DE19745172A1 - Gauge for voltage etc. measurement at acupuncture point - Google Patents

Abstract

The measuring gauge (5) may be applied at an acupuncture point and is surrounded by a sleeve (4) placeable on the skin, with the electrode projecting from the gauge housing (2). The measuring electrode and sleeve are spring loaded and longitudinally movable in the directions (A,B). A container (15) enclosing an electrolytic medium (16) is arranged at the front free end region of the measuring electrode and sleeve.

Description

The invention relates to a measuring pen for reprodu measurable measurement of voltage potential, current flow and whose product performance at an acupuncture point with an egg ner on the skin, surrounded by a sleeve Measuring electrode coming out of a measuring pen housing gene.

The acupuncture method is becoming increasingly popular in the medical and naturopathic field, there acupuncture increasingly as a diagnostic and therapy procedures scientific recognition ge found. A particular problem with the acupuncture method de consists of the appropriate battery to be treated find out the point.

The acupuncture points are empirically found reactions points of the skin and deeper tissue layers and form the place of stimulus transfer to local seg ment-reflective, vegetative-reflective and new ro-endocrine areas. Characteristic of the lot The number of acupuncture points is their linear arrangement as a point chain, so-called meridians. These point chains are in the border area of two segments, preferably in the Me  ridian course, e.g. B. on the extremities where an over each other projection of dermatome, myotome and sclerotone is most clearly recognizable.

Acupuncture points can be in their topographical Position on human skin by measuring the skin determine resistance. Therefore, for decades to find the acupuncture points Meters used to measure skin resistance in kilo-ohms Measure (KΩ). With the help of this skin resistance Measuring devices are the acupuncture points over a qualti tative measurement localized because the skin resistance in Area of this acupuncture point is lowest, and with a quantitative measurement the height of the measured value determined to draw conclusions about the energetic status of the point and its meridian system. Examples are measuring devices that according to the Electro-acupuncture method after full work. Loaf Electro-acupuncture has a lot to offer Vega test procedure developed to carry out one based on the skin resistance measuring principle Measurement of the so-called terminal points of the meridians the fingertips and toes of human beings the.

As part of space research, skin resistance Measuring devices developed, the measurements at the terminal score on the hands and feet of people and these values by means of computer-aided evaluation for energetic assessment of the meridian systems ver turn. For example, let's refer to the Prognos-A- Method referred. This was for the long-term Space travel developed and then to the doctor's office  transfer. There are a number of or end points of the meridians of the hands and feet Skin resistance measured and evaluated on the computer. Based on graphics, you get a holistic Overview of the energy supply for people and thus valuable information for diagnosis and The therapy.

All of these based on skin resistance measurement Procedures that go beyond point localization Conclusion from the level of the measured skin resistance on the energetic state of the points and meridians are due to the great variability of the Skin resistance and its disturbance variables mostly inaccurate or poorly reproducible. The skin resistance values become moisture, for example, due to the disturbance variables of the skin, greasiness of the skin surface, condition of the vegetative nervous system of the patient, pressure of the Measuring electrode tip on the measuring point etc. determined and can significantly influence the measurement results. So he For example, if the skin is damp, it is too kidney-like and dry skin has too high a KΩ number. About that In addition, the measurement results can be determined by the slightest varia tion, such as physical exercise, stimulation the means, for example coffee or tea, excitement, Food intake, room temperature, loud noises, etc. be completely falsified. The measured value of the skin resistance is also from the pressure of the measuring electrode tip ze directly influenced on the measuring point. The Measuring point are traumatized in such a way that a completely other skin resistance is determined and given if further measurements are impossible for several hours be made. For example, let's start with several  hundred KΩ measured, can occur if a disturbance occurs factor deviations of several hundred KΩ occur.

Usually in the known measuring devices in Hundreds of seconds within a split second Measurements carried out and the mean value calculates. This is via an algorithm with Ver equals of a larger patient collective in Linked to a certain level of information to the corresponding measuring point or acupuncture point hold. This is the fluctuation range of the measured values relatively large, so that often not between normal and pathological condition of the patient can be. From the well-known skin resistance Measuring method is therefore to be concluded that this with vie All sources of error are affected.

Conventional measuring pen designs exist in the Rule from a measuring pen housing in which a measuring elec trode is rigidly attached. From the not pre-published DE 197 17 337.5 a measuring pen is known, the one at least gilded or plati at the top Niert measuring electrode. The measuring pen is with a computer-controlled measuring and evaluation unit ver bound. The gold plating or platinum plating of the measuring electrode despitze is very expensive and also closes not completely the disturbance of the skin resistance out. The sole application of an electrolyte medium, for example gel, when using conventional measuring Griffle gives measurement inaccuracies because of summation values depending on the size of the conductive skin area to be measured. With the fineness of the measured  Values result in serious deviations. There however for the reproducible measurement of voltage potentials tial, current flow and their product performance at acupuncture the skin resistance can be switched off the well-known measuring stylus Tip designs as largely unusable.

It is an object of the invention to use a measuring pen gangs mentioned to create, unaffected by Disturbances and sources of error are a reliable determination suitable acupuncture points to be treated possible to real pathological conditions of humans capture.

The object is achieved in that the measuring electrode and the sleeve in the measuring pen housing are resiliently mounted longitudinally to each other, wherein in the front free end area of the measuring electrode and Sleeve a container containing an electrolyte medium is arranged.

This design of the tip area of the measuring handle Rock in connection with the electrolyte medium is ge targets the skin at the measuring point, the acupuncture point was reduced to zero. Incorrect measurements or measurements with high deviations are avoided. The resilient mounting of the measuring electrode and vice versa Benden sleeve causes when the measuring pen tip a previous wetting of the skin with the electrolyte medium before the tip of the measuring elec hits the skin. This will make the skin switched off and a reproducible measurement of voltage potential, current flow and their product  Performance at the measuring point enables. Furthermore guaranteed The resilient bearing ensures that there is no traumatization Measure up.

According to a preferred embodiment of the invention the container from an electrolyte medium containing cap that can be placed on the front opening of the sleeve. The the cap that can be put on is therefore always against another replaceable, so that used electrolyte medium can be adjusted by placing a new cap on the front opening of the sleeve is placed. The one Trained stylus is in terms of hygiene and infection protection, especially when measuring in Suitable mucous membrane area.

According to another training according to the invention the container consists of an electrolytic medium holding, between the front free end areas the measuring electrode and the sleeve arranged permeable Membrane. The membrane bounds towards the tip of the measuring stylus a space in the sleeve filled with electrolyte medium, the tip of the measuring electrode lies in the longitudinal axis thereof. The tip can be directly in the electrolyte medium be placed. This embodiment is in existence a pressure sensor to trigger the measured values suitable registration. On the other hand, the permeable Membrane itself be filled with electrolyte medium and surround the tip of the measuring electrode with a free space. Only when the measurement by pressing the measurement Stylus tip on the skin, the sleeve into the measuring stylus the housing gets pushed, the tip of the measuring elek gets trode contact with the moistened membrane so that a real value is measured. This training of the measuring  Griffiff is particularly suitable when there is no pressure sensor used to trigger the measurement value registration becomes. Due to the permeable membrane on the front opening A small amount of electrolyte occurs in the sleeve mediums on the outside and thus forms egg a damp film on the contact surface of the measuring stylus pointed to the skin.

To provide a storage reservoir for the electrolyte medium create and a permanent supply of the measuring electro To ensure the tip with electrolyte medium is in the Measuring pen housing a collecting room for the electrolyte dium provided, which through openings in the sleeve is connected to the permeable membrane. There by finds an afterflow of the electrolyte medium from the Collecting room takes place through the openings. Purpose moderately, the collecting space in the measuring pen housing be filled with the electrolyte medium so that a Refill option for the collection room inside the Stylus housing is provided. Furthermore is the collection space through sealing walls from the rest of the Be range of the measuring pen housing separated. Hereby the areas filled with electrolyte medium from the other parts separated in the stylus housing, at for example through suitable sealing membranes.

The electrolyte medium preferably has a solid rubber like, gel-like or liquid consistency, whereby the solid rubbery electrolyte medium especially for Application in the previously described, on the front End of the sleeve attachable caps is suitable. Hinge There are also gel-like or liquid electrolyte media Special application with a permeable membrane container  nis. In addition, the electrolyte medium can Saline. Here, the cap or the Membrane through a soaked in saline Sponge to be replaced, giving the same measurement result se can be achieved. It is also provided that the the sleeve surrounding the measuring electrode from an electrical non-conductive insulating material, for example made of glass or plastic. The measuring electrode consists of a base metal. Their outer surface is one insulating material leaving the measuring electrode tip free surround. The preferably rod-shaped measure The electrode forms the positive pole of the invention ß measuring pen.

In the further development of the idea of the invention are the measures electrode and the sleeve each by means of a compression spring supported in the measuring pen housing so that a Relative movement of the measuring electrode in the longitudinal direction of the Sleeve on the one hand and the sleeve to the stylus housing on the other hand is made possible.

Since the springs of the measuring electrode and the sleeve unab are dependent on each other, the distance between the measuring elec tread tip to the membrane or to the cap varies who to achieve optimal measurement results. For this is the relative movement between the measuring electrode and the Sleeve can be limited by a movement limiter where by also the distance between the front opening the sleeve and the tip of the measuring electrode are variable can be designed.

In a further advantageous embodiment of the invention closes the container comprising an electrolyte medium  a plate on the container in the starting position the measuring pen to the measuring electrode and in Function of the measuring pen from the tip of the measuring electrode de is contacted. The plate preferably consists of the same material as the measuring electrode. Thereby becomes the one containing the electrolyte medium Cap or the membrane from damage, for example wise piercing, from the measuring electrode and this other on the one hand, protected from contamination. Furthermore the plate ensures perfect contact between the electrolyte medium and the movable mass electrode. For certain applications, for example the presence of a permeable membrane that Plate conveniently with a perforation for the Provide passage of the electrolyte medium.

To the inventive stylus also difficult to accessible parts of the body, e.g. B. in the oral cavity, To be able to use the sleeve in the front area be angled. After that is in abge angled area of the sleeve is a metallic pin arranges that with its front end firmly with the sleeve connected is. The free end of the pin protrudes into the axial area of the sleeve so that it in the starting position of the measuring pen to the measuring electrode spaced and in function of the stylus from the Tip of the measuring electrode is contacted. So there is the pen made of an electrically conductive material.

In addition, it is provided that this with a computer-controlled measuring and evaluation unit connected is. This measuring and evaluation unit is used for amplification kung and processing of the measurement signals. Can continue  Pressure sensors to trigger the measuring process at a preset pressure on the stylus tip will see. The measuring electrode is preferably above one shielded transmission cable with the measuring and off value unit connected. Finally, the measuring and Evaluation unit from a monitor Measuring device and / or a computer exist.

The idea underlying the invention is in the the following description based on an example play, which are shown in the drawing, closer described. It shows

Fig. 1 shows a longitudinal section through the tip portion of the Meßgriffels invention according to a first embodiment;

Fig. 2 is a longitudinal section through the tip portion of the Meßgriffels according to the invention after a two-th embodiment,

Fig. 3 is a longitudinal section through an alternative imple mentation form of the measuring stylus according to the invention according to Fig. 2, and

Fig. 4 shows a longitudinal section through an alternative form of execution from Meßgriffels invention of FIG. 3.

The measuring stylus 1 according to FIGS . 1 to 3 has a measuring pen housing 2 which tapers conically towards one end and thereby forms a central opening 3 . A sleeve 4 made of an electrically non-conductive material extends in the longitudinal axis of the measuring stylus housing 2 . Axially inside the sleeve 4, a measuring electrode 5 extends in such a manner that the tip of the measuring electrode is 6 5 in the starting position of Meßgriffels 1 before the end opening 7 of the sleeve. 4

The measuring electrode 5 consists of a base metal, the outer surface of which is covered with an insulating material 8, leaving both of its front ends free.

At the opening 7 opposite end of the sleeve 4 , a compression spring 9 is provided, which is supported on the one hand at this end of the sleeve 4 and on the other hand on an inter mediate wall 10 inside the measuring pen housing 2 from. Characterized the sleeve 4 when using the measuring pen 1 relative to the measuring electrode 5 is longitudinally displaceable according to the double arrow A.

The measuring electrode 5 extends through the interior of the compression spring 9 and through the intermediate wall 10 of the measuring handle felgehäuses 2nd The end of the measuring electrode 5 opposite the tip 6 is also held by a compression spring 11 which is supported on a further intermediate wall of the measuring stylus housing 2 . Thus, the measuring electrode 5 is longitudinally movable relative to the sleeve 4 according to double arrow B. In addition, the tip 6 ent opposite end of the measuring electrode 5 is connected to a shielded transmission cable 13 , which through the compression spring 11 through to a measuring and evaluation unit, not shown leads. The measured values determined are transmitted via the shielded transmission cable 13 to the measuring and evaluation unit and evaluated there.

To limit the relative movement of the sleeve 4 to the measuring electrode 5 , a movement limiter 14 is provided, the design of which is not shown in detail and is also not the subject of the invention. Due to the actuation from the outside of the measuring pen housing 2 movement limiter 14 , the freedom of movement of the sleeve 4 can be restricted and thus the distance between the opening 7 of the sleeve 4 and the tip 6 of the measuring electrode 5 can be made variable.

In the embodiment of the measuring stylus 1 according to FIG. 1, a container designed as a cap 15 is provided, which is filled with an electrolyte medium 16 . This has a firm, rubbery consistency. Between the back of the cap 15 and the opening 7 of the sleeve 4 , a metallic plate P is angeord net that this is in the starting position of the measuring pen 1 directly on the electrolyte medium 16 located in the cap 15 and spaced from the tip 6 of the measuring electrode 5th located. The plate P is preferably made of the same material as the measuring electrode 5 and is electrically conductive. In function of the measuring stylus 1 , the measuring electrode 5 is moved towards the cap 15 and thereby hits the plate P, so that a contact between the measuring electrode 5 and the plate P is made.

When placing the Meßgriffels 1 to the skin of the measuring electrode 5 is applied to the plate P of this a small amount of the electrolytic medium 16 to the skin by the pressure and forms a wet film on the contact surface to the skin. The skin resistance is switched off and a reproducible measurement of voltage potential, current flow and their product performance at the measuring point of the skin is made possible. The resilient storage of the sleeve 4 and the measuring electrode 5 ensures a traumatized measurement. Since the springs of the sleeve 4 and the measuring electrode 5 are independent of each other, the distance between the tip 6 of the measuring electrode 5 to the cap 15 can be varied in order to achieve optimum measuring results.

In carrying out the Meßgriffels 1 of FIG. 2, instead of a cap as a container for the electrolytic medium 16 is a permeable membrane 17 at the front Spit zen setting of the sleeve 4 and the measuring electrode 5 vorgese hen. In addition, inside the measuring handle housing 2 is a collection chamber 19 delimited by a sealing membrane 18 . This is connected to the permeable membrane 17 via perforation-like passage openings 20 . Furthermore, the collecting space 19 and the membrane 17 are filled with a liquid or gel-like electrolyte medium 16 .

In the front area of the membrane 17 in front of the tip 6 of the measuring electrode 5 there is a perforated plate P made of electrically conductive Metallma material. Through the perforation of the plate P electrolyte medium 16 can pass through.

Since in the starting position of the measuring stylus 1 , the tip 6 of the measuring electrode 5 is in the retracted state of the sleeve 4 , it is ensured that when the measuring stylus 1 is actuated, the skin passes through the electrolyte medium 16 passing through the perforated plate P and the permeable membrane 17 is wetted before the tip 6 of the measuring electrode 5 hits the skin surface.

In the embodiment of the Meßgriffels 1 of FIG. 3 the tip is not placed 6 of the measuring electrode 5 directly in the electrolyte medium 16. In contrast to the embodiment according to FIG. 2, the container-like permeable membrane 17 is arranged in the front interior of the sleeve 4 in such a way that it surrounds the tip 6 of the measuring electrode 5 while maintaining a free space 21 . The membrane 17 closes in the starting position of the measuring pen 7 , spaced from the measuring electrode 5 , the metallic plate P, on which the tip 6 of the measuring electrode 5 strikes as a function of the measuring pen 1 . The shape of the plate P is adapted to the shape of the membrane 17 in this area.

In Fig. 4, the measuring pen 1 described with reference to Fig. 3 is shown. This is modified in the front area so that the sleeve 4 is angled. Here, a metallic pin 22 is fixedly arranged in the angled region of the sleeve 4 , which protrudes into the axial region of the sleeve 4 . This pin 22 can subsequently be rigidly connected directly to the plate P in the region of the opening 7 of the sleeve or, if appropriate, be formed in one piece with it. In the starting position of the measuring stylus 1 , the measuring electrode 5 is spaced from the free, in the axial region of the sleeve 4 protruding pin 22 is placed. In function of the measuring stylus 1 , the measuring electrode 5 moves to the pin 22 and touches it, so that the electrode 5 is contacted by the measuring electrode 5 . By angling the sleeve 4 in its front region, the measuring stylus 1 can also advantageously be placed in not so easily accessible positions of the body, for example in the mouth area. Of course, the angled shape of the measuring stylus 1 can also be applied to the embodiments according to FIGS . 1 to 3.

Claims (22)

1. Measuring stylus for the reproducible measurement of voltage potential, current flow and their product performance at an acupuncture point with a measuring electrode ( 5 ) that can be placed on the skin and is surrounded by a sleeve ( 4 ) and protrude from a measuring stylus housing ( 2 ), characterized in that that the measuring electrode ( 5 ) and the sleeve ( 4 ) in the measuring pen housing ( 2 ) longitudinally movable (A, B) to each other are mounted, whereby in the front free end area of the measuring electrode ( 5 ) and the sleeve ( 4 ) is an electrolyte medium ( 16 ) comprehensive container ( 15 , 17 ) is arranged. 2. Measuring pen according to claim 1, characterized in that the container consists of an electrolyte medium ( 16 ) containing, on the front opening ( 7 ) of the sleeve ( 4 ) attachable cap ( 15 ). 3. Measuring pen according to claim 1, characterized in that the container consists of an electrolyte medium ( 16 ) containing, between the front free end regions of the measuring electrode ( 5 ) and the sleeve ( 4 ) arranged permeable membrane ( 17 ). 4. Measuring pen according to claim 3, characterized in that in the measuring pen housing ( 2 ) a collecting space ( 19 ) for the electrolyte medium ( 16 ) is provided, which via passage openings ( 20 ) in the sleeve ( 4 ) with the permeable membrane ( 17th ) connected is. 5. Measuring pen according to claim 4, characterized in that the collecting space ( 19 ) in the measuring pen housing ( 2 ) with the electrolyte medium ( 16 ) can be filled. 6. Measuring pen according to claim 4 or 5, characterized in that the collecting space ( 19 ) by sealing walls ( 18 ) from the other areas of the measuring handle housing ( 2 ) is separated. 7. Measuring pen according to one of claims 1 to 6, characterized in that the electrolyte medium ( 16 ) has a solid rubber-like, gel-like or liquid consistency. 8. Measuring pen according to claim 7, characterized in that the electrolyte medium ( 16 ) is a saline solution. 9. Measuring pen according to one of claims 1 to 8, characterized in that the measuring electrode ( 5 ) surrounding sleeve ( 4 ) consists of an electrically non-insulating material. 10. Measuring pen according to one of claims 1 to 9, characterized in that the measuring electrode ( 5 ) consists of a base metal and the mantle surface is surrounded by one of the measuring electrode tip ( 6 ) send insulating material ( 8 ). 11. Measuring pen according to one of claims 1 to 10, characterized in that the measuring electrode ( 5 ) and the sleeve ( 4 ) are each supported by means of a compression spring ( 9 , 11 ) in the measuring pen housing ( 2 ) in a supporting manner. 12. Measuring pen according to one of claims 1 to 11, characterized in that the relative movement between the measuring electrode's ( 5 ) and the sleeve ( 4 ) can be limited by a movement limiter ( 14 ). 13. Measuring pen according to one of claims 1 to 12, characterized in that the container ( 15 , 17 ) comprising an electrolyte medium ( 16 ) includes a plate (P) which is on the container ( 15 , 17 ) in the initial position of the measuring pen ( 1 ) spaced from the measuring electrode ( 5 ) and in function of the measuring stylus ( 1 ) from the tip ( 6 ) of the measuring electrode ( 5 ) can be contacted. 14. Measuring pen according to claim 13, characterized net that the plate (P) is perforated. 15. Measuring pen one of claims 1 to 14, characterized in that the plate (P) consists of the same chen material as the measuring electrode ( 5 ). 16. Measuring pen according to one of claims 1 to 15, characterized in that the sleeve ( 4 ) is angled in the front region. 17. Measuring pen according to claim 16, characterized in that a metallic pin ( 22 ) is arranged in the angled region of the sleeve ( 4 ), which is firmly connected to the front end thereof. 18. Measuring pen according to claim 16 or 17, characterized in that the free end of the pin ( 22 ) protrudes into the axial region of the sleeve such that this rock in the starting position of the measuring handle ( 1 ) to the measuring electrode ( 5 ) and in Function of the measuring stylus ( 1 ) from the tip ( 6 ) of the measuring electrode ( 5 ) can be contacted. 19. Measuring pen according to one of claims 16 to 18, there characterized in that the pin from a there is electrically conductive material. 20. Measuring pen according to one of claims 1 to 19, there characterized in that this with a rech controlled measurement and evaluation unit connected is. 21. Measuring pen according to claim 20, characterized in that the measuring electrode ( 5 ) via a shielded transmission cable ( 13 ) is connected to the measuring and evaluation unit. 22. Measuring pen according to claim 20 or 21, characterized ge indicates that the measuring and evaluation unit is off a measuring device provided with a monitor and / or a computer.