CN112807213B

CN112807213B - Digital meridian point positioning ruler

Info

Publication number: CN112807213B
Application number: CN202010977882.2A
Authority: CN
Inventors: 王志义
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-09-17
Filing date: 2020-09-17
Publication date: 2022-05-10
Anticipated expiration: 2040-09-17
Also published as: CN112807213A

Abstract

A digital meridian point positioning ruler capable of accurately measuring human body surface meridian points is characterized in that centimeter scales with the accuracy of mm are arranged on the upper side and the lower side of the front face and the lower side of a positioning ruler body, 23-36 rows of 10-18 rows of folding numerical values which are arranged from left to right or symmetrically from the center of the positioning ruler body to the left and the right of the two sides are arranged on the positioning ruler body in the interval of the upper centimeter scale and the lower centimeter scale, each row of folding numerical values are 10 rows from top to bottom, the folding numerical values on the front face and the back face of the positioning ruler body are respectively constant by taking the sum/100 of the yin and yang numbers of a river map and constant by taking the sum/100 of the yin and yang numbers of a Luo book as a constant, the 10 folding numerical values on the first row are respectively 1-10 times of the constant from top to bottom, the 10 folding numerical values on the second row are respectively 11-20 times of the constant from top to bottom, and the like; the transparent sliding assembly is clamped on the positioning ruler body, and the surface of the transparent sliding assembly is provided with positioning mark lines and upper and lower acupuncture holes.

Description

Digital meridian point positioning ruler

Technical Field

The invention relates to a positioning device for measuring channels and acupoints on a human body, in particular to a digital channel and acupoint positioning ruler.

Background

The congratulatory gallop is a person for the first time, which has proved the existence of channels and collaterals by experiment, the width of the channels and collaterals is only 1mm, and the distribution position of the channels and collaterals of the human body is accurately revealed by applying various subject detection and unique experimental methods such as electronics, biochemistry, biophysics, acoustics, morphology and the like, thus proving the highly scientific and objective existence of the classical channel and collaterals atlas. The meridians are the terms of acupuncture and moxibustion, the classified names of acupuncture points are one of five acupoints, and the twelve main meridians have one meridian point and are located near the wrist and ankle joints. In clinic, traditional Chinese medicine treats diseases by stimulating corresponding meridian points through acupuncture or massage, point pressing and moxibustion, and accurate positioning of meridian points in the acupuncture process is particularly important for treating diseases. The commonly used positioning methods include three methods, namely a bone-degree cun positioning method, a body surface anatomical landmark positioning method and a finger cun positioning method, and the position error of the positioning methods is about 10 mm.

The location of the same cun should be done on the basis of the location of the same cun with the fingers, which cannot be used to locate the whole body with the fingers. At present, the most clinically adopted method is that the location method of bone length cun is matched with the method of finger cun, the location method of finger cun is based on the finger of the patient, but the operation is inconvenient in the clinical treatment process, generally, the doctor determines the position of the meridian point according to the visual observation and experience, the position is greatly related to the personal experience of the doctor, the operation lacks the standard, the uncertain factors are many, the accuracy of the position of the meridian point is further reduced, the treatment effect is influenced, and the method is particularly not suitable for beginners. The body surface anatomical landmark positioning method is a method for determining channels and acupoints based on various body surface landmarks in human anatomy, and the method still depends on personal experience of doctors, and positioning is not accurate, so that the treatment effect is also influenced.

Disclosure of Invention

In order to solve the problems, the invention aims to provide a digital acupoint positioning ruler for accurately measuring the body surface acupoints of the human body on the basis of the numbers of the river pattern Luoshu in the book of Yi-zhong river.

In order to achieve the purpose of the invention, the invention provides a first technical scheme that:

a digital meridian point positioning ruler comprises a positioning ruler body, wherein centimeter scales with the accuracy of mm are arranged on the upper side and the lower side of the front face and the lower side of the positioning ruler body, 23-36 lines of deflection numerical values which are arranged from left to right and are in a unit of mm or 10-18 lines of deflection numerical values which are symmetrically arranged from the center of the positioning ruler body to the left and the right of the two sides of the positioning ruler body are arranged on the positioning ruler body, each line of deflection numerical values is 10 rows from top to bottom, wherein the deflection numerical values on the front face of the positioning ruler body are the sum of the numbers of yin and yang in a river map/100 and are a constant c1, c1 is 0.55, the 10 deflection numerical values on the first line are respectively 1-10 times of c1 from top to bottom, the 10 deflection numerical values on the second line are respectively 11-20 times of c1 from top to bottom, and so on; the folding numerical value of the back of the positioning ruler body is a constant c2 which is the sum of the numbers of yin and yang in the lobbies/100, c2 is 0.45, the 10 folding numerical values of the first row are respectively 1-10 times of c2 from top to bottom, the 10 folding numerical values of the second row are respectively 11-20 times of c2 from top to bottom, and the rest is done in the same way; the transparent sliding assembly is clamped on the positioning ruler body, the surface of the transparent sliding assembly is provided with a positioning mark line coincident with the bilateral symmetry axis of the transparent sliding assembly, the two ends of the positioning mark line of the transparent sliding assembly correspond to the positioning ruler body, an upper needling hole and a lower needling hole are arranged on the outer part of the positioning ruler body, and the circle centers of the upper needling hole and the lower needling hole are positioned on the extension line of the positioning mark line.

Further, each column of the deflection numerical values is located between two corresponding adjacent centimeter scale lines.

Furthermore, the folding numerical values of each row are level up and down, and the folding numerical values of each column are level left and right.

Furthermore, a blank area is arranged between two adjacent rows of folding numerical values.

Furthermore, at least one blank area is arranged in the middle of each row of the refractive index values, so that the resolution is facilitated.

Furthermore, the transparent sliding assembly comprises a first transparent sliding plate, a second transparent sliding plate, an upper clamping sliding block and a lower clamping sliding block, wherein the upper clamping sliding block and the lower clamping sliding block are positioned between the first transparent sliding plate and the second transparent sliding plate, and the upper clamping sliding block and the lower clamping sliding block are adhered or fixed on the first transparent sliding block and the second transparent sliding block through fastening screws.

Furthermore, the first transparent sliding plate and the second transparent sliding plate are both transparent acrylic plates.

The invention has the beneficial effects that: when in operation, the positioning ruler is transversely arranged on four limbs or trunk of a patient, the scale 0 corresponds to the reference position of the four limbs or trunk, the width of the four limbs or the trunk is measured, the corresponding bending numerical value is found out according to the width numerical value, the sliding assembly is moved to enable the positioning mark line of the sliding assembly to be aligned to the scale line corresponding to the bending numerical value, namely, the meridian to be measured is found out, and the acupuncture point to be needled is positioned by combining the bone-degree size positioning method, the body surface anatomical landmark positioning method or the finger same-body size positioning method. The invention has simple structure, simple and convenient operation, accurate positioning, easy understanding, ensured curative effect, low cost and easy popularization, and is more suitable for scientific research, teaching and beginners.

Drawings

Preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings. In the figure:

fig. 1 is a schematic overall structure diagram of a first embodiment of the present invention;

FIG. 2 is an exploded view of a transparent sliding assembly according to a first embodiment of the present invention;

fig. 3 is a front view schematically illustrating a front view structure of the first embodiment of the present invention;

fig. 4 is a schematic rear-view structure of the first embodiment of the present invention;

FIG. 5 is an enlarged view taken at A in FIG. 3;

FIG. 6 is an enlarged view of FIG. 3 at B;

FIG. 7 is an enlarged view at C of FIG. 4;

FIG. 8 is a schematic front view illustrating a second embodiment of the present invention;

FIG. 9 is an enlarged view of section D of FIG. 8;

fig. 10 is a front view schematically illustrating a front view structure of a second embodiment of the present invention;

fig. 11 is an enlarged view of a portion E of fig. 10.

Reference numerals:

1-centimeter scale; 2-fold number value; 3-positioning rule body; 4-sliding component, 401, upper clamping slide, 402, upper needling hole, 403, fastening screw, 404, first transparent slide, 405, positioning marking line, 406, lower needling hole, 407, lower clamping slide, 408, second transparent slide.

Detailed Description

In order to ensure that the positions of the meridians and the acupoints are accurately positioned within 1mm in the clinical treatment process of the traditional Chinese medicine, the treatment effect of a patient is ensured, and the operation is easy, the embodiment of the invention provides the digital positioning ruler specially used for positioning the meridians and the acupoints, which is described in detail below.

Example one

As shown in fig. 1-7, a digital meridian point positioning ruler comprises a positioning ruler body 3, wherein cm scales 1 with mm precision are respectively arranged on the upper and lower sides of the front and back surfaces of the positioning ruler body 3, in the embodiment, the cm scales are 0, 1, 2 and … 28 cm, 28 rows of fold values 2 with mm as a unit are respectively arranged in the sections of the upper and lower cm scales 1 on the positioning ruler body 3, each row of the fold values 2 is 10 rows from top to bottom, wherein the fold values 2 on the front surface of the positioning ruler body 3 are respectively constant c1 according to the sum of yin and yang numbers of a river map/100, c1 is 0.55, 10 fold values in the first row are respectively 1-10 times of c1 from top to bottom, namely 0.55, 1.10, 1.65, 2.20, 2.75, 3.30, 3.85, 4.40 and 4.95, 10 fold values in the second row are respectively 11-20 times of c1 from top to bottom, namely 20.6, 6.05, 7.05 and 10 times of c1, 8.25, 8.80, 9.35, 9.90, 10.45, 11.00, and so on; the back surface of the positioning ruler body 3 is provided with a constant c2 of the sum of the negative and positive values of Luoshi/100, wherein the constant c2 is c2 equal to 0.45, the 10 folding values in the first row are respectively 1-10 times of c2 from top to bottom, the 10 folding values in the second row are respectively 11-20 times of c2 from top to bottom, and the rest is done in the same way; transparent slip subassembly 4 of centre gripping on the locating ruler body, slip subassembly 4 surface is established rather than the location mark line 47 of bilateral symmetry coincidence the locating mark line 47 both ends of transparent slip subassembly 4 are equipped with upper and lower acupuncture hole 48 corresponding to the locating ruler body is external, upper and lower acupuncture hole 48 centre of a circle is located the extension line of locating mark line 47.

Each column of the fold number values 2 is positioned between the corresponding two adjacent centimeter scale lines 1; the folding quantity values 2 of each row are aligned up and down, and the folding quantity values 2 of each column are aligned left and right; a blank area 7 is arranged between two adjacent columns of the refractive index values 2. A blank area is arranged in the middle of each row of the refraction numerical values to facilitate the resolution.

The transparent slide assembly 4 includes a first transparent slide 404, a second transparent slide 408, upper and

lower clamping slides

401 and 407 positioned between the first transparent slide 404 and the second transparent slide 408, the upper and

lower clamping sliders

401 and 407 are adhered or fixed to the first transparent slider 404 and the second transparent slider 408 by fastening screws 403, the first transparent sliding plate 404 and the upper clamping sliding block 401 are provided with upper pin-prick holes 402, the second transparent sliding plate 408 and the lower clamping sliding block 407 are provided with lower needle-punched holes 406, the upper needling holes 402 and the lower needling holes 406 are symmetrically distributed on the upper side and the lower side of the positioning rule body 3, positioning mark lines 405 which are connected with the upper needling holes 402 and the lower needling holes 406 and are superposed with the bilateral symmetry axes of the first transparent cover plate 404 and the second transparent cover plate 408 are respectively carved on the first transparent cover plate 404 and the second transparent cover plate 408, and the extension lines of the positioning mark lines 405 pass through the centers of the upper needling holes 402 and the lower needling holes 406.

The first transparent cover 404 and the second transparent cover 408 are made of transparent acrylic plates. During operation, daling acupoint is selected, the positioning ruler is transversely placed at the transverse striation of the left forearm of a patient, the edge value (width) of the two sides of the left forearm is measured, the edge value is 70mm in the embodiment, the folding value (38.5mm) corresponding to the constant C1 is found out according to the width value, the positioning ruler scale 0 is placed at the side edge of the transverse striation ruler, and the point corresponding to the scale mark of 38.5mm is the daling acupoint of the pericardium meridian of hand jueyin.

Taking Taiyuan acupoint, placing positioning ruler scale 0 in Dalling acupoint, measuring the distance (31.5mm) between the point and the edge of radial side, and finding out the deflection value (17.6mm) corresponding to constant C1 according to the value; this point is the Taiyuan acupoint on the lung meridian of hand Taiyin.

Taking Shenmen acupoint, placing positioning ruler scale 0 in Daling acupoint, measuring the distance (38.5mm) between the point and the side edge of the ruler, and finding out the deflection value (21.5mm) corresponding to constant C1 according to the value; this point is Shenmen point on the heart meridian of hand shaoyin.

Selecting Neiguan points: transversely placing a positioning ruler on the left forearm of a patient, placing a scale 0 of the positioning ruler on the transverse veins of the wrist on the side (the female side) of the ruler for two inches, measuring the edge value (width) of the two sides of the left forearm, finding out the corresponding folding value (41.25mm) according to the width value, moving a sliding component to move a positioning mark line of the sliding component to a scale line corresponding to the folding value, namely finding out the pericardium of the hand jueyin to be measured, and combining the same-body-size positioning method, namely the width of two thumbs on the transverse veins of the wrist, namely acupuncture points to be pricked.

Example two

As shown in fig. 8 to 11, a digital meridian point positioning ruler includes a positioning ruler body 3, the positioning ruler body 3 is provided with cm scales 1 with mm precision on both upper and lower sides of the front and back sides, the cm scales 1 are respectively "0" to "14" from the center to both sides, 14 rows of folding numerical values 2 with mm as a unit are symmetrically arranged on both sides of the center of the positioning ruler body 3, each row of folding numerical values is 10 rows from top to bottom, wherein the positioning ruler front folding numerical value is a constant c1 based on the sum of the numbers of yin and yang of the river map/100, c1 is 0.55, 10 folding numerical values of the first row corresponding to both sides of the number "0" of the center cm scale 1 are respectively 1 to 10 times of c1 from top to bottom, and 10 folding numerical values of the second row corresponding to the number "1" of the cm scale 1 are respectively 11 to 20 times of c1 from top to bottom, and so on the like. The back folding value of the positioning ruler is the sum of the negative and positive numbers of Luoshu/100 and is a constant c2, c2 is 0.45, 10 folding values of a first row corresponding to the number '0' on the two sides of the central centimeter scale 1 are respectively 1-10 times of c2 from top to bottom, 10 folding values of a second row corresponding to the number '1' on the centimeter scale 1 are respectively 11-20 times of c2 from top to bottom, and the like; the rest is the same as the structure of the embodiment 1.

In operation, the Shenshu point is selected, the width of the four lateral fingers (three inches) of the subject is measured by the same inch method, the value is measured to be 75mm by the positioning ruler, the deflection value corresponding to the constant C2 is found to be 33.75mm (equal to the width of 1 half thumb of the subject), the scale 0 of the positioning ruler is placed on the Mingmen point and extends 33.75mm to both sides, and the point is the Shenshu point of the bladder meridian of foot Taiyang.

All directions or positional relationships mentioned in the embodiments of the present invention are positional relationships based on the drawings, and are only for convenience of describing the present invention and simplifying the description, but do not imply or imply that the referred device or element must have a specific orientation, and are not to be construed as limiting the present invention. If there is a description of "first", "second", etc. in an embodiment of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one of the feature.

The above description is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily make changes or variations within the technical scope of the present invention disclosed, and such changes or variations should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims. All the technical features mentioned in the embodiments can be combined in any way as long as there is no structural conflict. It is intended that the invention not be limited to the particular embodiments disclosed, but that the invention will include all embodiments falling within the scope of the appended claims.

Claims

1. The digital meridian point positioning ruler comprises a positioning ruler body and is characterized in that centimeter scales with the accuracy of mm are arranged on the upper side and the lower side of the front surface and the back surface of the positioning ruler body, 23-36 rows of folding numerical values which are arranged from left to right and are in a unit of mm or 10-18 rows of folding numerical values which are symmetrically arranged from the center of the positioning ruler body to the left and the right of the two sides and are in a unit of mm are arranged in the upper centimeter scale interval and the lower centimeter scale interval on the positioning ruler body, each row of folding numerical values are 10 rows from top to bottom, the folding numerical value on the front surface of the positioning ruler body is a constant c1 which is the sum of the numbers of yin and yang of a river map and 100, c1 is 0.55, the 10 folding numerical values in the first row are respectively 1-10 times of c1 from top to bottom, the 10 folding numerical values in the second row are respectively 11-20 times of c1 from top to bottom, and the like; the folding numerical value of the back of the positioning ruler body is a constant c2 which is the sum of the numbers of yin and yang in the lobbies/100, c2 is 0.45, the 10 folding numerical values of the first row are respectively 1-10 times of c2 from top to bottom, the 10 folding numerical values of the second row are respectively 11-20 times of c2 from top to bottom, and the rest is done in the same way; the transparent sliding assembly is clamped on the positioning ruler body, the surface of the transparent sliding assembly is provided with a positioning mark line coincident with the bilateral symmetry axis of the transparent sliding assembly, the two ends of the positioning mark line of the transparent sliding assembly correspond to the positioning ruler body, an upper needling hole and a lower needling hole are arranged on the outer part of the positioning ruler body, and the circle centers of the upper needling hole and the lower needling hole are positioned on the extension line of the positioning mark line.

2. The digital acupoint positioning ruler of claim 1, wherein each column of inflection values is located between two corresponding adjacent centimeter scale lines.

3. The digital acupoint positioning ruler of claim 1, wherein the fold values in each row are aligned up and down, and the fold values in each column are aligned left and right.

4. The digital acupoint positioning ruler of claim 1, wherein a blank area is provided between two adjacent rows of inflection values.

5. The digital acupoint positioning ruler of claim 1, wherein at least one blank area is provided in the middle of each row of inflection values.

6. The digital acupoint positioning ruler of claim 1, wherein the transparent sliding assembly comprises a first transparent sliding plate, a second transparent sliding plate, and upper and lower clamping sliders positioned between the first transparent sliding plate and the second transparent sliding plate, and the upper and lower clamping sliders are adhered to or fixed on the first transparent sliding plate and the second transparent sliding plate through fastening screws.

7. The digital acupoint positioning ruler of claim 1, wherein the first transparent sliding plate and the second transparent sliding plate are transparent acrylic plates.