阅读说明：本技术 面向对象的重量式指压垫 (Object-oriented weight-based finger pad ) 是由 高碇奉 李宣林 高序仑 高旼廷 于 2019-07-12 设计创作，主要内容包括：本发明涉及可使使用人员自行变更身体部位来自由进行指压并防止对不必要的身体部位进行指压的面向对象的重量式指压垫。本发明的面向对象的重量式指压垫包括：外罩部；垫部,收容在上述外罩部的内部空间,用于向身体部位提供缓冲感；袋部,收容在上述垫部的内部空间；以及配重体,收容在上述袋部的内部空间,用于向身体部位进行指压。(The present invention relates to a weight-type finger-pressure pad for a subject, which enables a user to change his or her body part by himself or herself so as to prevent the user from performing finger-pressure on an unnecessary body part. The object-oriented weight-based finger pad of the present invention comprises: a housing portion; a cushion part accommodated in the inner space of the cover part and used for providing a cushion feeling to a body part; a bag part accommodated in the inner space of the pad part; and a weight body accommodated in the inner space of the bag portion and used for performing finger pressure on a body part.)

1. An object-oriented weighted finger pad, comprising:

a housing portion;

a cushion part accommodated in the inner space of the cover part and used for providing a cushion feeling to a body part;

a bag part accommodated in the inner space of the pad part; and

a weight body accommodated in the inner space of the bag part for applying finger pressure to a body part,

the weight body has a weight capable of applying a pressure of 0.1mmHg or more and 200mmHg or less.

2. The object-oriented weight-based pressure pad according to claim 1, wherein the pad portion has a young's modulus of 0.001Kpa or more and 1000Kpa or less.

3. The object-oriented weight finger pad according to claim 1, wherein the weight body is one or more selected from the group consisting of stone, wood, metal, plastic, and nonmetal.

4. The object-oriented weight-type acupressure pad according to claim 3, further comprising a coupling portion formed on an outer surface of the bag portion, penetrating the pad portion and the cover portion, and protruding outward.

Technical Field

The present invention relates to an object-oriented weight-type acupressure pad, and more particularly, to an object-oriented weight-type acupressure pad which enables a user to selectively change a body part to perform acupressure freely.

Background

Generally, meridian point (meridian point) means about 365 points on the meridian showing a sensitive response to a disease.

A manual technique for correcting the regulation (modulation) of a living body or promoting health or treating a disease by pressing the above-mentioned meridian points with a thumb or a palm is called finger pressure.

When a person directly applies finger pressure, much effort is consumed, and thus, a large number of automatic finger pressure devices are being developed and used.

However, since an automatic acupressure device considering ergonomics has not been developed, the conventional automatic acupressure device has problems in that it gives pain to a user and the number of parts capable of performing acupressure is limited because it performs acupressure on unnecessary parts of the body together.

Further, since the conventional automatic acupressure device cannot move the body part during acupressure, when another body part is to be acupressure-pressed, the operation is stopped, the body part is changed, and then the operation is performed again, which causes a problem that the acupressure cannot be performed flexibly.

The prior art documents in the art to which the present invention pertains are korean laid-open patent publication No. 10-2012-0029184 and the like.

Disclosure of Invention

Technical problem

The present invention has been made to solve the above-mentioned problems of the prior art, and an object of the present invention is to provide a weight-type finger-pressure pad for a subject, which enables a user to change his or her body part by himself or herself so as to prevent the user from performing finger-pressure on an unnecessary body part.

Technical scheme

The object-oriented weight-based finger pad of the present invention comprises: a housing portion; a cushion part accommodated in the inner space of the cover part and used for providing a cushion feeling to a body part; a bag part accommodated in the inner space of the pad part; and a weight member accommodated in the inner space of the bag portion and adapted to be pressed against a body part, wherein the weight member has a weight capable of applying a pressure of 0.1mmHg or more and 200mmHg or less.

The pad portion may have a young's modulus of 0.001Kpa or more and 1000Kpa or less.

The weight body may be one or more selected from stone, wood, metal, plastic and nonmetal.

The present invention further includes a coupling portion formed on an outer surface of the bag portion, penetrating the pad portion and the cover portion, and protruding outward.

ADVANTAGEOUS EFFECTS OF INVENTION

The object-oriented weight type acupressure pad of the present invention has an effect that since the bag part is filled with the acupressure weight body for acupressure of the object-oriented heavy and hard material, the bag part and the pad part are elastically deformed according to the body part by the load of the weight body, and the user can move the portion to be acupressure by himself/herself in a state of being in contact with the body part to effectively perform acupressure, and can perform uniform acupressure on a large area of the body part to strongly acupressure the local body part, thereby improving acupressure efficiency.

Further, the user can freely perform finger pressure by changing his/her body part by himself/herself, thereby preventing unnecessary pain from being caused and finger pressure from being performed on unnecessary body parts.

Drawings

Fig. 1 is a perspective view illustrating an object-oriented weight finger pad of the present invention.

Fig. 2 is a cross-sectional view illustrating the object-facing weight finger pad of the present invention.

Fig. 3 is a perspective view showing a use state of the object-oriented weight type acupressure pad of the present invention.

Detailed Description

The advantages, features and methods of accomplishing the same of the present invention may be understood more clearly by reference to the drawings and the detailed description that follows.

However, the embodiments disclosed below do not limit the present invention, but may be embodied in many different forms and are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art, and the present invention will only be defined by the appended claims. Throughout this specification, like reference numerals denote like structural elements.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art to which the present invention pertains can easily carry out the embodiments. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Throughout this specification, like parts are given the same reference numerals.

Fig. 1 is a perspective view illustrating an object-oriented weight type acupressure pad of the present invention, fig. 2 is a sectional view illustrating the object-oriented weight type acupressure pad of the present invention, and fig. 3 is a perspective view illustrating a use state of the object-oriented weight type acupressure pad of the present invention.

The present invention relates to a weight-based acupressure pad for a subject, which enables a user to perform acupressure by moving a desired body part by himself/herself while performing acupressure on the desired body part such as a hand, arm, leg, etc., and which prevents pain, unnecessary acupressure, etc., which may occur during acupressure, thereby achieving optimal acupressure.

To this end, the object-oriented weight type acupressure pad 1 of the present invention may include a cover portion 10, a pad portion 20, a pocket portion 30, and a weight portion 40.

The cover 10 has an open surface and a space formed therein, and can accommodate a bag 30, a pad 20, and the like.

In this case, the open portion of the cover portion 10 can be opened and closed by an opening and closing device such as a zipper, a button, or a nylon band.

The cover portion 10 is made of a flexible material because it is a portion that is in direct contact with a body part of a user.

That is, when the cover portion 10 is made of a flexible material, the skin of the user can be protected by preventing the occurrence of strong friction generated when the body part is moved to find the finger pressure point in a state where the heavy weight body 40 is used to face the subject.

Further, a protection part (not shown) made of a waterproof material may be provided on the inner surface of the cover part 10 so as to protect the bag part 30, the cushion part 20, the weight body 40, and the like.

The pad part 20 provides a cushion feeling when a user uses the object-oriented weight type acupressure pad 1 of the present invention, and is accommodated in the inner space of the cover part 10.

The cushion part 20 providing a cushioning feeling has a modulus of elasticity, and is expressed by young's modulus as a modulus of elasticity in the longitudinal direction since it is only necessary to cushion a pressure in the vertically downward direction.

In this case, the cushion member 20 has a tensile strength corresponding to the weight member 40.

The mat member 20 may vary depending on the type of the weight body 40 or the weight, but preferably has a minimum Young's modulus (Young's modulus) of 0.001Kpa to 1000 Kpa.

That is, since the pad 20 is directly contacted with the sensitive body and skin, it is required to give a soft feeling, and for this reason, the weight body is set to 0.001Kpa, which corresponds to a young's modulus of 1/10 or more at a pressure of 0.1 mmHg.

Also, when the pad 20 has an excessively large young's modulus of 1000Kpa or more, it is preferable not to exceed 1000Kpa because it is applied to only a part of the skin having a curved surface to increase pain.

The cushion part 20 may be made of a material such as foam resin, sponge, rubber, or silicone so as to provide a user with a cushion feeling, thereby reducing pain and pain during the process of pressing the body part with the fingers of the user.

Further, when the pad 20 is elastically deformed by the load of the user and performs finger pressure on a body part having a curved shape such as an elbow or a heel, the cover 10 can naturally come into close contact with the body part, thereby improving the finger pressure effect.

The bag 30 is accommodated in the inner space of the cover 10 with its outer surface surrounded by the pad 20.

The bag portion 30 has one open surface and has a space formed therein for accommodating the weight body 40 and the like.

In this case, the open portion of the bag portion 30 may be opened and closed by an opening and closing device such as a zipper, a button, a nylon tape, or the like, so that the weight body 40 can be replaced by each kind.

A plurality of partition walls for preventing the weight body 40 from being inclined in one direction may be formed inside the pocket portion 30 with a predetermined interval.

The weight body 40 is accommodated in the inner space of the pocket 30, and is used for pressing a body part with fingers, and may be selected from one or more of stone, wood, metal, plastic, and nonmetal.

The weight body 40 has a weight capable of applying a pressure of 0.1mmHg or more and 200mmHg or less, and a plurality of weight bodies 40 are arranged to increase the weight in order to achieve an excellent acupressure effect.

In this case, when the weight body 40 is less than 0.1mmHg, since the finger pressure effect is reduced and affects the blood pressure of the user, it is preferable that the maximum value of the blood pressure is not more than 200 mg.

For example, the weight body 40 may have a weight of about 20 to 30 kg.

In another aspect, the present invention is described in terms of the weight that can be applied to a body part.

The entire present invention having the pad part 20 or the bag part 30 of 70cm length is placed on the thigh, and when the thigh is in contact with the cover part 10 by only 10cm, 760mmHg is 1kgf/cm²、20mmHg＝1/38kgf/cm²＝0.0263kgf/cm²The contact area between the thigh and the cushion part 20 or the bag part 30 is 10cm70cm＝700cm². Therefore, the weight of the pad to which a pressure of 20mmHg is applied is 0.0263 × 700 ═ 18.41 kg.

Further, since the weight body 40 is suitable for the body, a material harmless to the human body, environmentally friendly, and heavy may be used in addition to the above materials.

In this case, the bag portion 30 should be made of a material having flexibility and elasticity so as not to be easily torn by the weight body 40 and to be elastically deformed together with the cushion portion 20 under the load of the user.

On the other hand, the object-oriented weight type acupressure pad 1 of the present invention may further include a coupling portion 50, and the coupling portion 50 may be used to stably couple the cover portion 10 and the bag portion 30.

The coupling portion 50 may be made of a material such as a string or a tape, and may have a handle shape having an end surface shape of approximately "Contraband".

The coupling parts 50 may be coupled to both side surfaces of the pocket part 30 by sewing, respectively.

A portion of the coupling portion 50 penetrates the pad portion 20 and the cover portion 10 and protrudes to the outside.

The protruding portion of the coupling portion 50 functions as a kind of handle, whereby the user can easily carry the object-oriented weight finger pad of the present invention.

Further, the coupling part 50 integrally couples the pad part 20, the bag part 30 and the cover part 10, so that the pad part 20 or the bag part 30 can be prevented from moving or scattering inside the cover part 10 during the finger-pressing process or during the transportation process using the object-oriented weight-type finger-pressing pad of the present invention.

As described above, in the object-oriented weight type acupressure pad 1 of the present invention, the weight body 40 for the object-oriented heavy and hard material is filled in the bag portion 30, and the pad portion 20 and the bag portion 30 can be elastically deformed by the load of the weight body 40, so that it can be applied to the body part to be acupressure as shown in fig. 3.

In particular, in a state where the cover portion 10 is in contact with a body part, a user can move a portion to be acupressure by himself/herself to perform effective acupressure, and can perform uniform acupressure on a large area of the body part to perform strong acupressure on a local body part.

Next, the operation of the present invention will be described with reference to fig. 4.

The hydrostatic interstitial fluid pressure, Pif ═ 1mmHg, is almost constant, the osmotic interstitial fluid pressure, tiff ═ 0mmHg, is neglected, the osmotic plasma colloid pressure, pip ═ 25mmHg, is constant.

When Pc is equal to the capillary artery pressure of 37mmHg and the vein pressure of 17mmHg, the pressure to flow from the capillary artery side to the blood vessel outer side is 37- (25+1) 11mmHg, and the pressure to flow from the capillary vein side to the blood vessel inner side is (25+1) -17 — 9mmHg, differing by 2mmHg and flowing into the lymphatic vessel.

When interstitial fluid increases due to an increase in arterial or venous pressure, a change in osmotic pressure, a change in pressure of interstitial fluid, or the like, fluid retention or edema occurs in the tissue.

When the pressure of the tissue increases, interstitial fluid flows into the capillary vein side or lymphatic vessels.

When the blood pressure is 11mmHg or more, the inflow from the artery side is stopped and the process proceeds more quickly, but the supply of blood to the tissue is interrupted, which results in ischemic symptoms.

When a pressure of about 20mmHg is applied to the skin layer, the pressure applied to interstitial fluid is reduced to half or less due to the elasticity of the tissue or the like, but if the edema generated is about 5mmHg, even when a pressure of 5mmHg or more is applied, it is known that interstitial fluid flows out to the lymphatic vessel or capillary vein side as described above.

Although the feeling of comfort is weak depending on the region, the feeling of comfort is further felt when 10mmHg is applied, the feeling of comfort is further felt when 20mmHg is applied, and ischemic symptoms are not observed, the feeling of comfort increases with an increase in pressure, and ischemic symptoms begin to appear markedly at about 30 mmHg.

It will be appreciated by those skilled in the art that the present invention can be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The various embodiments described above are therefore to be considered in all respects only as illustrative and not restrictive. The scope of the present invention is indicated by the following claims, and all modifications and variations derived from the meaning and range of equivalents of the claims are intended to fall within the scope of the present invention.

Description of reference numerals

1: object-facing weight pad 10: outer cover part

20: pad 30: bag part

40: weight 50: joining part