the electrical stimulation is equal to or longer than the continuous operation time of the heat generation, so that the stimulation does not feel pain when receiving the electrical stimulation. As long as it disappears as soon as possible, the stimulation of the fever remains for a while without feeling pain, and in the case of fever, the temperature of the treatment element does not decrease all at once, but gradually decreases to a predetermined level. This is because the user feels the stimulation of fever until the following, and thus the stimulation of the fever remains and the electrical stimulation does not remain so that the electrical stimulation is stimulated for a long time longer than the continuous operation time of the fever. The user has the effect of being equally able to receive stimulation of fever and electrical stimulation.
[0060]
In the present invention, when the electrical stimulation and the heat generation are alternately operated, the first heat generation is continuously performed until the operating temperature is reached, so that the heat generation is performed before the electrical stimulation and the heat generation are alternately operated. If the treatment element is not attached, the temperature of the treatment element is about the same as the temperature at room temperature, or about the same as the body temperature after the treatment element has been attached for a while. The treatment element can be raised to the operating temperature even when heat is generated for the first time when the two are operated alternately, and there is an effect that the thermal treatment can be performed smoothly immediately after the start of the alternate operation.
[0061]
Further, in the present invention, when the electrical stimulation and the heat generation are alternately operated, since the adjustment means for adjusting the continuous operation time of the electrical stimulation and the continuous operation time of the heat generation is provided, the user relates to the adjustment means. The continuous operation time of electrical stimulation and the continuous operation time of fever can be easily adjusted using a dial, etc., and if you want to receive treatment of electrical stimulation and treatment of fever, When you want to increase, you can achieve by increasing the continuous operation time of electrical stimulation. On the other hand, when you want to increase the rate of treatment, it can be realized by increasing the continuous operation time of fever and meet the diverse needs of users. It is possible to provide an effective treatment.
[Brief description of the drawings]
FIG. 1 is a perspective view showing a state where a lid of a low frequency treatment device according to a first embodiment of the present invention is closed.
FIG. 2 is a perspective view of the low frequency treatment device according to the first embodiment of the present invention with the lid portion opened.
FIG. 3 is a rear perspective view of the low frequency treatment device according to the first embodiment of the present invention.
FIG. 4 is a front view of a switch unit of the low frequency treatment device according to the first embodiment of the present invention.
FIG. 5 is a block configuration diagram of a control unit of the low frequency treatment device according to the first embodiment of the present invention.
FIG. 6 is a waveform diagram of application of a filter method to the low frequency treatment device according to the first embodiment of the present invention.
FIG. 7 is a schematic view of the contents stored in the ROM of the low frequency treatment device according to the first embodiment of the present invention.
FIG. 8 is a waveform diagram of application of the append method to the low frequency treatment device according to the first embodiment of the present invention.
FIG. 9 is a view showing an aspect of the display on the liquid crystal display of the low frequency treatment device according to the second embodiment of the present invention.
FIG. 10 is a waveform diagram of a low frequency treatment device according to a third embodiment of the present invention.
FIG. 11 is a block diagram of a conventional low frequency treatment device.
[Explanation of symbols]
1 lid
11 Liquid crystal display
2 Switch part
2a “Power on / off” button
2b "Shoulder" button
2c “Back” button
2d "Waist" button
2e “arm / leg” button
2f "Joint" button
2g “My Memory” button
2h "Function" button
2i “Start / Stop” button
2j “Pause” button
2k “Lock” button
2l 15/30 minutes button
2m, 2mA, 2mB “Strength” dial
2n “Switch polarity” button
2o “Continuous / intermittent” button
2p “Memory” button
2q “Speed” button
2r "Hyperthermia" button
2R Thermal LED lamp
2s “Heater” button
2S heater LED lamp
2t “Preheat” button
2T preheating LED lamp
2u “On / Off” button
2v “Strong / Weak” button
2w “15 min / 30 min” button
3 storage
31 Magnet
4 AC adapter
41 AC adapter jack
42 DC jack
43 Supply port jack
44 DC cable
5 AC adapter storage
51 Knob
52 Slider
53 lid
54 Partition
55 Knob hole
6 Control unit
61 Circuit board
61a Microcomputer
61b ROM
61c Treatment signal generator
61ci Heat generation part signal generation part
61cii Conductor part signal generator
61d electric circuit
62 Switch base
7 Power cable
71 Power plug
72 cable
73 AC adapter plug
8 pairs of pads
81 pad
81a Heating part
81b Conductor part
82 Signal code for treatment
83 Pad plug
84 spare pads
85 cord reel
85a sticking part
85b Reel part
9 Jack
10 Connection LED lamp
11 Thermal therapy LED lamp
161a Heat generation control circuit
161b Treatment current generation circuit
161c control circuit
181a Heating element

Claims (7)

A low frequency treatment device comprising a treatment element having a heat generating part for generating heat and a conductor part for applying electrical stimulation, and a treatment signal generating part for generating a treatment signal at the heat generation part and the conductor part of the treatment element In
The heat generating part generates multiple types of heat with different operating temperatures,
A low-frequency treatment device that performs electrical stimulation within a range that does not cause excessive stimulation based on a heat generation setting state of a heat generation unit. A low frequency treatment device comprising a treatment element having a heat generating part for generating heat and a conductor part for applying electrical stimulation, and a treatment signal generating part for generating a treatment signal at the heat generation part and the conductor part of the treatment element In
The heat generating part generates at least two types of heat generation with different operating temperatures, heat generation with a high operating temperature is a first heat generation, heat generation with a low operating temperature is a second heat generation,
When receiving an instruction to perform first heat generation during electrical stimulation, when receiving an instruction to perform electrical stimulation during first heat generation, or performing electrical stimulation and first heat generation When receiving an instruction, a low-frequency treatment device, wherein electrical stimulation and first heat generation are alternately operated. A low frequency treatment device comprising a treatment element having a heat generating part for generating heat and a conductor part for applying electrical stimulation, and a treatment signal generating part for generating a treatment signal at the heat generation part and the conductor part of the treatment element In
The heat generating part generates multiple types of heat with different operating temperatures,
When receiving an instruction to generate heat at one operating temperature during electrical stimulation, when receiving an instruction to perform electrical stimulation while generating heat at one operating temperature, or between electric stimulation and one operating temperature When receiving an instruction to perform heat generation, when one operating temperature is equal to or higher than a predetermined temperature, the electrical stimulation and heat generation at the one operating temperature are alternately operated. . In the low frequency treatment device according to claim 1 or 2,
When the electrical stimulation and heat generation are alternately operated, the low frequency treatment device is characterized in that the continuous operation time of the electrical stimulation and the continuous operation time of the heat generation are 1 second or more. The low frequency treatment device according to any one of claims 1 to 3,
When the electrical stimulation and the heat generation are alternately operated, the continuous operation time of the electrical stimulation is equal to or longer than the continuous operation time of the heat generation. The low frequency treatment device according to any one of claims 1 to 4,
When the electrical stimulation and the heat generation are alternately operated, the low frequency treatment device is continuously performed until the first heat generation reaches an operating temperature. In the low frequency treatment device according to any one of claims 1 to 5,
A low frequency treatment device comprising adjusting means for adjusting a continuous operation time of electrical stimulation and a continuous operation time of heat generation when the electrical stimulation and heat generation are alternately operated.

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