JP2502510Z - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Application Field] The present invention relates to a low-frequency treatment device having an adhesive conductor and a main body case. [Related Art] Conventionally, a low-frequency treatment device having an integral structure of an adhesive conductor and a main body case has been known. This low frequency treatment device has a main body case containing an operation circuit, a power supply unit, and the like, and an adhesive conductor provided with electrodes connected to the operation circuit. The adhesive conductor functions as an action section that causes an electric signal from the operation circuit to act via the electrode. Then, the adhesive conductor is attached to a portion of the human body where treatment is desired, and an electric current is applied between the electrodes of the adhesive conductor to apply electrical stimulation by a low-frequency signal to the corresponding portion to perform treatment. [Problem to be Solved by the Invention] However, while the adhesive conductor is formed integrally with a main body case having a rigid structure and has no flexibility, each part of the human body to be adhered is Has a problem that it is difficult to securely adhere the adhesive conductor of the low-frequency treatment device because the shape changes due to the movement of the body in addition to a complicated curved surface having an irregular shape. . The present invention has been made in view of the above problems, and its purpose is not only for a complicated curved surface having an irregular shape but also for each part of a human body whose shape changes due to body movement. It is another object of the present invention to provide a low-frequency treatment device that can securely adhere an adhesive conductor in a closely contacted state. [Means for Solving the Problems] In order to achieve the above object, the present invention provides a main body case containing an operation circuit and a power supply unit, and a pair of adhesive conductors. The child is a low-frequency treatment device having an electrode connected to the operation circuit and an adhesive pad to be attached to a treatment site, wherein the pair of adhesive conductors is placed on a flexible plate-like conductor holder. The electrodes of each of the adhesive conductors are formed of a conductor having flexibility and are formed in a layer on one side surface of the conductor holder, and the adhesive pads of each of the adhesive conductors are flexible. and layered is formed on the surface of the electrode as well as of a conductive material having a the other side of the Shirubeko holder and the main body case and connected by a connecting portion, wherein between the main body case and Shirubeko holder Around the connecting portion, the conductor holder
Provide a space to allow deformation of the lead and deform the lead holder to conform to the shape of the human body
It is made possible . Claim 2 comprises a main body case accommodating an operation circuit, a power supply unit, and the like, and a pair of adhesive conductors, each adhesive conductor being an electrode connected to the operation circuit, and an adhesive pad attached to a treatment site. Wherein the main body case is formed of a flexible material, and the pair of adhesive conductors are provided on the outer surface of the main body case so as to be separated from each other; The electrode is made of a flexible conductor, and is formed in a layer on one side surface of the conductor holder. The adhesive pad of each of the adhesive conductors is made of a flexible conductor and the surface of the electrode is formed. It is characterized in that it is formed in layers to form an integral structure. [ Operation ] According to the above configuration, the conductor holder is provided around the connection between the main body case and the conductor holder.
There is space to allow deformation of the holder, so the lead holder
Deformation along the complex curved surface of the human body, which is the treatment site, without disturbing
Can be. For this reason, make sure that the adhesive pad is in close contact with the complicated curved surface.
It is possible to apply electrical stimulation to the treatment site from the entire surface of the adhesive pad.
Indeed can be given. In addition, the surface of the treatment site to which the adhesive pad is attached
The adhesive pad can be cured without being disturbed by the
Since the adhesive state is maintained while being in close contact with the surface of the treatment unit, the entire surface of the adhesive pad
Thus, electrical stimulation can be reliably applied to the treatment site. [Embodiment] Hereinafter, a low frequency treatment device according to the present invention will be described with reference to the drawings. First Embodiment FIGS. 1 to 3 show a first embodiment of a low-frequency treatment device. The low-frequency treatment device 10 shown in FIGS. 1 and 2 connects a main body case 11, a conductor holder 13 provided with a pair of adhesive conductors 12a and 12b, and connects the main body case 11 and the conductor holder 13. And a connecting portion 14. The main body case 11 has a rigid structure, and houses an operation circuit 15 composed of components such as an IC and a power supply unit 16 such as a battery in an internal space. On the upper surface of the main body case 11, there is provided a switch operating unit 17 provided with a changeover switch for switching the intensity of electric pulses flowing from the operation circuit 15 to the electrodes 18 described later or an ON / OFF switch of the power supply unit 16. doing. The guide holder 13 is formed in a plate shape by a flexible body having flexibility, and a pair of adhesive guides 12a and 12b are separately mounted on one surface 13a. Each of the adhesive conductors 12a and 12b has the same shape, and includes an electrode 18 fixed to the conductor holder 13 and an adhesive pad 19 (see FIG. 3) covering the electrode 18 in a layered manner. This adhesive pad 19 can be removed from the electrode 18. Electrode 1
Reference numeral 8 denotes a flexible conductor, for example, a conductive rubber. And
Each of the electrodes 18, 18 is connected to the operating circuit 15, one of which is a positive electrode and the other is a negative electrode. The pressure-sensitive adhesive pad 19 is formed of a conductive material having flexibility. For example, by using a conductive acryl-based hydrogel or the like, the pressure-sensitive adhesive pad 19 can be stuck to a curved surface in a close contact state. Since the guide holder 13 has flexibility, the side shape thereof is not limited to the arc shape as shown in FIG. The connecting portion 14 is formed in a pillar shape having flexibility, and one end thereof is provided in the main body case 11.
The other end is attached to the other surface 13b of the lead holder 13 on the bottom surface 11a of the second member.
Then, around the connecting portion 14 between the main body case 11 and the
A space is provided to allow deformation of the holder 13. As described above, the low-frequency treatment device 10 in which the main body case 11 and the conductor holder 13 are integrally formed via the connecting portion 14 is a conductor holder provided with the adhesive portions 12a and 12b together with the connecting portion 14. 13 will have flexibility. And the guide holder
-13 is shaped into a human body by the above space without being disturbed by the main body case 11.
It becomes possible to deform along Migihitsuji. Next, the operation of the low frequency treatment device having the above configuration will be described. The low-frequency treatment device 10 is attached in a state where the adhesive conductors 12a and 12b are adhered to a site where treatment of a human body is desired. Then, an electric pulse is caused to flow between the electrodes 18 of the adhesive conductors 12a and 12b to apply electric stimulation by a low-frequency signal to a corresponding portion to perform treatment. At this time, the conductor holder 13 and each of the adhesive conductors 12a and 12b
Since There has flexibility, plate-like Shirubeko holder 13 that Do deformable together with the electrode 18, 18 and the adhesive pad 19. Then, the main body case 11 and the guide
Due to the space around the connection portion 14 with the rudder 13, the treatment site forms a complicated curved surface.
Even if it is formed, the guide holder 13 is obstructed by the main body case 11 along the curved surface.
Since the pressure-sensitive adhesive pads 19 can be deformed without sticking , the pressure-sensitive adhesive pads 19 can be securely adhered in a state where they are in close contact with each other. As a result, it becomes possible to provide the entire surface of the conductor der Ru viscous adhesive pads 19,19 of the electrical stimulation with low frequency signals reliably to the treatment site. Further, even if the surface of the treatment site to which the attachment pads 19, 19 are attached changes to a curved surface due to body movement, the plate-shaped conductor holder 13 is not obstructed by the main body case 11.
Since the electrodes 18 and 18 and the adhesive pads 19 and 19 are deformed corresponding to the curved surfaces thereof, the adhesive pads 19 and 19 maintain an adhered state while being in close contact with the surface of the treatment site. Electrical stimulation by a low-frequency signal can be reliably applied to the treatment site from the entire surface of the device. Second Embodiment FIGS. 4 and 5 show a second embodiment of the low-frequency treatment device. The low-frequency treatment device 30 shown in FIGS. 4 and 5 includes a main body case 31 and a main body case 3.
1 has a pair of adhesive conductors 12a and 12b. Each adhesive conductor 12a, 1
2b has the same configuration as that shown in the first embodiment. The main body case 31 is formed of a flexible material made of, for example, rubber, vinyl, or the like, and is internally mounted via a flexible substrate 32.
An operation circuit 34 including components 33 such as an IC, and a power supply unit 16 shown in the first embodiment are housed therein. The switch operation section 17 shown in the first embodiment is provided on the upper surface of the main body case 31. The adhesive conductors 12a and 12b are separately mounted on the bottom surface 31a of the main body case 31. As described above, since the main body case 31 formed integrally with the adhesive conductors 12a and 12b has flexibility, the entire low-frequency treatment device 30 has flexibility. Note that the side surface shape of the low frequency treatment device 30 is not limited to an arc shape as shown in FIG. Next, the operation of the low frequency treatment device having the above configuration will be described. The low-frequency treatment device 30 is mounted in a state where the adhesive conductors 12a and 12b are adhered to a site where treatment of a human body is desired. Then, an electric pulse is caused to flow between the electrodes 18 of the adhesive conductors 12a and 12b to apply electric stimulation by a low-frequency signal to a corresponding portion to perform treatment. At this time, the main body case 31 is formed of a flexible material, and the electrodes 18, 18 and the adhesive pads 19, 19 are formed in a layered form with a flexible conductor.
The main body case 31 can be deformed together with the electrodes 18, 18 and the adhesive pads 19, 19, so that even if the treatment site forms a complicated curved surface, the adhesive pads 19, 19 adhere to the treatment site along the curved surface. It can be securely attached to the state where
As a result, electrical stimulation can be reliably applied to the treatment site from the entire surface of the adhesive pads 19, 19, which are made of a conductor. Also, even if the surface of the treatment site to which the attachment pads 19, 19 are attached changes to a curved surface due to the movement of the body, the main body case 31 corresponds to the curved surface together with the electrodes 18, 18, and the adhesive pads 19, 19. Since the adhesive pads 19, 19 are deformed, the adhesive pads 19, 19 are maintained in an adhered state while being in close contact with the surface of the treatment site, and electric stimulation by a low-frequency signal is reliably applied to the treatment site from the entire surface of the adhesive pads 19, 19. Can be. There is no flexible battery for power supply or IC at present, but if a flexible battery is developed in the future, it will be more effective to adopt it. Low frequency treatment device. [Effect] As described above, according to the first aspect of the present invention, the main body case and the conductor holder are provided.
A space is provided around the connecting part between
Runode, Shirubeko holder, without being obstructed by the body case, it can be deformed along the complex curved surface of the human body as a treatment site. For this reason, the adhesive pad is
It can be securely adhered in a state where it adheres along a rough curved surface, and the adhesive pad
Electrical stimulation can be reliably applied to the treatment site from the entire surface. In addition,
Even if the surface of the treatment site where the pad is attached changes to a curved surface due to body movement, the adhesive pad
Is kept in close contact with the surface of the treatment site without being disturbed by the body case.
The electrical stimulation from the entire surface of the adhesive pad to the treatment site.
Can be. According to the second aspect, a main body case accommodating an operation circuit, a power supply unit, and the like, and a pair of adhesive conductors are provided. Each adhesive conductor is attached to an electrode connected to the operation circuit and to a treatment site. A low-frequency treatment device having an adhesive pad to be attached, wherein the main body case is formed of a flexible material, and the pair of adhesive conductors are provided on the outer surface of the main body case so as to be separated from each other. The electrode of the adhesive conductor is formed of a flexible conductor and is formed in a layer on the outer surface of the conductor holder, and the adhesive pad of each of the adhesive conductors is formed of a flexible conductor. Since the electrode case and the pressure-sensitive adhesive pad are deformable together with the electrode and the adhesive pad, the body case can be deformed together with the electrode and the adhesive pad. Along the adhesive pad along the treatment section Ensuring the state of being in close contact with the can stuck, as a result, it becomes possible to provide the entire surface of the adhesive pad by a conductive electrical stimulation securely to the treatment site. In addition, even if the surface of the treatment site to which the attachment pad is attached changes to a curved surface due to body movement, the main body case is deformed corresponding to the curved surface together with the electrodes and the adhesive pad. The adhered state is maintained while being in close contact with the surface, and electrical stimulation can be reliably applied to the treatment site from the entire surface of the adhesive pad.

BRIEF DESCRIPTION OF THE DRAWINGS FIGS. 1 to 3 show a first embodiment of a low-frequency treatment device according to the present invention. FIG. 1 is a plan view, FIG. 2 is a side view, and FIG. FIG. 4 is an explanatory view of an adhesive conductor. 4 and 5 show a second embodiment of the low-frequency treatment device according to the present invention. FIG. 4 is a plan view and FIG. 5 is a side view. 10, 30 low-frequency treatment device 11, 31 body case 12a, 12b adhesive conductor 13 conductor holder 14 connecting part 15, 34 operating circuit 16 power supply part

Claims (1)

[Claims for registration of utility model] (1) A main body case containing an operating circuit and a power supply unit, and a pair of adhesive conductors are provided.
Each adhesive conductor is a low-frequency treatment device having an electrode connected to the operating circuit and an adhesive pad attached to a treatment site, wherein the pair of adhesive conductors is a flexible plate-shaped conductor. The adhesive holders are provided separately from each other, and the electrodes of each of the adhesive conductors are formed of a conductor having flexibility and are formed in a layer on one side surface of the conductor holder. It is composed of a flexible conductor and is formed in a layer on the surface of the electrode. The other side of the conductor holder and the main body case are connected by a connecting portion, and the main body case and the conductor holder are connected to each other. Around the connecting portion between the conductor holder
Provide a space to allow deformation of the lead and deform the lead holder to conform to the shape of the human body
A low-frequency treatment device characterized by being made possible . (2) a main body case containing an operation circuit and a power supply unit, and a pair of adhesive conductors;
Each adhesive conductor is a low-frequency therapeutic device having an electrode connected to the operating circuit and an adhesive pad attached to a treatment site, wherein the main body case is formed of a flexible material; The pair of adhesive conductors are provided on the outer surface of the case so as to be separated from each other, and the electrodes of each of the adhesive conductors are formed of a conductor having flexibility, and are formed in a layer on one side surface of the conductor holder. A low-frequency treatment device, wherein an adhesive pad of each adhesive conductor is formed of a conductor having flexibility and is formed as a layer on the surface of the electrode to form an integral structure.