阅读说明：本技术 一种袖珍艾灸筒及其使用方法 (Pocket moxibustion barrel and using method thereof ) 是由 吴明星 于 2018-08-22 设计创作，主要内容包括：本发明公开了一种袖珍艾灸筒及其使用方法,艾灸筒包括套筒面设有上下两级台阶的上灸套筒以及部分筒面套设于上灸套筒下台阶外的下灸套筒,上灸套筒上开口处设有固定于上台阶末端的通风顶盖,上灸套筒内设有通风挡片,上灸套筒内通风挡片下端设有艾绒。下灸套筒筒面设有至少一个通风孔,下灸套筒远于上灸套筒一端开口处设有透温过滤网。本艾灸筒采取上灸套筒与下灸套筒组合安装而成,艾绒设于上灸套筒内通风挡片下,并且在上灸套筒上开口处设有通风顶盖,可以有效使艾绒完全燃烧,提升艾灸效果。下灸套筒在底部设有透温过滤网,透温过滤网可以将艾绒燃烧的热量散发至筒外,并且还可以过滤艾绒燃烧掉落物起到保护作用。(The invention discloses a pocket moxibustion tube and a using method thereof, the moxibustion tube comprises an upper moxibustion sleeve and a lower moxibustion sleeve, wherein the sleeve surface of the upper moxibustion sleeve is provided with an upper step and a lower step, part of the sleeve surface of the lower moxibustion sleeve is sleeved outside the lower step of the upper moxibustion sleeve, the upper opening of the upper moxibustion sleeve is provided with a ventilation top cover fixed at the tail end of the upper step, a ventilation blocking piece is arranged in the upper moxibustion sleeve, and the lower end of the ventilation blocking piece in the upper moxibustion sleeve is provided with moxa. The barrel surface of the lower moxibustion sleeve is provided with at least one vent hole, and an opening of one end of the lower moxibustion sleeve, which is far away from the upper moxibustion sleeve, is provided with a diathermy filter screen. This moxibustion section of thick bamboo takes moxibustion sleeve and moxibustion sleeve unit mount down to form, and the moxa is located under the last moxibustion sleeve interior ventilation separation blade to be equipped with the ventilation top cap at last moxibustion sleeve upper shed department, can effectively make the moxa burn completely, promote the moxa-moxibustion effect. The bottom of the lower moxibustion sleeve is provided with a temperature-permeable filter screen, the temperature-permeable filter screen can emit heat generated by burning moxa out of the lower moxibustion sleeve to the outside of the lower moxibustion sleeve, and can also filter falling objects generated by burning the moxa out of the lower moxibustion sleeve to play a role in protecting.)

1. A pocket moxibustion cylinder comprises an upper moxibustion sleeve and a lower moxibustion sleeve, wherein the sleeve surface of the upper moxibustion sleeve is provided with an upper step and a lower step, and part of the sleeve surface of the lower moxibustion sleeve is sleeved outside the lower step of the upper moxibustion sleeve; the barrel surface of the lower moxibustion sleeve is provided with at least one vent hole; the lower moxibustion sleeve is far away from one end opening of the upper moxibustion sleeve and is provided with a temperature-permeable filter screen, and the temperature-permeable filter screen is used for preventing moxa from burning and falling out of the lower moxibustion sleeve and transferring heat generated by the moxa burning to the outside of the lower moxibustion sleeve.

2. The miniature moxibustion cylinder according to claim 1, wherein the heat-permeable filtering net is provided with through holes, the heat-permeable filtering net is a double-layer net, and a steel wire mesh for filtering the burnt falling matters of the moxa is arranged in the middle of the double-layer net.

3. The miniature moxibustion cylinder according to claim 1, wherein one end of the diathermic filter screen, which is far away from the lower moxibustion sleeve, is provided with a bottom rubber ring, and the bottom rubber ring is used for fixing the cylinder body; the upper moxibustion sleeve and the lower moxibustion sleeve are made of recyclable and degradable paper materials; and tinfoil paper for fire prevention is arranged on the inner cylinder surface of the upper moxibustion sleeve and the inner cylinder surface of the lower moxibustion sleeve.

4. The pocket-sized moxibustion cylinder according to claim 1, characterized in that the lower stepped cylinder surface of the upper moxibustion sleeve is provided with external threads and corresponds to the internal threads arranged on the inner cylinder surface of the lower moxibustion sleeve, and the upper moxibustion sleeve is connected with the lower moxibustion sleeve through threads; or the upper moxibustion sleeve and the lower moxibustion sleeve are connected in an interference fit manner.

5. The pocket-sized moxibustion cylinder according to claim 1, wherein the length of the upper moxibustion sleeve is 33-35mm, the length of the upper stepped cylinder surface of the upper moxibustion sleeve is 10.5-11.5mm, the outer diameter of the upper stepped cylinder surface of the upper moxibustion sleeve is 24-26mm, and the outer diameter of the lower stepped cylinder surface of the upper moxibustion sleeve is 22-24 mm.

6. The pocket-sized moxibustion cylinder according to claim 1, wherein the length of the lower moxibustion sleeve is 34-36mm, the outer diameter of the cylinder surface of the lower moxibustion sleeve is 24-26mm, and the inner diameter of the cylinder surface of the lower moxibustion sleeve is 22-24 mm.

7. The pocket-sized moxibustion cylinder according to claim 1, wherein the vent holes are waist-shaped holes, the length of the through holes is 4-6mm, the width of the vent holes is 2-4mm, and the lower ends of the vent holes are 2-3mm away from the tail end of the lower moxibustion sleeve.

8. The pocket-sized moxibustion cylinder according to claim 1, wherein the upper step outer cylinder surface of the upper moxibustion sleeve and the lower moxibustion sleeve outer cylinder surface are both provided with anti-penetration materials for preventing the burning heat loss of moxa and scalding the user.

9. The method for using a pocket moxibustion cylinder as claimed in claim 1, wherein the method comprises the following steps:

step one, a lighting step, namely lighting moxa in the upper moxibustion sleeve, and inserting the cylinder surface of the lower step part of the upper moxibustion sleeve into the lower moxibustion sleeve after the moxa is burned;

step two, tearing off the adhesive paper of the rubber ring at the bottom, and adhering the moxibustion cylinder to the position of the body to be moxibustion;

step three, adjusting the temperature of the moxibustion cylinder, rotating the upper moxibustion sleeve to lift the moxibustion cylinder from the lower moxibustion sleeve, wherein the temperature of the moxibustion cylinder is inversely proportional to the lifting height, the temperature of the lifted high moxibustion cylinder is reduced, and the temperature of the lifted low moxibustion cylinder is increased;

and step four, burning the moxa for 12-18 minutes, and taking down the moxa tube after moxibustion is finished.

10. The use method of a pocket moxibustion cylinder as claimed in claim 9, wherein the moxa is hemispherical, the hemispherical spherical surface is provided with a protrusion for ignition, and the hemispherical plane faces the ventilation top cover; in the ignition step in the first step, the convex parts are ignited, so that the rest moxa is combusted.

Technical Field

The invention relates to a moxibustion device, in particular to a pocket moxibustion tube and a using method thereof.

Background

Along with the development of social economy, the public pay more and more attention to the body maintenance. Moxibustion can play a role in treating diseases and health care, is simple in use method, easy to operate and suitable for home health care of common people, so that the masses using moxibustion are wide. The traditional moxibustion uses a moxa stick, the moxa stick generally needs to be applied with moxibustion for a certain time to achieve the effect of warming and dredging meridians, so that a moxibustion worker is undoubtedly required to hold the moxa stick for a long time to keep a posture, and the moxibustion worker is very hard to feel. Although some moxibustion auxiliary equipment appears in the prior art, the manual operation can be separated, and the moxibustion steps are simplified. However, the problem that the moxa roll is scalded by uncontrollable temperature in the burning process still exists, and in addition, the cost is too high and is difficult to bear by users.

In order to solve the problems in the prior art, the inventor of the present invention has innovatively designed a pocket moxibustion cylinder and a method for using the same.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides a pocket moxibustion cylinder and a using method thereof.

In order to achieve the purpose, the invention adopts the following technical scheme:

a pocket moxibustion cylinder comprises an upper moxibustion sleeve and a lower moxibustion sleeve, wherein the sleeve surface of the upper moxibustion sleeve is provided with an upper step and a lower step, part of the sleeve surface is sleeved outside the lower step of the upper moxibustion sleeve, a ventilation top cover fixed at the tail end of the upper step is arranged at the upper opening of the upper moxibustion sleeve, a ventilation blocking piece is arranged in the upper moxibustion sleeve, and moxa is arranged at the lower end of the ventilation blocking piece in the upper moxibustion sleeve; the barrel surface of the lower moxibustion sleeve is provided with at least one vent hole; the lower moxibustion sleeve is far away from one end opening of the upper moxibustion sleeve and is provided with a temperature-permeable filter screen, and the temperature-permeable filter screen is used for preventing moxa from burning and falling out of the lower moxibustion sleeve and transferring heat generated by the moxa burning to the outside of the lower moxibustion sleeve.

The moxa burning falling object filtering device is characterized in that the through hole is formed in the heat-permeable filter screen, the heat-permeable filter screen is a double-layer screen, and a steel wire mesh used for filtering moxa burning falling objects is arranged in the middle of the double-layer screen.

The further technical scheme is that one end of the diathermic filter screen, which is far away from the lower moxibustion sleeve, is provided with a bottom rubber ring, and the bottom rubber ring is used for fixing the barrel body; the upper moxibustion sleeve and the lower moxibustion sleeve are made of recyclable and degradable paper materials; and tinfoil paper for fire prevention is arranged on the inner cylinder surface of the upper moxibustion sleeve and the inner cylinder surface of the lower moxibustion sleeve.

The moxibustion device is characterized in that the lower step cylinder surface of the upper moxibustion sleeve is provided with external threads and corresponds to internal threads arranged on the inner cylinder surface of the lower moxibustion sleeve, and the upper moxibustion sleeve is connected with the lower moxibustion sleeve through threads; or the upper moxibustion sleeve and the lower moxibustion sleeve are connected in an interference fit manner.

The further technical scheme is that the length of the upper moxibustion sleeve is 33-35mm, the length of an upper step cylindrical surface of the upper moxibustion sleeve is 10.5-11.5mm, the outer diameter of the upper step cylindrical surface of the upper moxibustion sleeve is 24-26mm, and the outer diameter of a lower step cylindrical surface of the upper moxibustion sleeve is 22-24 mm.

The further technical scheme is that the length of the lower moxibustion sleeve is 34-36mm, the outer diameter of the cylindrical surface of the lower moxibustion sleeve is 24-26mm, and the inner diameter of the cylindrical surface of the lower moxibustion sleeve is 22-24 mm.

The further technical scheme is that the vent holes are waist-shaped holes, the length of each through hole is 4-6mm, the width of each vent hole is 2-4mm, and the distance between the lower end of each vent hole and the tail end of the lower moxibustion sleeve is 2-3 mm.

According to a further technical scheme, the upper step outer cylinder surface of the upper moxibustion sleeve and the lower moxibustion sleeve outer cylinder surface are both provided with anti-heat-penetration materials for preventing burning heat dissipation of moxa wool and scalding a user.

The use method of the moxibustion cylinder comprises the following steps:

step one, a lighting step, namely lighting moxa in the upper moxibustion sleeve, and inserting the cylinder surface of the lower step part of the upper moxibustion sleeve into the lower moxibustion sleeve after the moxa is burned;

step two, tearing off the adhesive paper of the rubber ring at the bottom, and adhering the moxibustion cylinder to the position of the body to be moxibustion;

step three, adjusting the temperature of the moxibustion cylinder, rotating the upper moxibustion sleeve to lift the moxibustion cylinder from the lower moxibustion sleeve, wherein the temperature of the moxibustion cylinder is inversely proportional to the lifting height, the temperature of the lifted high moxibustion cylinder is reduced, and the temperature of the lifted low moxibustion cylinder is increased;

and step four, burning the moxa for 12-18 minutes, and taking down the moxa tube after moxibustion is finished.

The moxa is semi-spherical, a bulge for ignition is arranged on the semi-spherical surface, and the semi-spherical plane faces the ventilation top cover; in the first step, the ignition step is to ignite the convex part so as to burn the rest part of the moxa.

Compared with the prior art, the invention has the beneficial effects that: this moxibustion section of thick bamboo takes moxibustion sleeve and moxibustion sleeve unit mount down to form, and the moxa is located under the last moxibustion sleeve interior ventilation separation blade to be equipped with the ventilation top cap at last moxibustion sleeve upper shed department, can effectively make the moxa burn completely, promote the moxa-moxibustion effect. The bottom of the lower moxibustion sleeve is provided with a temperature-permeable filter screen, the temperature-permeable filter screen can emit heat generated by burning moxa out of the lower moxibustion sleeve to the outside of the lower moxibustion sleeve, and can also filter falling objects generated by burning the moxa out of the lower moxibustion sleeve to play a role in protecting. In addition, the temperature in the moxibustion barrel can be controlled by lifting the upper moxibustion sleeve upwards or downwards, so that the user is effectively protected from being scalded. The device can also be made of recyclable and degradable paper, is convenient to use and does not pollute the environment.

The invention is further described below with reference to the accompanying drawings and specific embodiments.

Drawings

FIG. 1 is an exploded view of a portable moxibustion device according to an embodiment of the present invention;

FIG. 2 is a schematic view of the outer shape of the moxibustion cylinder structure (after installation);

FIG. 3 is a schematic structural view of a temperature-permeable filter screen structure (a double-layer mesh belt steel wire mesh);

fig. 4 is a schematic cross-sectional structure of fig. 2.

Description of the reference numerals

Moxibustion sleeve on A moxibustion barrel 10

11 upper step and 12 lower step

13 upper opening 14 ventilation top cover

15 ventilation baffle 16 moxa

20 lower moxibustion sleeve 21 ventilation opening

22 temperature-permeable filter screen 221 internal temperature-permeable filter screen

222 outer temperature-permeable filter screen 23 steel wire mesh

24 through hole 161 projection

40 bottom rubber ring

Detailed Description

In order to more fully understand the technical content of the present invention, the technical solution of the present invention will be further described and illustrated with reference to the following specific embodiments, but not limited thereto.

As shown in fig. 1, a pocket moxibustion tube a comprises an upper moxibustion sleeve 10 with an upper step 11 and a lower step 12 on the sleeve surface, and a lower moxibustion sleeve 20 with a part of the sleeve surface sleeved outside the lower step 12 of the upper moxibustion sleeve 10, wherein a ventilation top cover 14 fixed at the tail end of the upper step 11 is arranged at the upper opening 13 of the upper moxibustion sleeve 10, a ventilation blocking piece 15 is arranged in the upper moxibustion sleeve 10, and moxa 16 is arranged at the lower end of the ventilation blocking piece 15 in the upper moxibustion sleeve 10. The moxa 16 can be clamped in the upper moxibustion sleeve 10 in a clamping manner, and the moxa 16 is combusted to provide heat and smoke required by moxibustion for the moxibustion barrel A. Lower moxibustion sleeve 20 section of thick bamboo face be equipped with at least one ventilation hole 21, lower moxibustion sleeve 20 be away from last moxibustion sleeve 10 one end opening part and be equipped with the filter screen 22 that thoroughly warms up, it is used for preventing to thoroughly warm filter screen 22 moxa 16 burning drops out moxa-moxibustion section of thick bamboo A, and will the heat transfer that moxa 16 burning produced is outside to moxa-moxibustion section of thick bamboo A. The inner cylinder surface of the upper moxibustion sleeve 10 and the inner cylinder surface of the lower moxibustion sleeve 20 are both provided with fireproof tinfoil which can prevent the moxa 16 from igniting the moxibustion cylinder A after burning.

As shown in the moxibustion barrel A of figure 2, the lower step of the upper moxibustion sleeve 10 is inserted into the inner surface of the lower moxibustion sleeve 20, and the upper moxibustion sleeve and the lower moxibustion sleeve are matched and installed to form a whole, so that the moxibustion barrel A is convenient and practical in use.

In the embodiment shown in fig. 3, the temperature-permeable filtering net 22 is provided with through holes 24, and the through holes 24 are used for emitting smoke generated by burning moxa out of the moxibustion cylinder. The temperature-permeable filter screen 22 is a double-layer screen (including an inner temperature-permeable filter screen 221 and an outer temperature-permeable filter screen 222), and a steel wire mesh 23 for filtering the burnt falling objects of the moxa 16 is arranged in the middle of the double-layer screen.

In the embodiment shown in fig. 1, a bottom rubber ring 40 is disposed at one end of the diathermic filter screen 22 far from the lower moxibustion sleeve 20, the bottom rubber ring 40 is used for adhering the moxibustion cylinder a to the body of a user, and the upper moxibustion sleeve 10 and the lower moxibustion sleeve 20 are made of recyclable and degradable paper materials, and can be degraded in the air after use without pollution.

In the embodiment shown in fig. 1, the upper moxibustion sleeve 10 is connected with the lower moxibustion sleeve 20 by interference fit, that is, the outer diameter of the lower step 12 of the upper moxibustion sleeve 10 is slightly larger than the outer diameter of the lower moxibustion sleeve 20, and the two are turned and simultaneously in interference fit, so that the moxibustion device can be pulled out by force when in use.

In other embodiments, the lower step 12 of the upper moxibustion sleeve 10 is provided with external threads on the surface thereof and corresponds to internal threads provided on the inner cylindrical surface of the lower moxibustion sleeve 20, and the upper moxibustion sleeve 10 is connected with the lower moxibustion sleeve 20 by threads.

In the embodiment shown in fig. 4, the length of the upper moxibustion sleeve 10 is 33-35mm, the length of the upper step 11 cylindrical surface of the upper moxibustion sleeve 10 is 10.5-11.5mm, the outer diameter of the upper step 11 cylindrical surface of the upper moxibustion sleeve 10 is 24-26mm, and the outer diameter of the lower step 12 cylindrical surface of the upper moxibustion sleeve 10 is 22-24 mm.

In the embodiment shown in figure 4, the length of the lower moxibustion sleeve 20 is 34-36mm, the external diameter of the cylindrical surface of the lower moxibustion sleeve 20 is 24-26mm, and the internal diameter of the cylindrical surface of the lower moxibustion sleeve 20 is 22-24 mm.

In the embodiment shown in fig. 4, the vent hole 21 is a waist-shaped hole, the length of the vent hole 21 is 4-6mm, the width of the vent hole 21 is 2-4mm, and the lower end of the vent hole 21 is 2-3mm away from the end of the lower moxibustion sleeve 20.

In other embodiments, the outer cylindrical surfaces of the upper step 11 and the lower sleeve 20 of the upper sleeve 10 are provided with anti-heat-transfer materials for preventing the burning heat of the moxa 16 from dissipating and scalding the user.

The use method of the moxibustion cylinder a comprises the following steps (the use method is described with reference to fig. 1 to 4):

step one, a lighting step, namely lighting the moxa 16 in the upper moxibustion sleeve 10, and inserting part of the surface of the lower step 12 of the upper moxibustion sleeve 10 into the lower moxibustion sleeve 20 after the moxa is burned;

tearing off the rubber ring 40 adhesive paper at the bottom of the lower moxibustion sleeve, and sticking the moxibustion cylinder A to the part of the body to be moxibustion;

step three, adjusting the temperature of the moxibustion cylinder A, rotating the upper moxibustion sleeve 10 to lift the moxibustion cylinder A from the lower moxibustion sleeve 20, wherein the temperature of the moxibustion cylinder A is inversely proportional to the lifting height, the temperature of the lifted high moxibustion cylinder A is reduced, and the temperature of the lifted low moxibustion cylinder A is high;

and step four, burning the moxa 16 for 12-18 minutes, and taking down the moxa tube A after moxibustion is finished.

When in use, the moxibustion cylinder can be fixed at the position of the human body needing moxibustion by using adhesive sticker paste, silica gel paste and other attaching materials.

In the embodiment shown in fig. 1, the moxa 16 is a hemisphere, the hemisphere-shaped sphere is provided with a protrusion 161 for ignition, the hemisphere-shaped plane faces the ventilation top cover 14, and in the first step, the ignition step is to ignite the protrusion 161, so that the flame burns the residual moxa 16.

In other embodiments, a central through hole is formed in the middle of the moxa 16, or at least one axially extending groove is formed around the moxa 16, so as to facilitate the ventilation effect and increase the combustion efficiency when the moxa 16 is initially combusted.

In other embodiments, the lower end surface of the moxa 16 is provided with a plurality of protrusions or tips, which facilitate the initial ignition of the moxa 16 while being pointed, so as to increase the burning rate and adapt to specific people. Although a plurality of projections or tips are provided, they need not be fully pointed during use and may be selected depending on the use requirements.

One or two ventilation holes 21 may be used in general. However, the size and number of the vent holes are fixed, and the combustion efficiency and speed are difficult to adjust. Thus, in another embodiment, the lower end of the upper moxibustion sleeve extends downwards to form an adjusting cylinder part so as to block the vent hole, and the adjusting cylinder part is provided with a vent groove which corresponds to the vent hole and extends along the axial direction. The width of the ventilation groove is the same as that of the ventilation hole, and when the ventilation groove and the ventilation hole are completely overlapped, the ventilation sectional area of the ventilation hole is the largest; when the upper moxibustion sleeve and the lower moxibustion sleeve rotate relatively, the ventilation grooves and the ventilation holes are staggered relatively, so that the ventilation sectional area of the ventilation holes is reduced, and the effect of adjusting the combustion speed and efficiency is achieved. And because the ventilation groove extends along the axial direction, the ventilation sectional area of the ventilation hole is not influenced when the upper moxibustion sleeve and the lower moxibustion sleeve are adjusted up and down. By the embodiment, the moxibustion cylinder has an adjusting function and is suitable for a wider range of objects.

To sum up, this moxibustion section of thick bamboo takes moxibustion sleeve and moxibustion sleeve aggregate erection down to form, and the moxa is located under the interior ventilation separation blade of moxibustion sleeve to be equipped with the ventilation top cap at last moxibustion sleeve upper shed department, can effectively make the moxa burn completely, promote the moxa-moxibustion effect. The bottom of the lower moxibustion sleeve is provided with a temperature-permeable filter screen, the temperature-permeable filter screen can emit heat generated by burning moxa out of the lower moxibustion sleeve to the outside of the lower moxibustion sleeve, and can also filter falling objects generated by burning the moxa out of the lower moxibustion sleeve to play a role in protecting. In addition, the temperature in the moxibustion barrel can be controlled by lifting the upper moxibustion sleeve upwards or downwards, so that the user is effectively protected from being scalded. The device can also be made of recyclable and degradable paper, is convenient to use and does not pollute the environment.

The technical contents of the present invention are further illustrated by the examples, so as to facilitate the understanding of the reader, but the embodiments of the present invention are not limited thereto, and any technical extension or re-creation based on the present invention is protected by the present invention. The protection scope of the invention is subject to the claims.