CN220695540U - Thermal moxibustion device - Google Patents

Abstract

The application mainly relates to a thermal moxibustion device, and this thermal moxibustion device has length direction, width direction and the direction of height orthogonal each other to including the moxibustion bed and place the first moxibustion utensil of moxibustion material, the moxibustion bed includes bedstead, bed board and carrier, and the bed board sets up on the bedstead along the direction of height, and supplies the user to lie down or lie prone, and carrier carries first moxibustion utensil, and moves for the bedstead along length direction and/or width direction. The application provides a thermal moxibustion device, through set up the carrier of carrying moxibustion tools in the moxibustion bed. Therefore, when the moxibustion material is required to be taken and placed or replaced in the moxibustion tool, the user can pull out the moxibustion tool through the carrier, and the moxibustion tool is convenient and quick to use.

Description

Thermal moxibustion device

Technical Field

The application relates to the technical field of medical instruments, in particular to a thermal moxibustion device.

Background

Moxibustion, the moxibustion method in traditional Chinese medicine acupuncture therapy, generally comprises exciting body surface acupoints or specific parts by Ai Reci generated by burning moxibustion materials, so as to regulate physiological and biochemical functions of human body disorder by exciting menstrual qi. With the continuous development of society, people also pay more and more attention to self health, and moxibustion and related products thereof are favored and trusted by more and more consumers. However, the prior art has the technical problems of inconvenient filling/replacement of moxibustion materials in a moxibustion bed and the like.

Disclosure of Invention

The embodiment of the application provides a thermal moxibustion device, and this thermal moxibustion device has length direction, width direction and the direction of height that are orthogonal to each other to including moxibustion bed and first moxibustion utensil, the moxibustion bed includes bedstead, bed board and carrier, and the bed board sets up on the bedstead along the direction of height, and supplies the user to lie down or lie prone, and carrier carries first moxibustion utensil, and moves for the bedstead along length direction and/or width direction.

In some embodiments, the bed frame is provided with two groups of first sliding structures, the carrier comprises a bottom plate, side plates and a panel, the side plates are connected with the bottom plate in a bending way, the first moxibustion tool is arranged on the bottom plate and is positioned between the two side plates which are oppositely arranged, two opposite sides of the two side plates are respectively provided with a second sliding structure matched with the first sliding structures, and the panel receives pushing force or pulling force applied by a user to the carrier; one of the first sliding structure and the second sliding structure is a guide rail, and the other one is a sliding block and/or a roller.

In some embodiments, the first moxibustion device corresponds to the upper body of the human body in the use state, and the thermal moxibustion device further comprises a first driving structure arranged on the carrier, and the first driving structure drives the first moxibustion device to be close to or far from the bed plate along the height direction.

In some embodiments, the first moxibustion device includes a support connected to the first driving structure, and a main moxibustion device and an auxiliary moxibustion device disposed on the support, where the number of the auxiliary moxibustion devices is two, and the main moxibustion device is located between the two groups of the auxiliary moxibustion devices in the width direction.

In some embodiments, the thermal moxibustion device further comprises a second driving structure provided on the support, and the second driving structure drives the main moxibustion tool to rotate relative to the moxibustion bed.

In some embodiments, the bed board is provided with two groups of strip-shaped through holes, and orthographic projection of each group of strip-shaped through holes along the height direction is overlapped with one group of auxiliary moxibustion tools respectively.

In some embodiments, the number of the first moxibustion tools is plural, and the plural first moxibustion tools are arranged at intervals along the length direction.

In some embodiments, the size of the moxibustion bed in the length direction is larger than the size of the moxibustion bed in the width direction, the carrier moves along the width direction relative to the bed frame, and the thermal moxibustion device further comprises a second moxibustion tool adjacent to the first moxibustion tool in the length direction, and the second moxibustion tool corresponds to the lower half of the human body in the use state.

In some embodiments, the deck comprises a first deck covering the first moxibustion device and a second deck covering the second moxibustion device, the second deck rotating relative to the bed frame about an axis parallel to the width direction or the length direction.

In some embodiments, the thermal moxibustion device further comprises a third driving structure arranged on one side of the second moxibustion tool away from the bed plate, wherein the third driving structure is connected with the second moxibustion tool and drives the second moxibustion tool to be close to or far away from the bed plate along the height direction.

The beneficial effects of this application are: the application provides a thermal moxibustion device through set up a carrier structure in the moxibustion bed, and carrier structure is used for carrying on moxibustion tools. Therefore, when the moxibustion material is required to be taken and placed or replaced in the moxibustion tool, the user can pull out the moxibustion tool through the carrier, and the moxibustion tool is convenient and quick to use.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of a human body plane structure using a thermal moxibustion device according to the present application;

fig. 2 is an exploded view of an embodiment of a thermal moxibustion device provided herein;

FIG. 3 is a schematic view of an embodiment of a moxibustion device and a carrier according to the present application;

fig. 4 is a schematic structural view of a moxibustion device according to another embodiment of the present utility model;

FIG. 5 is a schematic view of an embodiment of a moxibustion device and driving structure provided in the present application;

fig. 6 is a schematic structural view of an embodiment of a moxibustion device and a bracket provided in the present application.

Detailed Description

The present application is described in further detail below with reference to the drawings and examples. It is specifically noted that the following examples are only for illustration of the present application, but do not limit the scope of the present application. Likewise, the following embodiments are only some, but not all, of the embodiments of the present application, and all other embodiments obtained by a person of ordinary skill in the art without making any inventive effort are within the scope of the present application.

Reference in the present application to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment may be included in at least one embodiment of the present application. Those of skill in the art will explicitly and implicitly understand that the embodiments described herein may be combined with other embodiments.

In addition, if there is a description of "first", "second", etc. in the embodiments of the present application, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be regarded as not exist and not within the protection scope of the present application.

In medicine, and with reference to fig. 1, the human body may be divided into an upper body and a lower body with the upper pubic symphysis border as a demarcation point. Of course, in daily life, people often divide the upper and lower body with the navel as a demarcation point. More specifically, the upper body may also be divided into a trunk portion and an upper limb portion; the lower body can also be understood simply as the lower limb.

With reference to fig. 2, the thermal moxibustion device 10 described herein may have a length direction, a width direction, and a height direction that are orthogonal to each other. Wherein the direction shown by arrow X in fig. 2 can be simply considered as the length direction described herein, the direction shown by arrow Y in fig. 2 can be simply considered as the width direction described herein, and the direction shown by arrow Z in fig. 2 can be simply considered as the height direction described herein. Further, all directional indications (such as up, down, left, right, front, rear … …) in the embodiments of the present application are merely used to explain the relative positional relationship, movement, etc. between the components in a particular gesture (as shown in fig. 2), and if the particular gesture changes, the directional indication changes accordingly.

Referring to fig. 2 and 3, the thermal moxibustion device 10 may include a moxibustion bed 11 and a moxibustion tool 12, wherein the moxibustion tool 12 places a moxibustion material and may be placed inside the thermal moxibustion device 10. The size of the moxibustion bed 11 in the length direction is larger than the size of the moxibustion bed 11 in the width direction, and the moxibustion bed 11 may include a bed frame 111 and a bed plate 112 supported on the bed frame 111 in the height direction, the bed plate 112 being for a user to lie down or lie down. In this way, the user can lie on the bed 11 or lie on the bed 11 for thermal moxibustion, i.e., the human body is located above the bed 11 in the height direction. Of course, in other embodiments, the human body may be located under the bed in the height direction. In addition, in daily use, when the thermal moxibustion device 10 is not used for thermal moxibustion, a mattress can be placed on the bed board 112 for daily sleeping, so that the thermal moxibustion device 10 does not occupy redundant space, and other values of the thermal moxibustion device 10 are exerted as much as possible.

In some embodiments, and with reference to fig. 4, thermal moxibustion device 10 may also include a moxibustion tool 13. Similarly, moxibustion tool 13 is also used to place moxibustion materials and may be placed within thermal moxibustion device 10. Specifically, the moxibustion device 13 may include a moxibustion net 133 and a frame 132 fixed to the periphery of the moxibustion net 133. In other embodiments, the moxibustion device 13 may further include handles 131 disposed on opposite sides of the frame 132, so that the moxibustion device 13 can be taken and placed more conveniently and quickly. Further, in the use state, the moxibustion device 12 may correspond to either the upper body or the lower body of the human body. Of course, in other embodiments such as where the thermal moxibustion device 10 is further provided with the moxibustion device 13, in the use state, one of the moxibustion device 12 and the moxibustion device 13 may correspond to the upper body of the human body, and the other may correspond to the lower body of the human body. In this embodiment, the moxibustion device 12 corresponds to the upper half of the human body, and the moxibustion device 13 corresponds to the lower half of the human body. In this way, when the user lies down or lies down on the moxibustion bed 11, the thermal moxibustion can be received at the maximum area.

It should be noted that: the main component of the moxibustion material is mugwort, and specifically mugwort floss prepared by processing mugwort; of course, besides moxa, the moxa can be impregnated with medicines suitable for thermal moxibustion, such as radix Et rhizoma Nardostachyos, radix Angelicae Dahuricae, herba asari, rhizoma Et radix Notopterygii, and Realgar. In order to be suitable for thermal moxibustion, the moxibustion materials can be processed into moxa sticks, moxa columns, moxa cakes and the like. Further, with reference to a user lying or lying on the moxibustion bed 11, the length direction described in the present application may refer to a direction in which a Vertical Axis (Vertical Axis) of a human body is located, that is, a direction in which a height of the human body is located; the width direction described in the application may refer to the direction in which the Coronal Axis (Coronal Axis) of the human body is located, that is, the direction in which the human body is located left and right; the height direction described in the present application may refer to the direction of the Sagittal Axis (Sagittal Axis) of the human body, that is, the direction of the front and back of the human body.

In some embodiments, and with reference to fig. 3, thermal moxibustion device 10 can further include a carrier 123 connected to bed 11, carrier 123 carrying moxibustion tool 12 and moving in the length and/or width direction relative to bed frame 111. In this way, the moxibustion device 12 is allowed to enter the moxibustion bed 11 from the lateral direction of the thermal moxibustion device 10 or exit from the moxibustion bed 11 together by the carrier 123. Here, the present embodiment is exemplarily described taking an example in which the carrier 123 moves in the width direction with respect to the bed frame 111. Thus, when a user needs to take and put or replace moxibustion materials and clean the thermal moxibustion device 10, the user can pull out the moxibustion tool 12 through the carrier 123 without lifting the bed plate 112, so that the use is convenient and quick. Similarly, the moxibustion tools 13 may be disposed on the same or another carrier 123, which may have the same or similar technical effects.

As an example, in combination with fig. 2 and 3, two sets of first sliding structures 1111 may be provided on the bed frame 111, and the two sets of first sliding structures 1111 may be spaced apart in the length direction. The carrier 123 may include a bottom plate 1231 and side plates 1232 and panel 1233 that are bent to connect with the bottom plate 1231, the side plates 1232 and panel 1233 extending toward the bed plate 112 away from one end of the bottom plate 1231. Wherein, both ends of the panel 1233 may be further connected to a side plate 1232, respectively, to increase the structural stability of the carrier 123. Of course, the carrier 123 may further include a back plate 1234 disposed opposite to the front plate 1233, and two ends of the back plate 1234 may be connected to one side plate 1232, respectively, to increase structural stability of the carrier 123. Accordingly, two opposite sides of the two side plates 1232 may be provided with second sliding structures 1112 that are engaged with the first sliding structures 1111, respectively. One of the first sliding structure 1111 and the second sliding structure 1112 is a guide rail, and the other is a slider and/or a roller. In this embodiment, the first sliding structure 1111 is a guide rail, and the second sliding structure 1112 is a slider. In this manner, panel 1233 receives a pushing or pulling force applied by a user to carrier 123 to facilitate pulling or pushing of carrier 123 and moxibustion instrument 12 thereon. At this time, the moxibustion device 12 may be disposed on the bottom plate 1231 and between the two opposite side plates 1232.

In other embodiments, in conjunction with fig. 2, the deck 112 can include first and second deck 1121, 1122 connected to the bed frame 111, respectively, although the first and second deck 1121, 1122 can also be connected to each other. The first bed plate 1121 may cover the moxibustion tool 12, and the second bed plate 1122 may cover the moxibustion tool 13. Further, at least the second deck 1122 of the first deck 1121 and the second deck 1122 rotates about an axis parallel to the width direction or the length direction with respect to the frame 111. Thus, when a user needs to take and put or replace moxibustion materials and clean the thermal moxibustion device 10, the user can lift or fold one of the two bed plates 112 at a time through the connection mode, and does not need to lift the whole bed plate 112 at a time, so that the thermal moxibustion device is convenient and quick to use.

Further, the bed plate 112 may be provided with a plurality of ventilation holes to allow hot air generated by burning the moxibustion materials to directly act on the human body, which is beneficial to improving the curative effect of the thermal moxibustion. Here, the ventilation holes may be provided in an arc, bar, circular, etc. structure, such as an arc-shaped through hole 1123 and a bar-shaped through hole 1124, which will be mentioned later. Preferably, at least part of the orthographic projection of the air holes along the height direction is overlapped with the moxibustion device 12 and/or the moxibustion device 13 respectively, so that the hot air generated by the moxibustion material can better act on the human body. For example, two groups of strip-shaped through holes 1124 are arranged on the bed board 112, and the orthographic projection of each group of strip-shaped through holes 1124 along the height direction is overlapped with one group of auxiliary moxibustion tools 122 respectively.

It should be noted that: since the thermal moxibustion is mainly performed by applying hot air generated by burning the moxibustion materials to the acupoints of the human body, the positions of the moxibustion tools 12 and 13 relative to the bed plate 112 and the specific distribution of the ventilation holes such as the arc-shaped through holes 1123 and the bar-shaped through holes 1124 on the bed plate 112 can be reasonably arranged according to the theory of traditional Chinese medicine, the human body structure, etc., and are not limited herein, so as to improve the thermal moxibustion effect of the thermal moxibustion device 10.

In some embodiments, referring to fig. 3 and 5, the thermal moxibustion device 10 may further include a first driving structure 141 disposed on the carrier 123, the first driving structure 141 driving the moxibustion tool 12 to approach or separate from the bed plate 112 in the height direction. Therefore, the thermal moxibustion device 10 can make the moxibustion tool 12 approach or separate from the bed board 112 according to different bearing capacities of the human body or different requirements of the thermal moxibustion process, so as to adjust the hot air force received by the human body, that is, avoid overheating or underheating, and further make the thermal moxibustion device 10 meet different requirements of different people. Further, the thermal moxibustion device 10 may further comprise a stand 124 connected to the first driving structure 141, and the stand 124 mainly facilitates placement of the moxibustion tool 12. Wherein the first driving structure 141 may be connected to a central region of the support 124 in the moxibustion apparatus 12 to increase the smoothness of driving. Of course, in other embodiments, the first driving structure 141 may be connected to one end of the bracket 124, i.e. form a cantilever structure, and the other end may be provided with a guiding structure to increase the driving stability. Wherein the bracket 124 may be coupled to the first driving structure 141 through the support 1415 when the cantilever structure is formed.

Referring to fig. 6, the stand 124 may include a frame 1241 and a lining 1242, where the frame 1241 has a certain height in the height direction, so as to provide a stroke space for the first driving structure 141 to drive the moxibustion apparatus 12 up or down, and the lining 1242 carries the moxibustion apparatus 12 and may move relative to the frame 1241 in the height direction. Of course, in other embodiments, the liner 1242 may not move relative to the frame 1241 in the height direction, i.e., the frame 1241 supports the liner 1242.

As an example, referring to fig. 6, the first driving structure 141 is connected to a central area of the support 124 (such as a lining board 1242) on the moxibustion tool 12, and may include a slider 1411, a screw 1412, a sliding rail 1413 and a motor 1414, where the sliding rail 1413 is connected to the moxibustion bed 11 (such as a frame 1241 connected to the bed frame 111), the slider 1411 is slidingly engaged with the sliding rail 1413, and is connected to the support 124 as an output end of the first driving structure 141, the screw 1412 is engaged with the slider 1411, and threads are provided on the screw 1412, so that the rotational motion of the motor 1414 can be converted into the linear motion of the slider 1411 and the moxibustion tool 12 connected to the slider 1411. An output shaft of the motor 1414 is connected to a lead screw 1412. In this manner, the first driving structure 141 may be utilized to achieve the approach or separation of the moxibustion device 12 from the bed plate 112 in the height direction, and since the moxibustion device 12 may be located on the support 124, the first driving structure 141 may also drive the support 124 to approach or separate from the bed plate in the height direction. In this embodiment, the first driving structure 141 may be a sliding screw lifting mechanism. Of course, in other embodiments, the first driving structure 141 may be a ball screw lifting mechanism or another lifting mechanism, which is not limited herein.

Similarly, with reference to fig. 2, the thermal moxibustion device 10 may further include a third driving structure 144 disposed on a side of the moxibustion tool 13 facing away from the bed plate 112, and the third driving structure 144 may be connected to a central region of the moxibustion tool 13 and drive the moxibustion tool 13 to approach or separate from the bed plate 112 in the height direction. The driving principle of the third driving structure 144 and its specific structure may be the same as or similar to that of the first driving structure 141, and will not be described herein.

In some embodiments, referring to fig. 3, the number of the moxibustion tools 12 is plural, and the plurality of moxibustion tools 12 are arranged at intervals along the length direction. For example, three moxibustion tools 12 are arranged at intervals along the length direction. The moxibustion device 12 includes a main moxibustion device 121 and a sub-moxibustion device 122, which are disposed on a support 124, the number of the sub-moxibustion devices 122 may be two, and the main moxibustion device 121 is located between the two sub-moxibustion devices 122 in the width direction. Therefore, in the use state, the hot gas generated by the combustion of the auxiliary moxibustion tools 122 positioned at the two sides of the main moxibustion tool 121 can supplement the hot gas of the middle main moxibustion tool 121, so that the heat received by the hot moxibustion part of the human body is more balanced and stable, and the hot moxibustion effect is obvious. In addition, referring to fig. 1 and 3, in general, the main moxibustion device 121 may correspond to a body of a human body in a use state, and the auxiliary moxibustion device 122 may correspond to an upper limb of the human body, so that important parts of the human body may be subjected to thermal moxibustion, and the thermal moxibustion effect is remarkable.

Further, referring to fig. 6, the thermal moxibustion device 10 further includes a second driving structure 143 disposed on the support 124 (e.g. the lining plate 1242), the second driving structure 143 drives the main moxibustion tool 121 to rotate relative to the moxibustion bed 11, the second driving structure 143 is fixed on the frame 1241 and supports the lining plate 1242 in the height direction, the output end of the second driving structure 143 is connected to the central region of the lining plate 1242, and the main moxibustion tool 121 is disposed on the lining plate 1242. Thus, the hot air received by the portion of the human body corresponding to the main moxibustion device 121 in the height direction is not too concentrated, so as to avoid burning sensation.

In some embodiments, referring to fig. 5, the second driving structure 143 includes a motor 1431, a driving wheel 1432, and a driven wheel 1433, the driven wheel 1433 is engaged with the driving wheel 1432, the driving wheel 1432 is connected to an output end of the motor 1431, and the driven wheel 1433 is connected to the main moxibustion apparatus 121. In the use state, the motor 1431 is powered to rotate to drive the driving wheel 1432 to rotate, the driving wheel 1432 drives the driven wheel 1433 to rotate, and the driven wheel 1433 is connected with the main moxibustion tool 121 to drive the main moxibustion tool 121 to rotate together, so that the main moxibustion tool 121 generates hot gas with spiral rising. Thus, the hot air received by the main moxibustion tool 121 is not burnt.

In other embodiments, referring to fig. 6, the second driving structure 143 includes a motor 1431, a driving wheel 1432, and a driven wheel 1433, the driven wheel 1433 is connected to the driving wheel 1432 through a belt (not shown), the driving wheel 1432 is connected to an output end of the motor 1431, and the driven wheel 1433 is connected to the main moxibustion apparatus 121. In the use state, the motor 1431 is powered to rotate to drive the driving wheel 1432 to rotate, the driving wheel 1432 drives the driven wheel 1433 to rotate through the belt, the driven wheel 1433 is connected with the main moxibustion tool 121 to drive the main moxibustion tool 121 to rotate together, and at the moment, the main moxibustion tool 121 generates hot gas with spiral ascending partially. In this way, similar or analogous effects can also be obtained.

The foregoing is only a part of the embodiments of the present application, and is not intended to limit the scope of the present application, and all equivalent devices or equivalent processes using the descriptions and the contents of the present application, or direct or indirect application in other related technical fields are included in the scope of patent protection of the present application.

Claims (10)

1. The utility model provides a hot moxibustion device which characterized in that, hot moxibustion device has length direction, width direction and the direction of height that are orthogonal to each other to including moxibustion bed and first moxibustion utensil, the moxibustion bed includes bedstead, bed board and carrier, the bed board is followed the direction of height sets up on the bedstead, and supplies the user to lie down or lie prone, the carrier carries first moxibustion utensil, and along length direction and/or the direction of width is relative to the bedstead motion.

2. The thermal moxibustion device according to claim 1, wherein two groups of first sliding structures are arranged on the bed frame, the carrier comprises a bottom plate, side plates and a panel, the side plates and the panel are connected with the bottom plate in a bending way, the first moxibustion tool is arranged on the bottom plate and is positioned between the two side plates which are oppositely arranged, two opposite sides of the two side plates are respectively provided with a second sliding structure matched with the first sliding structures, and the panel receives pushing force or pulling force applied by a user to the carrier; one of the first sliding structure and the second sliding structure is a guide rail, and the other one is a sliding block and/or a roller.

3. The thermal moxibustion apparatus according to claim 1, wherein the first moxibustion device corresponds to the upper body of a human body in a use state, and further comprising a first driving structure provided on the carrier, the first driving structure driving the first moxibustion device to approach or separate from the bed plate in the height direction.

4. A thermal moxibustion device according to claim 3, wherein said first moxibustion tool comprises a support connected to said first driving structure, and a main moxibustion tool and a sub-moxibustion tool provided on said support, said sub-moxibustion tools being provided in two sets, said main moxibustion tool being located between two sets of said sub-moxibustion tools in said width direction.

5. The thermal moxibustion apparatus of claim 4, further comprising a second drive structure disposed on said support, said second drive structure driving said main moxibustion tool to rotate relative to said moxibustion bed.

6. The thermal moxibustion apparatus according to claim 4, wherein two sets of strip-shaped through holes are provided on the bed plate, and the orthographic projection of each set of strip-shaped through holes along the height direction is overlapped with one set of auxiliary moxibustion tools respectively.

7. A thermal moxibustion apparatus according to claim 3 wherein said first moxibustion tools are plural in number and said first moxibustion tools are arranged at intervals along said longitudinal direction.

8. The thermal moxibustion apparatus according to claim 1, wherein a dimension of said moxibustion bed in said longitudinal direction is larger than a dimension of said moxibustion bed in said width direction, said carrier moves in said width direction relative to said frame, said thermal moxibustion apparatus further comprising a second moxibustion tool disposed adjacent to said first moxibustion tool in said longitudinal direction, said second moxibustion tool corresponding to a lower half of a human body in a use state.

9. The thermal moxibustion device according to claim 8, wherein said bed plate comprises a first bed plate covering said first moxibustion tool and a second bed plate covering said second moxibustion tool, said second bed plate being rotatable relative to said bed frame about an axis parallel to said width direction or said length direction.

10. The thermal moxibustion apparatus of claim 8, further comprising a third driving structure disposed on a side of the second moxibustion tool facing away from the bed plate, the third driving structure being connected to the second moxibustion tool and driving the second moxibustion tool to approach or separate from the bed plate in the height direction.