JPH10500884A - Stimulator for penis, scrotum, anus, vagina and clitoral tissue - Google Patents

Abstract

Abstract: Male and female electrodes (50, 160, 170, 180, 190) for stimulating penile, scrotal, anal, vaginal and clitoral tissues are shown. The electrodes are made of an elastomeric material and preferably include memory bend wires (54, 169, 179, 189, 194) that maintain the shape of the electrodes. The electrical stimulation of the site is performed to suppress urinary incontinence, to induce erection in the case of sexual incapacity, or to induce sexual arousal and orgasm. The male penis ring electrode (100, 110, 700, 710) composed of an elastomeric or flexible material and configured for use in pairs has a non-conductive outer surface (101, 111, 701, 711). And an inner conductive layer (106, 116, 706, 716). Connection terminals (108, 708) for connecting the electrodes to a power source are provided on the outer surface and connect to the inner conductive layer. Similar electrodes (120, 720) that can be used alone have two non-conductive parts that separate the two inner conductive parts. A non-conductive ring (53) near the center, a female electrode of an elongated sphere (50) having two conductive portions (51, 52) near the non-conductive ring, and a conductive top (166) and Disclosed is a plug having side portions (167, 168) and having regions of non-conductive material (162, 164) located therebetween. Further provided are anal and male urethral electrodes (190), also made of an elastomeric material.

Description

Detailed Description of the Invention Stimulator for penis, scrotum, anus, vagina and clitoral tissue Technical field The present invention relates to an apparatus for applying electric energy to living tissue. More specifically, the present invention relates to a device for electrically stimulating penile, scrotal, anal, vaginal and clitoral tissues. In a more specific aspect, the present invention is directed to treating penile tissue, scrotal tissue, vaginal tissue, and vaginal tissue for the purpose of treating male and female urinary incontinence, or for inducing penile erection or male or female orgasm. It relates to electrical stimulation performed on nuclear tissue. Background art It is widely known that electrical stimulation of the neuromuscular area at or near the genital tract is used to treat urinary incontinence in men and women. It is also well known that erection can be induced by applying electrical stimulation to penile tissue when incapacitated due to physiological or mental causes. In addition, by applying electrical stimulation to the penis, vagina, clitoris, anus or prostate tissue, it is possible to induce orgasm even when the site has vascular degenerative neurosis. It is also well known. It is also known that diabetes and many other diseases can cause penile erectile dysfunction. There are various devices in the prior art that are used to provide electrical stimulation to a diseased site. An inflexible ring that can apply a small current to the skin and muscles is usually worn around the penis and / or scrotum. Flat or plug-shaped insertable electrodes, which are sized to fit the body of the user, are also well known, and provide a minimal amount of skin and muscle inside or around the vagina and anus. Used to apply a level of electricity. Urinary incontinence is one of the well-known illnesses, especially after a stroke, which may require prolonged rehabilitation to restore self-control and the need to constantly use external control devices It can happen that it does not. The prior art does not teach devices that allow a fully-dressed user to keep on wearing while performing daily tasks. If it is possible to control the urethra or induce an erection by passing current through only a portion of the penile tissue, it is possible to use a non-flexible ring for men. This is because a sufficient inflation allowance space is required inside the ring in order to receive a hyperemic penis. Inflexible rings have penile atrophy and are particularly problematic in cases where the aim is to induce an erection or orgasm. From the non-excited state to the hyperemic state, the size of penile tissue changes significantly. Thus, it may be necessary to use a large diameter ring for a small diameter penis or to replace the ring during treatment. For women, a single, independent device that can be used in various ways is desirable for suppressing urinary incontinence and for stimulating and orgasming. Such a device must in particular be constructed so that it can be worn beneath the user's clothing and can be operated during the normal daily work of women. Therefore, it would be highly advantageous to overcome the above and other disadvantages associated with the prior art. Accordingly, it is an object of the present invention to provide an improved electrical stimulator for men and women. Another object of the present invention is to provide an improvement particularly suited for the use of the device for the control and treatment of male and female urinary incontinence. Another object of the present invention is to provide an improved means for providing electrical stimulation to the vagina. Yet another object of the present invention is to provide an improved means for applying electrical stimulation to the vagina, which means can be easily changed to a means for applying electrical stimulation to clitoral tissue. That is. Yet another object of the present invention is to provide a means for applying electrical stimulation to penile and scrotal tissue. It is yet another object of the present invention to provide an improved means for applying electrical stimulation to penile and scrotal tissue, wherein the means is capable of expanding according to the erection of the penis. Yet another object of the present invention is to provide an improvement regarding the connectivity of the electrical stimulator. Yet another object of the present invention is to provide a male and female electrical stimulator that can be comfortably and individually worn under the user's clothing. Yet another object of the present invention is to provide a male electrical stimulator capable of inducing erection and orgasm and a female electrical stimulator capable of inducing orgasm. It is yet another object of the present invention to provide such means and improvements that greatly reduce the cost of male and female electrical stimulators. Disclosure of the invention Briefly, a female electrical stimulator provided in accordance with a preferred embodiment to achieve the above object of the present invention has a base plate to which electrodes are connected via wires, and the plate has a base plate. May be connected to a controller. The base plate has a fixing string, and the plate can be fixed to the body of a female user with the string. The female electrode device and its electrodes are formed from an elastomeric material. The female electrode is inserted and placed inside the vagina. When an electric current is applied in this state, the muscle surrounding the urethra contracts and urinary incontinence is suppressed. In addition, when a current is applied in the above state, a sexually aroused state and orgasm can be induced. It is also possible to induce sexual arousal and orgasm by providing the female electrode at the opening of the base plate and attaching it to the clitoral tissue. A ring shaped male electrode worn around the penis and / or scrotal tissue constitutes one embodiment of the present invention. The ring is also made of an elastomeric material and has a button-shaped metal snap connection. The terminal is provided outside the ring and is electrically connected to a side edge of the ring and a conductive material region forming an inner surface thereof. In embodiments having one electrical connection terminal, the entire outer surface of the ring is non-conductive. The rings are used in pairs, one of which is connected to the negative side of the controller and the other is connected to the positive side of the controller. Further, the male electrode may be formed as a band-shaped member that is formed into a ring shape by wrapping it around the penis and / or scrotal tissue. The band-shaped member is made of a flexible material, and has a button-shaped metal snap connection terminal provided on an outer surface thereof and electrically connected to a conductive material fixed to an inner surface thereof. Another male electrode ring that can be used alone has two connection terminals, one connection terminal is connected to the minus side of the controller, and the other connection terminal is connected to the plus side of the controller. . Between the connection terminals are provided two small non-conductive areas of the ring. By using a ring with two connection terminals or two rings with one connection terminal, it is possible to apply a current to the penis and / or the base of the scrotum. This allows the bladder muscles to contract, thereby suppressing urinary incontinence. In addition, it is possible to induce sexual arousal and orgasm by flowing an electric current. An electrode having two conductive surfaces can be formed as a flexible strip configured to separate two conductive regions by one non-conductive region. In use, the band-shaped member can be deformed into a ring shape similar to an electrode ring having two connection terminals. BRIEF DESCRIPTION OF THE FIGURES The above and other specific objects and advantages of the present invention will become apparent to those skilled in the art from the following detailed description of the preferred embodiments with reference to the drawings. FIG. 1 is a perspective view of a female electrode device and a controller according to the present invention. FIG. 2 is a sectional view of the female electrode shown in FIG. FIG. 3 is a perspective view of the male electrode device. 4 and 5 are a bottom view and a top view, respectively, showing another embodiment of the male electrode device. FIG. 6 is a perspective view showing still another embodiment of the male electrode device. FIG. 7 is a cross-sectional view showing a usage mode of the female electrode device mounted inside and near the vagina of the user. FIG. 8 is a perspective view showing a usage mode of the male electrode device mounted on the penis and scrotum tissue of the user. FIG. 9 is a front view of the female electrode device. FIG. 10 is a side view showing another arrangement of the female electrode device. FIG. 11 is a side view showing another arrangement of the female electrode device. 12 and 13 are perspective views showing another embodiment of the male electrode device. 14 and 15 are a bottom view and a top view, respectively, showing still another embodiment of the male electrode device. 16 and 17 are perspective views showing another embodiment of the male electrode device. FIG. 18 is a cross-sectional view of the vaginal electrode. FIG. 19 is a sectional view showing another embodiment of the vaginal electrode shown in FIG. FIG. 20 is a cross-sectional view of the anal electrode. FIG. 21 is a cross-sectional view showing another embodiment of an anal electrode which can be used also as a male urethral electrode. BEST MODE FOR CARRYING OUT THE INVENTION In the drawing, The corresponding elements in the different figures are The same reference numerals are used. FIG. 1 shows a controller 10. The controller 10 shown in FIG. It has a 1/8 inch diameter plus and minus insertion jacks (not shown), Via this, the wire connection plugs 12 and 14 connect to the controller 10. The controller 10 A switch 15 for selectively driving the controller 10 on and off; Knob 16, 16a, 17, 18 and 19. Each of these knobs Rough adjustment of frequency, Fine adjustment, Adjustment of the pulse, This is for performing fine adjustment and rough adjustment of electric power. Push buttons 22 and 24 It is used for the purpose of cutting off the power applied to one of the insertion jacks of the controller 10. In addition, the controller 10 includes: Lights 22a and 24a are provided, It is configured so that a light is turned on when current is flowing through the corresponding insertion jack. Normal, The controller 10 is battery-powered, Generates 9 or 12 volt DC current. This current is Adjustment is possible as described above. The controller 10 is not only a DC signal source, It is configured so that it can be used alternately as a supply source of an electric pulse signal. Insulated wires 26 and 27 extend from plugs 12 and 14, At each end, Button-shaped female snap connection head 28, 29 are provided. Button-shaped female side snap connection head 28, Inside of 29, A button-shaped female snap connection terminal (not shown) is provided. As shown in FIG. Connection head 28, 29 is It is connected to the female electrode device 40. This device 40 A base plate 41, Fixed string 43, 44, A wire 45 connected to the electrode 50; An opening 46; And a wire groove 47. It is clear to a person skilled in the art that Connection head 28, The button-type female snap connection terminals inside 29 Connected to the button type male connection terminal. Each male connection terminal is the same as the terminal 108 shown in FIG. In the embodiment of FIG. Two male connection terminals are embedded in the base plate 41. The base plate 41 Silicon and Vuitton, It is made of an elastomeric material such as neoprene. These materials are non-conductive. As mentioned above, The button-type male connection terminal embedded in the plate is conductive, Generally, it is made of metal. Wire 45 is It is obtained by twisting two insulated wires. At one end of the wire, One conductor is Connected to one button type male side connection terminal, The other conductor is Connected to the other button-type male connection terminal. A member enabling such connection is embedded in the base plate 41. FIG. FIG. 2 is a cross-sectional view of the exemplary electrode 50 shown in FIG. The electrode 50 generally has a ball shape, Specifically, spherical, It is formed in an elongated spherical shape or an elliptical spherical shape. The electrode 50 is Small modulus silicon, Made from non-conductive elastomeric materials such as Vuitton and Neoprene, It has conductive parts 51 and 52. In order to impart conductivity to the conductive portions 51 and 52, silicon, Vuitton, In addition, carbon particles are embedded in neoprene. At the other end of the wire 45, One of the two conductors is embedded in the conductive portion 51, The other conductor is embedded in the conductive part 52. A circuit connected to the conductive portion 51, The circuit connected to the conductive part 52 is as follows. It is insulated by the non-conductive portion 53. In the preferred embodiment, The non-conductive portion 53 has a cylindrical ring shape, Each of the conductive portions 51 and 52 is hemispherical. According to a preferred aspect of the present invention, The electrode 50 is It is a shape that extends a sphere, A memory bend wire 54 is included therein. In production The electrode 50 can be molded around the memory bend wire 54. The memory bend wire 54 It is preferable that the conductive portions 51 and 52 be insulated so as not to be electrically connected. By providing the memory bend wire 54, The electrode 50 can be deformed into various shapes. For example, FIG. It shows a state in which the electrode 50 has been deformed into a slightly bent state. The memory bend wire 54 is freely deformable, In addition, it has rigidity enough to substantially maintain the shape of the electrode 50. in this way, The electrode 50 is It can be bent according to personal preference. In normal use of the female electrode device 40, The base plate 41 is attached so as to cover the vagina. At this time, The opening 46 is arranged so as to be located substantially at the clitoral part. The fixed strings 43 and 44 are It is provided through the base plate 41, Wrap this around the user's body and tie it behind, It is configured such that the base plate 41 can be fixed. For other uses of the female electrode device 40, This will be described below with reference to FIG. 7 and FIGS. FIG. Shown are electrode rings 100 and 110. Ring 100 It includes a body 102 formed of a flexible material such as a leather or nylon web. The body 102 has an inner surface (not visible in the figure) And a non-conductive outer surface 101 adjacent thereto. The inner conductive layer 106 Preferably, It is connected to the inside surface of the main body 102. The inner conductive layer 106 It is substantially insulated from the non-conductive outer surface 101. Also, the ring 100 A button-shaped male connection terminal 108 and a handle 109 are included. The handle 109 is To allow the user to manually adjust the position of the ring 100 without touching the electricity, It is preferably non-conductive. The connection terminal 108 It is buried through the non-conductive outer surface 101 so as to conduct with the inner conductive layer 106. The inner conductive layer 106 What is necessary is just to form with arbitrary conductive materials. For example, The inner conductive layer 106 Metal sheets, It may be formed from a silicon or neoprene material with embedded carbon particles (see description for electrode 50). Ring 110 The ring 110 is Except that it does not have a handle corresponding to the handle 109, It is structurally identical to the ring 100. Ring 110 It includes a body 112 having a non-conductive outer surface 111 and an inner surface (not visible). Inner conductive layer 116 is connected to the inner surface of body 112. By using the handle 109, The user can rotate the ring 100, You can move it back and forth. Therefore, A ring 100 is placed around the penis tissue, Even when a current is applied to the ring 100 from the controller 10, It does not accidentally touch the conductive surface. No similar operation is required for ring 110. This is because the ring is provided around the top of the scrotum. Since each of the rings 100 and 110 has one connection terminal, These need to be used in pairs with each other, Either one of the rings 100 or 110, It is also possible to use in combination with one of the various electrodes described below. These rings are To form an electric circuit, It is necessary to use them in pairs as described above. 4 and 5, respectively. It is a bottom view and a top view of the electrode 400. The electrode 400 A first surface 404; A non-conductive surface 406; A first end 408, And a flexible strip 402 having a second end 410. The flexible strip 402 Even if it is made of leather or nylon web, Alternatively, it may be formed of another appropriate material. The electrode 400 First and second ends 408, 410 includes a securing portion 412 configured to couple together. For example, The fixing part 412 is Magic tape (shown) It may be a snap engagement member. The electrode 400 is First and second ends 408, Preferably, the strip 402 is configured to form a ring when the 410 are secured together. To make it easy to obtain various ring diameters, Of course, it is also possible to configure the fixing portion 412 so that the amount of overlap between the first and second ends can be adjusted. The conductive layer 414 is fixed to the first surface 404. The conductive layer 414 is It is substantially insulated from the non-conductive surface 406. In order to apply a voltage to the conductive layer 414, The electrical connector 416 It is preferable that the conductive layer be provided on the non-conductive surface 406 in a state where the conductive layer 414 is conductive. Connector 416 is It may be formed similarly to the snap connection terminal 108 (see FIG. 3). To construct the current path, Two electrodes 400 may be used cooperatively. To prevent the user from accidentally touching the conductive surface, The electrode 400 It may include a non-conductive handle (not shown) similar to the non-conductive handle 109 previously described with reference to FIG. FIG. FIG. 7 illustrates electrode rings 700 and 710 according to another embodiment of the present invention. Rings 700 and 710 respectively Similar to rings 100 and 110. However, Rings 700 and 710 are Generally, Shore A hardness is 30 ± 10, A small modulus silicon having an elongation of 700% and a tear strength of 50, Vuitton, And an elastomeric material such as neoprene. Ring 700 An outer surface 701; Side edges 702 and 704; An inner surface 706; It has a button-type male snap connection terminal 708 and a handle 709. The connection terminal 708 is embedded so as to penetrate the outer surface 701 and reach the inner surface 706. The inner surface is adjacent to side edges 702 and 704; There is no shielding between them. The outer surface 701 including the handle 709 is non-conductive. An inner surface 706 and side edges 702; 704 is silicon, Vuitton, Alternatively, it is conductive due to the influence of carbon particles embedded in neoprene. in this way, An area of conductive material is located between outer surface 701 and inner surface 706. The carbon particles Shore A hardness is 65 ± 10, 200% growth, The tear strength is 35. Ring 710 Except that the ring does not have a handle corresponding to handle 709, It is structurally identical to ring 700. Ring 710 An outer surface 711; Side edges 712 and 714; And an inner surface 716. As already mentioned in connection with ring 110, Ring 710 It is not intended to be manually operated after the voltage is applied. FIG. It is sectional drawing which shows the state which mounted the electrode device 40 for women on the lower abdomen of a female body. The pelvic region 200 shown in the figure is Clitoris 201, Vaginal part 202, 203 bladders, And a urethral part 204. Wires 26 (not shown in FIG. 7) and 27 are connected to controller 10. In two of the three usage patterns, The female electrode 50 is placed inside the vagina. For the purpose of suppressing urinary incontinence, the electrode 50 is inserted shallowly into the vagina, Apply a negligible amount of voltage. This allows As a result of a current flowing through muscles (not shown) surrounding the urethra 204 to contract the urethra 204, Urine leakage can be prevented. It is possible to fix the device 40 to the body of the user using the fixing cord shown in FIG. The controller 10 can be carried in a pocket. The electrode 50 also Insert shallow or deep inside the vagina 202, Furthermore, it can be used for the purpose of inducing an excitement state and orgasm by adjusting the electric current. further, If hand stimulation is needed, The clitoris can be touched through the opening 46. In FIG. The ring 100 is mounted near the base of the penis 300, Ring 110 It is worn near the top of scrotum 310. The ring 100 is particularly excellent in elasticity in the diameter direction. This allows Even if the penis of standard size changes from unexcited to erect, This change can be accommodated by one regular size ring. Also, It is necessary when used in cases of penile atrophy or sexual incapacity, Large elongation can be obtained even if the diameter of the ring is reduced. The current is It can be adjusted appropriately by the controller 10. According to the configuration of the rings 100 and 110, Depending on the mode of adjustment, It is possible to control urinary incontinence, According to another mode of adjustment, Erection and excitement, It is possible to induce orgasm. One or more rings 100, 110, These may be replaced by the same number of electrodes 400 (described previously in connection with FIGS. 4-5). Moreover, The rings 100 or 110 respectively It may be replaced by a ring 700 or 710 (described previously in connection with FIG. 6). FIG. FIG. 2 is a front view of the device 40. In the figure, A button-type male snap connection terminal 30 is shown. The corresponding connection terminal is provided below the connector 28. The connector 28 has a female button-type snap connection terminal. FIG. FIG. 14 is a side view of the device 40 in a third use mode not used inside the vagina. In this form, The electrode 50 is disposed in the opening 46, The wire 45 is pushed into the groove 47. In this form, When mounting the device 40 in the position as shown in FIG. The electrode 50 is arranged so as to come to the clitoral part 201. This usage pattern is It is intended to induce orgasm by applying a current to the clitoris. FIG. FIG. 3 is a side view of the device 40 used in the first two uses of the present application. To transform the device 40 from the state shown in FIG. 10 to the state shown in FIG. It is only necessary to push the electrode 50 from left to right (see FIGS. 10 and 11) and remove the electrode from the opening 46. The electrode 50 can be worn in the female or male anus to induce excitement and orgasm. The electrodes 50 shown in FIGS. It does not have a bent shape as shown in FIG. The present invention also provides It relates to a device similar to device 40 in which two electrodes (not shown) are connected by wires. Each electrode of this device is It is similar to the electrode 50. However, The two conductive members of each electrode It is connected to one end of a wire formed by twisting two wires (similar to wire 45). as a result, In order for a current to flow between the two electrodes, it is necessary that both electrodes be in contact with the body. Such devices are: Because current flows through the body between the electrodes, It is very useful for stimulating the bladder and the muscles that control the urethra. To do this, One electrode in front of the body, For example, place inside the vagina, The other behind the body, For example, it is placed inside the anus. When using the device for men, Ring 100, 110, 700, 7 10, Alternatively, the electrode 400 (see FIGS. 3 to 6) may be replaced with a spherical electrode. 12 and 13 5 shows details of a penis electrode ring 120 according to another embodiment. Has only one connection terminal, Unlike rings 100 and 110 which need to be used in pairs, Since the ring 120 has two connection terminals, It can be worn on the penis without using a separate ring. Ring 120 It includes a body 122 made of a flexible material such as a leather or nylon web. The main body 122 The inner surface (not visible in the picture) An adjacent non-conductive outer surface 124. The inner conductive layer is A first conductive portion 126, And a second conductive portion 130. The first conductive portion 126 A first end 132; And a second end 134. Further, the second conductive portion 130 A first end 136, And a second end 140. The conductive parts 126 and 130 While being fixed to the inner surface of the main body 122, It is substantially insulated from the non-conductive outer surface 124. The conductive portions 126 and 130 First and second non-conductive portions 142, Insulated from each other via 146. The first non-conductive portion is A first end 132 of the first conductive portion 126; It bridges between the second conductive portion 130 and the first end 136. Similarly, The second non-conductive portion 146 includes A second end 134 of the first conductive portion 126; It bridges between the second conductive portion 130 and the second end 140. The conductive parts 126 and 130 Metal sheet or What is necessary is just to form with arbitrary conductive materials, such as silicon and neoprene (refer the description about the electrode 50) which embedded the carbon particle. The button-type male snap connection terminals 128 and 138 are Penetrating the non-conductive outer surface 124; Second and first conductive parts 130, 126 respectively. A handle 144 extends from the outer surface 124; The handle is also non-conductive. Therefore, Even if current is flowing, You can move the ring 120 by hand, You can rotate it. Such a non-conductive surface is Small modulus silicon, It can be made from Vuitton or Neoprene. In use, As in the case of the female electrode device 40 (see FIG. 1), The controller 10 is connected to the electrode ring 120. The snap connection terminal having the head portions 28 and 29 includes: Connected to connection terminals 128 and 138. Instead of using the ring 120, In the present invention, an electrode 500 as shown in FIGS. FIG. FIG. 9 is a bottom view of the electrode 500; FIG. FIG. 9 is a top view of the electrode 500. The electrode 500 Since it is similar to the electrode 400 (see FIGS. 4 and 5), See the description for electrode 400. The electrode 500 First surface 504, Non-conductive surface 506, Having a first end 508 and a second end 510; It is formed from a flexible band member 502. The electrode 500 First and second ends 508, It includes a securing portion 512 configured to secure the 510 to each other. The fixing part 512 shown in the figure is a magic tape, Other securing members can be used for similar purposes. The electrode 500 First and second ends 508, When 510 is fixed to each other, The belt-shaped member 502 is configured to form a ring. The conductive layer is A first conductive portion 514 and a second conductive portion 516, Each of them is fixed to the first surface 504. Preferably, The first electrical connection terminal 518 is It is supported on the non-conductive surface 506 in a state where it is electrically connected to the first conductive portion 514. Similarly, The second electrical connection terminal 520 is It is provided in a state where it is electrically connected to the second conductive portion 516. The electrode 500 A non-conductive handle (not shown) similar to the non-conductive handle 109 previously described with reference to FIG. 3 may be included. The first conductive portion 514 includes It has a first end 522 and a second end 524, The second conductive portion 516 includes It has a first end 526 and a second end 528. The electrode 500 is A first end 522 of the first conductive portion 514; A first non-conductive portion 530 bridging the first end portion 526 of the second conductive portion 516 is included. Also, Preferably, The electrode 500 is On the first surface, It includes a second non-conductive portion 532 located at the first end 508 of the strip 502. of course, The second non-conductive portion 532 is not the first end 508, You may provide so that it may be located in the 2nd end part 510. Also, The electrode 500 Both ends 508, A non-conductive portion may be provided at the position of 510. As in the case of the electrode 400, Preferably, The electrode 500 First and second ends 508, The rings form when 510 is secured together. Therefore, First and second conductive portions 514, 516 is First and second ends 508, When 510 is fixed by the fixing portion 512, It is configured not to contact each other. The second non-conductive portion 532 also When the electrode 500 is formed in a ring shape, the first and second conductive portions 514, It is provided for the purpose of making it difficult for electrical contact to occur between 516. Figures 16-17 The details of another penis electrode ring 720 are shown. The ring 720 is Rings 700 and 710 are formed of the same elastomeric material. Each having one connection terminal, Ring 700 that needs to be used in pairs, Unlike 710, Ring 720 is It has two connection terminals, Even without another ring, It can be used around the penis. Ring 720 is Non-conductive outer surfaces 722 and 732; And a non-conductive portion. The non-conductive portion is Outer surface 740, 750, Top rim 742, 752, Outer surface 740, Bottom rim adjacent to 750 (not shown, Top rim 742, 752) and Inner surface 743, 753, have. Outer surface 740, 750, A corresponding inner surface 743, The inner thickness region of each electrode wall between 753 is also non-conductive. further, A non-conductive handle 744 extends from outer surface 740. This allows Even when current is flowing, Move the ring 720 by hand, Can be rotated. Such non-conductive surface and non-conductive part, Small modulus silicon, Consists of Vuitton and Neoprene. Like the electrodes described above, Conductive surface 724, 726, 734 and 736; A bottom rim adjacent the outer surfaces 722 and 732; Outer surface 722, 732 and inner surface 726; The internal thickness of the electrode wall sandwiched between Embedded carbon particles, Small modulus silicon, Made of Vuitton & Neoprene. in this way, Two conductive material areas It is defined between the inner and outer surfaces of the conductive portion of the ring 720. The button-shaped male connection terminals 728 and 738 are respectively Penetrating surfaces 722 and 732, Rims 724 and 734; It is in communication with the conductive material between the corresponding bottom rim. FIG. 5 shows a vaginal electrode 160. The electrode 160 It is preferably formed from the same material as the electrode 50 (see FIG. 2), Base portion 161, The vertical portion 162 and the region 164 are non-conductive. The vertical portion 162 and the region 164 are Conductive side surface portion 167, Conductive side surface portion 168, And a top 166 to form a non-conductive region. Top 166 and side 167, 168 is Conductive, Preferably they are insulated from each other. The top 166 is It is electrically connected to the first connection terminal 163, Side part 167, 168 are respectively The second and third connection terminals 165a, 165b. The electrode 160 Connection is achieved in the same manner as the electrode 40. The base 161 is It is a non-conductive substantially flat elliptical member. Preferably, The connection terminals 165a and 165b are respectively It is in direct contact with the conductive side portions 167 and 168. In other words, In the electrode 160, Connection terminals 165a and 165b; This means that there is no need for a conductive wire or a jumper to connect between the conductive side surfaces 167 and 168. With this feature, The electrode 160 For example, it can be easily manufactured by a well-known molding technique or the like. Two or more of the conductive surface or conductive portion of the vaginal electrode 160, For example, the connection terminal 163, With the jumper wires provided at 165a and 165b, Being connectable to each other means It will be clear to those skilled in the art. This allows The electrode 160 It can be used with another single connection terminal. According to a preferred aspect of the present invention, Electrode 160 includes a memory bend wire 169 therein. Memory bend wire 169 This is similar to the memory bend wire 54 described with reference to FIG. In this example, The memory bend wire 169 is It also has the function of establishing conduction between the top 166 and the first connection terminal 163. Also, separate wires (not shown) It may be used with insulated memory bend wires 169. As already mentioned, By using the memory bend wire 169, Even after the user changes the shape of the electrode 160, the shape can be maintained. FIG. Formed of a similar elastomeric material in the manner taught herein, It is sectional drawing of the electrode 170 for vagina which concerns on another Example. The electrode 170 has a non-conductive base portion 171; Connection terminals 172 and 173 are provided therethrough. The connection terminal 172 is It is provided so as to be in direct contact with the conductive portion 174, The connection terminal 173 is The conductive part 174 is shielded. The non-conductive portion 176 is It is formed in a band shape wound around the electrode 170. The conductive part 174 is Located on one side of the non-conductive portion 176, The conductive portion 175 is located on the other side of the non-conductive portion 176. When forming the electrode 170, the shield wire 177 arranged so as to extend inside the conductive portion 174 includes: It has a first non-shielded end connected to the connection terminal 173. Wire 177 is It has an unshielded end 178 that supplies current to the conductive portion 175. Again, By extending the first unshielded end of the wire 177 connected to the connection terminal 173 to the conductive portion 174, The two conductive parts of the vaginal electrode 170 What can be connected to only one connection terminal instead of two is It will be clear to those skilled in the art. This allows The electrode 170 is Further, it can be used together with another single connection terminal electrode. Instead of using shielded wire 177, Housed inside a non-conductive groove or covered with a non-conductive material, The electrode 170 may include a conductive rod made of an elastomeric material. Forming a conductive portion inside the electrode 170 This would be desirable in terms of reducing manufacturing costs. As in the case of the electrode 160, Preferably, by providing the memory bend wire 179 inside the electrode 170, The user can adjust the shape of the electrode 170. As already mentioned, The conductive portions 174 and 175 Preferably, the memory bend wires 179 are shielded so as to be insulated from each other. of course, Wire 177 may be combined with memory bend wire 179 in a single assembly. FIG. FIG. 27 illustrates an anal electrode 180 formed from an elastomeric material as taught herein. The electrode is A base part 181, A connection terminal 182 provided through the base portion; 183, A non-conductive portion 184 and a conductive portion 186, 187. The non-conductive portion 184 A non-conductive region extending from the base 181 to the top of the electrode 180 is defined. As already mentioned, The connection terminals 182 and 183 are respectively Physically and electrically directly It is preferable to contact the conductive portions 187 and 186. The anal electrode 180 is A wide portion 185, And a narrow portion 188. For this reason, When used for the purpose of suppressing urinary incontinence or sexual arousal, The electrode 180 can be easily held inside the anus. Preferably, The anal electrode 180 is Preferably, a memory bend wire 189 is included therein. Memory bend wire 189 Electrode 50, 160, 170 (FIG. 1, 18, 19) have the same effect as already described above. When the entire memory bend wire 189 is located in the non-conductive portion 184, The wires need not be electrically insulated. FIG. Can be used inside the anus, Alternatively, an electrode 190 that can be formed in a size suitable for the male urethra is shown. The electrode 190, preferably formed of an elastomeric material as taught herein, comprises: A non-conductive base portion 191, Provided through the base portion 191; It has a connection terminal 192 that is in direct contact with the conductive part 193. The electrode 190 is Like a ring 100, It is used with another single connection terminal electrode. While using the electrode 190 for urethral stimulation, By using the electrode 180 with a single connection terminal inside the anus, A very effective method of controlling male urinary incontinence is provided. The electrical stimulus is not only given directly to the problem area, It is also provided by flowing through parts of the body where the muscles that control the urethra are located. This allows The muscle contracts, The path leading to the bladder will be closed. The electrode 190 also A memory bend wire 194 is included therein. Regarding memory bend wire, As already described in connection with various embodiments of the present invention. With the memory bend wire 194, Even after the user deforms the electrode 190, Its shape can be maintained. For the embodiments selected herein for purposes of illustration, It will be easy for those skilled in the art to make various modifications. Unless such modifications depart from the inventive concept, They are, It is intended to be included in the scope of the present invention defined only by a fair interpretation of the following claims. The details of the invention have been described in a clear and concise manner so that those skilled in the art can understand and practice the invention. The claims are as follows.

────────────────────────────────────────────────── ─── Continuation of front page    (81) Designated countries EP (AT, BE, CH, DE, DK, ES, FR, GB, GR, IE, IT, LU, M C, NL, PT, SE), OA (BF, BJ, CF, CG , CI, CM, GA, GN, ML, MR, NE, SN, TD, TG), AP (KE, LS, MW, SD, SZ, U G), AM, AT, AU, BB, BG, BR, BY, C A, CH, CN, CZ, DE, DK, EE, ES, FI , GB, GE, HU, IS, JP, KE, KG, KP, KR, KZ, LK, LR, LS, LT, LU, LV, M D, MG, MK, MN, MW, MX, NO, NZ, PL , PT, RO, RU, SD, SE, SG, SI, SK, TJ, TM, TT, UA, UG, US, UZ, VN [Continuation of summary] 1,52), elongate sphere (50) female electrode with rows In addition, the conductive top (166) and side portions (167, 16) 8) and a non-conductive material region located therebetween. A plug having an area (162, 164) is disclosed. Sa And anal and male, also made of elastomeric material Urethral electrode (190) is provided.

Claims (1)

[Claims] 1. A non-conductive base (161, 171, 181, 191);   Conductive formed of an elastomeric material and connected to the base Electrode means having members (167, 174, 187, 193);     While being provided on the base portion, a small number of direct contact with the conductive member are provided. At least one electrical connection terminal (165a, 172, 182, 192);   An electrode device having: 2. Positioned inside the electrode means to substantially retain the shape of the electrode means And working memory bend wires (169, 179, 189, 194). The electrode device according to claim 1, wherein: 3. The electrode means extends in the extension direction, and the memory bend wire is connected to the electrode. 3. An electrode device according to claim 2, wherein the electrode device extends substantially inside the means along the direction of extension. . 4. The electrode means includes a first conductive side portion (186) and a second conductive side portion (18). 7), a point, and a non-conductive region formed between the first and second conductive side portions. (184), wherein the non-conductive region includes the one point. 4. The electrode device according to claim 3, wherein the electrode device extends to a point. 5. The electrode means comprises a non-conductive strip (176) extending around the outer periphery; A plug having conductive regions (174, 175) located on both sides of the non-conductive strip. The electrode device according to claim 3, wherein the electrode device is a plug. 6. The electrode means comprises a conductive top (166), a first conductive side (167). , A second conductive side part (168), the first and second conductive side parts, and the conductive part. And a non-conductive region (162, 164) formed between the top and the top. The electrode device according to claim 3, wherein 7. The electrode means includes a first conductive side portion (186) and a second conductive side portion (18). 7), a point, and a non-conductive region formed between the first and second conductive side portions. (184), wherein the non-conductive region includes the one point. The electrode device according to claim 1, wherein the electrode device extends to the point. 8. The electrode means comprises a non-conductive strip (176) extending around the outer periphery; A plug having conductive regions (174, 175) located on both sides of the band-shaped member; The electrode device according to claim 1. 9. The electrode means comprises a conductive top (166), a first conductive side (167). , A second conductive side surface portion (168), the first and second side surface portions, and the conductive top portion. And a non-conductive region (162, 164) formed therebetween. The electrode device according to claim 1. Ten. The conductive top and the first and second conductive side surfaces are insulated from each other. The conductive top is electrically connected to one of the connection terminals (163). The electrode device according to claim 9, wherein 11． A spherical electrode (50) formed of an elastomeric material and at least one conductive material; And an electrical unit (51, 52). 12． The spherical electrode comprises two conductive parts (51) separated by a non-conductive part (53). , 52), and the non-conductive portion is located near the center line of the spherical electrode. The electrode according to claim 11, wherein the conductive portion is adjacent to the ring. apparatus. 13. 13. The ring of claim 12, wherein the ring is cylindrical and each of the conductive portions is hemispherical. Electrode device. 14. At least one conductive portion (51, 16) formed from an elastomeric material; 7, 174, 187, 193) (50, 160, 170, 180, 190)     A function of being disposed inside the main body and substantially maintaining the shape of the main body; Memory bend wires (54, 169, 179, 189, 194)   An electrode device comprising: 15． The body is an elongated sphere (50) having an elongation direction, the body further comprising Claims: A non-conductive ring (53) located substantially centrally in the direction of extension. Item 15. The electrode device according to Item 14. 16． The main body is an elongated sphere (50) having an extending direction, and the memory bend wire is provided. 15. The device according to claim 14, wherein the inner end extends substantially inside the body along the direction of extension. On-board electrode device. 17． An adjacent non-conductive insulating outer surface (701, 711);     An adjacent conductive inner surface (706, 716);     A conductive material region located between the outer surface and the inner surface;     An electrical connection provided on the outer surface to conduct to the conductive inner surface; A terminal (708);   A ring-shaped electrode device made of an elastomer material, comprising: 18． Further comprising a non-conductive handle (709) formed on the outer surface; The electrode device according to claim 17. 19. The conductive material region has two conductive side edges (702, 704, 712, 714). 18. The electrode device according to claim 17, wherein the electrode device extends to: 20. A ring-shaped electrode device made of an elastomer material, wherein the electrode includes:     A first non-conductive insulating outer surface (722) and a first conductive inner surface (726); A first conductive material region located between the first outer surface and the first inner surface; A first electrical member provided on the first outer surface so as to conduct to the first conductive inner surface; And a first portion having an active connection terminal (728).     A second non-conductive insulating outer surface (732) and a second conductive inner surface (736); A second conductive material region located between the second outer surface and the second inner surface; A second electrical conductor provided on the second outer surface so as to conduct to the second conductive inner surface; A second portion having a positive connection terminal (738);     A first non-conductive portion connecting a first end of the first portion to a first end of the second portion Is provided,     A second non-conductive portion connecting a second end of the first portion to a second end of the second portion An electrode device provided with: twenty one. A non-conductive handle (7) formed on one of the first and second non-conductive portions. The electrode device according to claim 20, further comprising (44). twenty two. Flexible with an inner surface and an adjacent non-conductive outer surface (101, 111) A main body (102, 112);     Secured to the inner surface and substantially insulated from the non-conductive outer surface Inner conductive layers (106, 116),     An electrical conductor provided on the non-conductive outer surface so as to conduct to the inner conductive layer; A connection terminal (108);   A ring-shaped electrode device comprising: twenty three. The contractor further comprising a non-conductive handle (109) located on the outer surface. 23. The electrode according to claim 22. twenty four. The inner conductive layer has a first end (132) and a second end (134). A first conductive portion (126) and a first portion having a first end (136) and a second end (140). A second conductive part (130), and the electrical connection terminal (128) (1) In a configuration that is electrically connected to the conductive portion,     Connecting the first end of the first conductive part to the first end of the second conductive part A first non-conductive portion (142);     Connecting the second end of the first conductive part to the second end of the second conductive part A second non-conductive portion (146);   23. The electrode according to claim 22, further comprising: twenty five. A second electrode provided on the non-conductive outer surface so as to be electrically connected to the second conductive portion. The electrode according to claim 24, further comprising a pneumatic connection terminal (138). 26. A first surface (404), a non-conductive surface (406), a first end (408); , A flexible strip (402) having a second end (410);     A conductor fixed to the first surface and substantially insulated from the non-conductive surface; An electrical layer (414);     An electrical connection terminal provided on the non-conductive surface so as to conduct to the conductive layer (416)     Means (412) for securing said first end to said second end;   An electrode device comprising: 27. The first conductive layer having a first end (522) and a second end (524). Electrical section (514) and a second conductor having a first end (526) and a second end (528). And an electrical part (516), wherein the electrical connection terminal (518) is In the configuration that conducts with the electrical part,     Connecting the first end of the first conductive part to the first end of the second conductive part A first non-conductive portion (530);     The first and second ends of the flexible strip located on the first surface; A second non-conductive portion (532) provided at one of the positions,   The electrode device according to claim 26, further comprising: 28. A second electrical member provided on the non-conductive surface so as to be electrically connected to the second conductive portion. 28. The electrode device according to claim 27, further comprising a connection terminal (520). 29. The first and second conductive portions may be configured such that the first end of the flexible band-shaped member is flexible. The first conductive part is fixed to the second end of the strip-like member, and the first conductive part is the second conductive part. 28. The electrode device according to claim 27, wherein the electrode device is configured not to contact with. 30. Base plate having two connection terminals (30) for connecting to a power supply (10) (41),     A spherical second member made of an elastomer material and having a conductive portion (51, 52). One electrode means (50);     A second electrode means made of an elastomeric material and having a conductive portion;     One end is connected to one of the connection terminals, and the other end is the conductive portion of the first electrode means. A wire (45) connected to     One end is the other of the connection terminals and the other end is the conductive portion of the second electrode means. A second wire connected to   An electrode device comprising: 31. The first electrode means comprises: an elongated sphere (50) having an extending direction; The interior of the elongated sphere extends substantially along the elongated sphere, and the shape of the elongated sphere is substantially maintained. 31. A memory bend wire (54) having the function of having On-board electrode device. 32. 31. The method of claim 30, wherein the second electrode means is spherical, like the first electrode means. On-board electrode device. 33. The second electrode means includes a ring having a conductive inner surface and a non-conductive outer surface. (100, 110, 120, 700, 710, 720). On-board electrode device. 34. The second electrode means comprises:     A first surface (404, 504), a non-conductive surface (406, 506); A flexible band having an end (408, 508) and a second end (410, 510). Shaped members (402, 502);     Fixed to the first surface and substantially insulated from the non-conductive surface A conductive layer (414, 514);     An electrical connection terminal provided on the non-conductive surface so as to conduct to the conductive layer (416, 518),     Means (412, 512) for securing the first end to the second end. 31. The electrode device according to claim 30, wherein