WO2009005255A2 - Close adhesion pad for cupping glass - Google Patents

Abstract

Provided is a pad for closely adhering a cupping glass configured to make the pad closely attached to any portion of the human body to be treated to thus perform a cupping operation smoothly. The pad includes: an elastic block made of a soft quality of an elastic material; a hollow portion formed at the center of the inside of the elastic block; a coupling portion formed at the upper portion of the elastic block; a close adhesion step groove portion formed along the outer circumference of the upper portion of the elastic block; and adsorption holes formed in the coupling portion of the elastic block.

Description

CLOSE ADHESION PAD FOR CUPPING GLASS

Technical Field

The present invention relates to a pad for closely adhering a cupping glass, and more particularly, to a close adhesion pad for a cupping glass which is configured to make the close adhesion pad closely attached to any portion of the human body to be treated to thus perform a cupping operation smoothly.

Background Art In general, a cupping treatment means a method of curing a disease by forming a negative pressure in a cupping glass using heat or an inhalation device and attaching the cupping glass to a surgical operation region in order to extract blood or cause congestion with blood and to thereby give a physical stimulus to the surgical operation region. As illustrated in FIGS. IA and IB, most of the conventional cupping glasses which are used for the cupping treatment is of a shape of a cup which is put upside down, that is, a shape of a bell at the upper portion of which an air vent 11 is formed so that air is discharged therethrough. A valve 12 which controls an air flow to be locked or unlocked is formed in the air vent 11. According to a cupping treatment using the cupping glass, first of all, the cupping glass is made to contact the skin, and then air existing in the inside of the cupping glass 10 is inhaled by a suction pump 20. As a result, the inside of the cupping glass 10 is changed into a vacuum state and accordingly the skin existing in the inside of the cupping glass 10 is sucked. By the way, since most of the conventional cupping glasses 10 are made of a hard stuff, a load is concentrated on the skin to which the edge of the cupping glass 10 contacts. The cupping surgical operation region is pulled by the cupping glass 10 when air is inhaled by the suction pump 20, as well. As a result, a user may feel a pain. Further, since the edge of the cupping glass 10 may not easily contact the skin such as a finger portion or a bent unevenness region of the human body, it may be difficult to accurately attach the cupping glass 10 to the cupping surgical operation region.

Disclosure of the Invention

To solve the above problems, it is an object of the present invention to provide a pad for closely adhering a cupping glass which is configured to make the close adhesion pad closely attached to any portion of the human body to be treated to thus perform a cupping surgical operation smoothly.

To accomplish the above object of the present invention, according to an aspect of the present invention, there is provided a pad for closely adhering a cupping glass, the close adhesion pad comprising: an elastic block made of a soft quality of a material having elasticity; a hollow portion which is formed at the center of the inside of the elastic block, so as to penetrate the elastic block up and down; a coupling portion which is formed at the upper portion of the elastic block, so as to be inserted into and supported by the inside of the cupping glass; a close adhesion step groove portion which is formed along the outer circumference of the upper portion of the elastic block, so that the lower edge portion of the cupping glass is inserted into and closely adhered to the close adhesion step groove; and adsorption holes which are formed in the coupling portion of the elastic block, so as to communicate with the inside of the cupping glass. Preferably but not necessarily, a stopper mesh is formed in the hollow portion of the elastic block, in order to prevent a cupping surgical operation region of a patient from being sucked into the hollow portion.

Preferably but not necessarily, guide holes are formed in the coupling portion so that air inhaled through the adsorption holes is guided into the inside of the cupping glass.

Brief Description of the Drawings

FIGS. IA and IB are a perspective view and a cross-sectional view showing a conventional cupping glass, respectively.

FIGS. 2A and 2B are a perspective view and a cross-sectional view showing a close adhesion pad for a cupping glass according to an embodiment of the present invention, respectively.

FIG. 3 is a cross-sectional view showing a use state of a close adhesion pad for a cupping glass according to the present invention.

FIGS. 4A and 4B are a perspective view and a cross-sectional view showing a close adhesion pad for a cupping glass according to another embodiment of the present invention, respectively.

FIGS. 5A and 5B are a perspective view and a cross-sectional view showing a close adhesion pad for a cupping glass according to still another embodiment of the present invention, respectively.

Best Mode for Carrying out the Invention The above and/or other objects and/or advantages of the present invention will become more apparent by the following description. Hereinbelow, a pad for closely adhering a cupping glass according to an embodiment of the present invention will be described.

FIGS. 2A and 2B are a perspective view and a cross-sectional view showing a close adhesion pad for a cupping glass according to an embodiment of the present invention, respectively.

As shown in FIGS. 2A and 2B, a close adhesion pad 100 includes: an elastic block 110 made of a soft quality of a material having elasticity; a hollow portion 120 which is formed at the center of the inside of the elastic block 110, so as to penetrate the elastic block up and down; a coupling portion 130 which is formed at the upper portion of the elastic block 110, so as to be inserted into and supported by the inside of the cupping glass 10; a close adhesion step groove portion 140 which is formed along the outer circumference of the upper portion of the elastic block 110, so that the lower edge portion of the cupping glass 10 is inserted into and closely adhered to the close adhesion step groove 140; and adsorption holes 160 which are lengthily formed from the bottom of the elastic block 110 to the close adhesion step groove portion 140, so as to communicate with the inside of the cupping glass 10.

A curved portion 150 is formed on the bottom of the elastic block 110 so that user's cupping surgical operation region can be inserted into the close adhesion pad 100 and closely contacts the close adhesion pad 100. As being the case, a concave groove 151 may be formed at the central portion of the bottom of the curved portion 150, so that the user's cupping surgical operation region such as a finger whose size is relatively small can be inserted into the concave groove 151. The adsorption holes 160 which are lengthily formed from the bottom of the elastic block 110 to the close adhesion step groove portion 140, so as to communicate with the inside of the cupping glass 10. Here, it is preferable that the adsorption holes 160 are formed so as to penetrate the coupling portion 130 of the elastic block 110. In addition, in the case that the adsorption holes 160 are formed so as to pass through the close adhesion step groove 140 of the elastic block 110, guide holes 131 are formed in the coupling portion 130 so that air inhaled through the adsorption holes 160 is guided into the inside of the cupping glass 10.

In the case that air in the inside of the cupping glass 10 and the elastic block 110 is inhaled by a suction pump 20, and then both the cupping glass 10 and the elastic block 110 are changed into a vacuum state, a step protrusion 141 is protrudingly formed along the edge of the close adhesion step groove 140 so that the lateral surface of the edge of the cupping glass 10 is stopped by and closely adhered to the step protrusion 141, to thereby maintain a vacuum state. A stopper mesh 170 is formed in the hollow portion 120 of the elastic block 110, in order to prevent a cupping surgical operation region of a patient from being sucked into the hollow portion 120.

Meanwhile, it is desirable that the elastic block 110, the hollow portion 120, the curved portion 150 and the concave groove 151 are all formed in a circular shape, in their sections. As being the case, as illustrated in FIGS. 4A and 4B, the elastic block 110, the hollow portion 120, the curved portion 150 and the concave groove 151 may be selectively formed in a rectangular shape, in their sections. Otherwise, as illustrated in FIGS. 5A and 4B, the elastic block 110, the hollow portion 120, the curved portion 150 and the concave groove 151 may be selectively formed in a triangular shape, in their sections. In other words, the elastic block 110, the hollow portion 120, the curved portion 150 and the concave groove 151 may be respectively formed in various shapes, in their sections, in correspondence to user's cupping surgical operation region. The function of the close adhesion pad 100 as constructed above follows.

As shown in FIG. 3, in the case that a cupping surgical operation is performed using the close adhesion pad 100 and the cupping glass 10, the coupling portion 130 of the elastic block 110 is firstly fitted into and combined with the edge of the cupping glass 10. Then, the close adhesion pad 100 with which the cupping glass 10 has been combined is put on the surgical operation region and air of the inside of the cupping glass 10 is inhaled using a suction pump 20. Accordingly, air of the inside of the cupping glass 10, and air of the hollow portion 120 and the adsorption holes 160 of the close adhesion pad 100 escapes to the outside of the close adhesion pad 100. Accordingly, the inner spaces of the cupping glass 10 and the close adhesion pad 100 are changed into a vacuum state, respectively. In this case, the surgical operation region of the human body where the close adhesion pad 100 has been put is closely inhaled to thus cause congestion with blood and to thereby give a physical stimulus to the surgical operation region. Here, the edge of the cupping glass 10 is stopped by and closely adhered to the close adhesion step groove 140 of the close adhesion pad 100, and the step protrusion 141 of the close adhesion pad 100 is stopped by and closely adhered to the lateral surface of the cupping glass 10. Accordingly, the cupping glass 10 and the close adhesion pad 100 can be firmly coupled with each other. In addition, air which may remain between the curved portion 150 of the elastic block 110 and the surgical operation region of the patient is externally discharged to the outside of the cupping glass 10 via the adsorption holes 160. Accordingly, the close adhesion pad 100 can be more accurately and firmly attached to the surgical operation region. As described above, the close adhesion pad according to the present invention has an elastic property as in the case of rubber. Accordingly, the curved portion is deformed in the substantially same shape as that of the surgical operation region of a patient, so as to closely contact the surgical operation region. As a result, the cupping surgical operation can be smoothly performed even in any surgical operation region and situation. Further, since the cupping glass made of a hard material does not contact directly the surgical operation region, but the elastic block of a soft material contacts the surgical operation region, a cupping surgical operation can be performed without making a patient suffer from a pain. As described above, the present invention has been described with respect to particularly preferred embodiments. However, the present invention is not limited to the above embodiments, and it is possible for one who has an ordinary skill in the art to make various modifications and variations, without departing off the spirit of the present invention. Thus, the protective scope of the present invention is not defined within the detailed description thereof but is defined by the claims to be described later and the technical spirit of the present invention.

Industrial Applicability As described above, the present invention is applicable to a close adhesion pad for a cupping glass which is configured to make the close adhesion pad closely attached to any portion of the human body to be treated to thus perform a cupping operation smoothly.

Claims

What is claimed is:

1. A pad for closely adhering a cupping glass, the close adhesion pad comprising: an elastic block (110) made of a soft quality of a material having elasticity; a hollow portion (120) which is formed at the center of the inside of the elastic block (110), so as to penetrate the elastic block up and down; a coupling portion (130) which is formed at the upper portion of the elastic block (110), so as to be inserted into and supported by the inside of the cupping glass (10); a close adhesion step groove portion (140) which is formed along the outer circumference of the upper portion of the elastic block (110), so that the lower edge portion of the cupping glass (10) is inserted into and closely adhered to the close adhesion step groove (140); and adsorption holes (160) which are lengthily formed from the bottom of the elastic block (110) to the close adhesion step groove portion (140), so as to communicate with the inside of the cupping glass (10).

2. The close adhesion pad according to claim 1, wherein a stopper mesh (170) is formed in the hollow portion (120) of the elastic block (110), in order to prevent a cupping surgical operation region of a patient from being sucked into the hollow portion (120).

3. The close adhesion pad according to claim 2, wherein guide holes (131) are formed in the coupling portion (130) so that air inhaled through the adsorption holes (160) is guided into the inside of the cupping glass (10).