CN217566774U - Moxibustion device - Google Patents

Abstract

The application provides a moxibustion instrument. The moxibustion instrument comprises a main body, a moxibustion box, a base and a temperature regulation and control assembly. The moxibustion box is arranged on the main body. The base is detachably arranged on the main body. The temperature regulation and control subassembly includes control module, temperature sensor, two first switch on pieces and two second switch on pieces. The control module is arranged on the main body. The temperature sensor is arranged on the base, and the base is exposed out of the detection end of the temperature sensor. The two first conduction pieces are respectively arranged on the main body or the control module and are respectively electrically connected with the control module. The two second conduction pieces are respectively arranged on the base and are respectively electrically connected with the temperature sensor. The first conduction piece and the second conduction piece are contacted and electrically connected when the base is installed on the main body. When the moxibustion instrument carries out the moxa-moxibustion to the moxa-moxibustion object, temperature sensor can contact or be close the moxa-moxibustion object, and the sense terminal can detect the temperature of moxa-moxibustion object moxa-moxibustion department. When the temperature exceeds the temperature range set for moxibustion, the moxibustion is stopped or some measures are taken to adjust the temperature.

Description

Moxibustion device

Technical Field

The embodiment of the application relates to the field of moxibustion, in particular to a moxibustion instrument.

Background

Traditional moxa-moxibustion mode mainly controls the moxa-moxibustion temperature through user's subjective consciousness, and this requires highly to user's professional experience, and the operation is complicated, and manual control easily causes control improper, has the danger of scalding moxibustion object.

SUMMERY OF THE UTILITY MODEL

In view of this, this application provides a temperature controllable moxibustion instrument.

The application provides a moxibustion instrument. The moxibustion instrument comprises a main body, a moxibustion box, a base and a temperature regulation and control assembly. The moxibustion box is arranged on the main body. The base detachably sets up in the main part, and is located one side of moxa-moxibustion box. The temperature regulation and control subassembly includes control module, temperature sensor, two first lead to the piece and two second lead to the piece. The control module is arranged on the main body. Temperature sensor sets up in the base, and the base exposes temperature sensor's sense terminal, and the sense terminal can detect the temperature of moxa-moxibustion object and moxibustion instrument moxa-moxibustion department. The two first conduction pieces are respectively arranged on the main body or the control module and are respectively electrically connected with the control module. The two second conduction pieces are respectively arranged on the base and are respectively electrically connected with the temperature sensor. When the base is installed on the main body, the first conduction piece and the second conduction piece are contacted and electrically connected.

In the above moxibustion instrument, when the moxibustion instrument performs moxibustion on a moxibustion object, the temperature sensor can be close to or in contact with the moxibustion object, and the detection end can detect the temperature of the moxibustion part of the moxibustion object. When the temperature exceeds the set temperature range suitable for moxibustion, the moxibustion is stopped or some measures are taken to adjust the temperature when the use feels that the temperature is too high or too low.

Further, the first conduction part and the second conduction part are in contact or separated, the base is allowed to be detached from the main body, and when the base is installed on the main body, the temperature sensor of the temperature regulation and control assembly is electrically connected with the control module so as to normally work.

In a possible embodiment, one side of the base, which faces away from the moxibustion box, is provided with a heat conducting surface, and the temperature sensor is positioned in the center of the heat conducting surface.

Obviously, among the above-mentioned embodiment, the center of heat conduction face corresponds with the centre of moxa-moxibustion department of moxa-moxibustion object, and the heat of output when the moxa-moxibustion of moxa-moxibustion ware is more embodied to the temperature in the center of moxa-moxibustion department than other positions, and temperature sensor is located the center of heat conduction face, and the accuracy of measuring temperature is high to and it is fast to measure the temperature response.

In one possible embodiment, the base includes a mounting member and a first cover. The first cover body is fixed on the mounting piece. The mounting member is detachably mounted to the main body. The first cover body is provided with a first through mounting hole. The temperature sensor is fixed in the first mounting hole, and the first mounting hole exposes the detection end of the temperature sensor.

Obviously, in the above embodiment, the detection end of the temperature sensor can be contacted with or close to the moxibustion object, and the temperature corresponding to the moxibustion device acting on moxibustion can be accurately measured.

In one possible embodiment, the mounting part is provided with a second mounting hole which passes through. The second conduction piece is arranged in the second mounting hole. One side of the first cover body facing the main body is also provided with a groove. The temperature regulation assembly also includes two electrical connections. The two electric connecting pieces are positioned in the groove, and two ends of each electric connecting piece are respectively connected with the temperature sensor and the corresponding second conduction piece.

Obviously, in the above embodiment, the groove prevents the electrical connector from contacting the moxibustion box.

In a possible embodiment, the base further comprises a second cover. The second cover body is fixed on the mounting piece or the first cover body and is positioned on one side of the first cover body facing the main body. The second cover body is respectively contacted with the moxibustion box and the first cover body and conducts heat.

Obviously, in the above embodiment, the second cover body is in contact with the first cover body and conducts heat, so that the efficiency of heat conduction of the moxibustion box to the base is improved, the heat of the moxibustion box is uniformly conducted to all positions of the second cover body, the heat is uniformly dispersed, and the first cover body uniformly conducts the heat of the second cover body to the moxibustion object.

In a possible embodiment, the circumferential wall of the mounting is provided with a snap. The main body is provided with a first cavity. A clamping groove is formed in the wall of the first cavity, and the buckle is detachably buckled with the clamping groove.

Obviously, in the above embodiment, the buckle and the clamping groove are detachably connected in a buckling manner, so that the base is detachably connected with the main body.

In one possible embodiment, the first conductive member includes a connecting portion and a contacting portion, the connecting portion is disposed on the main body or the control module, and the contacting portion contacts the second conductive member. Or the second conduction piece comprises a connecting part and a contact part, the connecting part is arranged on the base, and the contact part is in contact with the first conduction piece.

Obviously, in the above embodiment, the connection portion and the contact portion can electrically connect the temperature sensor and the control module.

In one possible embodiment, the contact part can be moved elastically relative to the connection part.

Obviously, in the above embodiment, the contact portion moves elastically relative to the connecting portion, so that the contact portion and the second conductive member are kept in stable contact.

In one possible embodiment, the connection portion or the contact portion is elastically deformed when the contact portion is in contact with the second conductive member.

Obviously, in the above embodiment, when the contact portion is in contact with the second conductive member, the connection portion or the contact portion is elastically deformed, so that the contact portion is stably in contact with the second conductive member.

In one possible embodiment, the moxibustion box is used for containing moxibustion fuel for moxibustion and can ignite the moxibustion fuel. The moxibustion instrument also comprises a lifting piece. The moxa-moxibustion box passes through the movably connection in main part of lifter. The lifting piece is electrically connected with the control module. When the temperature detected by the temperature sensor reaches a set value, the control module controls the lifting piece to drive the moxibustion box to move.

Obviously, among the above-mentioned embodiment, the lift piece can realize adjusting the interval of moxa-moxibustion box and base, and then adjusts the temperature that the moxa-moxibustion ware acted on moxibustion object.

In one possible embodiment, the moxibustion box is used for containing moxibustion fuel for moxibustion and can ignite the moxibustion fuel. The main part is provided with first cavity, and the moxa-moxibustion box sets up in the first cavity, and the moxa-moxibustion box is provided with the second cavity, and moxa-moxibustion fuel is located the second cavity. Moxa-moxibustion box includes relative roof and diapire, and the diapire is close to the base than the roof, and the roof is provided with first through-hole, and the diapire is provided with a plurality of second through-holes, is provided with the through-hole structure on the base, and the through-hole structure is relative and the intercommunication with a plurality of second through-holes when pedestal mounting is in the main part. The moxibustion device further comprises a fan, the fan is arranged on the top wall and located at the first through hole, the fan is electrically connected with the control module, and the control module controls the fan to adjust the amount of air guided to sequentially pass through the through hole structure and the second through hole and enter the second cavity.

Obviously, in the above embodiment, the fan adjusts the amount of air entering the second cavity, and then adjusts the temperature generated by burning the moxibustion fuel, thereby realizing the adjustment of the temperature of the moxibustion device acting on the moxibustion object.

In one possible embodiment, a heating element is disposed within the moxibustion box. The heating element is electrically connected with the control module. The heating element is electrified to generate heat and heat moxibustion fuel, and the control module controls the heating element to adjust the generated heat.

Obviously, in the above embodiment, the heating element adjusts the generated heat, thereby adjusting the temperature of the moxibustion device acting on the moxibustion object.

Drawings

Fig. 1 is an exploded schematic view of a moxibustion instrument according to an embodiment of the present disclosure.

Figure 2 is an exploded view of the moxibustion device shown in figure 1 from another perspective.

Figure 3 is an exploded view of the base of the moxibustion device shown in figure 1.

Figure 4 is an exploded view of the moxibustion device shown in figure 1 in another embodiment.

Fig. 5 is a schematic view of the moxibustion device shown in fig. 1 when the control module, the first conduction part and the second conduction part are electrically connected.

FIG. 6 is a schematic view of the moxibustion device shown in FIG. 5 with the control module, the first conducting member and the second conducting member electrically connected in another embodiment.

Description of the main elements

Moxibustion device: 100; a main body: 10; a first cavity: 101, a first electrode and a second electrode; a clamping groove: 103; moxibustion box: 20; a second cavity: 201; roof: 21; a first via hole: 211; bottom wall: 23; a second through hole: 231; the bearing part: 2001; a combustion chamber: 2003; base: 30; heat-conducting surface: 3001; mounting: 31; a second mounting hole: 311; buckling: 313; a first cover body: 32, a first step of removing the first layer; first mounting hole: 321; groove: 322, respectively; a third through hole: 323; a second cover body: 33; avoiding the groove: 331; a fourth through hole: 333; a temperature regulation and control component: 40; a control module: 41; a temperature sensor: 42; detection end: 421; the first conducting piece: 43 43a; a connecting part: 431 431a; a contact part: 433 433a; the second conducting piece: 44; electric connector: 45, a first step of; a lifting piece: 50; a fan: 60, adding a solvent to the mixture; a heating element: 70.

Detailed Description

To further explain the technical means and effects of the present application for achieving the intended application, it is apparent that the embodiments described below are only a part of the embodiments of the present application, rather than all embodiments, in combination with the accompanying drawings and the embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. The terminology used herein in the description of the present application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application.

Some embodiments of the present application will be described in detail below with reference to the accompanying drawings. The embodiments described below and the features of the embodiments can be combined with each other without conflict.

Referring to fig. 1 to 3, an embodiment of the present disclosure provides a moxibustion instrument 100. The moxibustion instrument 100 includes a main body 10, a moxibustion box 20, a base 30, and a temperature regulating member 40. The moxibustion box 20 is provided inside the main body 10, and the base 30 is detachably provided to the main body 10. The base 30 is located at one side of the moxibustion box 20. The moxibustion box 20 is used to house and fix moxibustion fuel (not shown). The moxibustion fuel includes but is not limited to any one of moxa, moxa stick, moxa column, moxa grain and moxa cake.

In one embodiment, an ignition mechanism (not shown) for igniting the moxibustion fuel is provided in the moxibustion box 20, and the moxibustion fuel burns to emit heat and mugwort leaf smell, and is discharged from the moxibustion box 20 to moxibustion the moxibustion target.

The temperature regulating assembly 40 includes a control module 41 (shown in fig. 5), a temperature sensor 42, two first conduction pieces 43 and two second conduction pieces 44. The control module 41 is provided to the main body 10. The control module 41 is a circuit board structure. The temperature sensor 42 is provided on the base 30. The base 30 exposes the detection end 421 of the temperature sensor 42, so that the detection end 421 can detect the skin temperature of the moxibustion object located on the side of the base 30.

The two first conduction pieces 43 are disposed on the main body 10 and electrically connected to the control module 41 respectively. The two second conduction pieces 44 are disposed on the base 30 and electrically connected to the temperature sensor 42 respectively. When the base 30 is mounted on the main body 10, each of the first conductive pieces 43 contacts and is electrically connected with the corresponding second conductive piece 44.

When the moxibustion device 100 performs moxibustion on a moxibustion object, the base 30 may be close to or in contact with the moxibustion object to transfer heat to the moxibustion object. The detection end 421 of the temperature sensor 42 can contact or approach the moxibustion object to moxibustion the temperature of the moxibustion part of the moxibustion object. When the temperature exceeds the set temperature range suitable for moxibustion, the moxibustion is stopped or some measures are taken to adjust the temperature when the use feels that the temperature is too high or too low.

The base 30 exposes the detecting end 421 of the temperature sensor 42, so that the detecting end 421 of the temperature sensor 42 can approach or contact with a moxibustion object, and the temperature of the moxibustion device 100 acting on the moxibustion object can be accurately measured.

A heat conducting surface 3001 is provided on a side of the base 30 away from the moxibustion box 20. The heat conduction surface 3001 may be in contact with or close to a moxibustion object. The temperature sensor 42 is located at the center of the heat conduction surface 3001. The center of the heat conduction surface 3001 corresponds to the center of the moxibustion part of the moxibustion object, the temperature of the center of the moxibustion part can reflect the heat output by the moxibustion device 100 when moxibustion than other positions, the temperature sensor 42 is located at the center of the heat conduction surface 3001, the accuracy of temperature measurement is high, and the response of temperature measurement is fast.

The center of the heat-conducting surface 3001 is located on the central axis of the base 30, but is not limited thereto. In other embodiments, the center of the heat-conducting surface 3001 may not be on the central axis of the base 30. For example, in another embodiment, the projection of the base 30 on the heat conduction surface 3001 may be a rectangle, and the heat conduction surface 3001 may be a circle, and the center of the circle is not coincident with the center of the rectangle.

In one embodiment, the distance between the moxibustion box 20 and the base 30 is adjusted to change the temperature of moxibustion applied to a moxibustion object. Moxibustion instrument 100 also includes a lifting member 50. The moxibustion box 20 is movably connected to the main body 10 by the elevating member 50. The lifting member 50 is electrically connected to the control module 41. When the temperature detected by the temperature sensor 42 exceeds the set temperature range, the control module 41 controls the lifting member 50 to drive the moxibustion box 20 to move, so as to change the distance between the moxibustion box 20 and the base 30, and change the temperature of the heat in the moxibustion box 20 transferred to the moxibustion object. For example, when the temperature detected by the sensor 42 is higher than a set value, the control module 41 controls the lifting member 50 to move the moxibustion box 20 away from the base 30, so that the efficiency of heat transfer from the moxibustion box 20 to the base 30 is reduced, and the temperature of the base 30 is reduced, and the heat transfer from the base 30 to the moxibustion object is reduced. For another example, when the temperature detected by the sensor 42 is lower than a set value, the control module 41 controls the lifting member 50 to move the moxibustion box 20 toward the base 30, so as to increase the heat transferred to the base 30, and thus increase the heat transferred from the base 30 to the moxibustion object.

The lifting member 50 may be a rack and pinion transmission structure, a belt transmission structure, or an electric cylinder, an air cylinder, etc. to realize a transmission structure for driving the moxibustion box 20 to move relative to the main body 10.

The main body 10 is provided with a first chamber 101, and the moxibustion box 20 is disposed in the first chamber 101. The moxibustion box 20 is provided with a second chamber 201, and moxibustion fuel is located in the second chamber 201. The moxibustion box 20 includes opposite top and bottom walls 21 and 23. The bottom wall 23 is closer to the base 30 than the top wall 21. The top wall 21 is provided with a first through hole 211 and the bottom wall 23 is provided with a plurality of second through holes 231. The base 30 is provided with a through-hole structure which is opposite to and communicates with the plurality of second through-holes 231 when the base 30 is mounted on the main body 10.

The moxibustion cartridge 20 includes a carrier 2001 and a combustion chamber 2003. The carrier 2001 is provided to the main body 10. The combustion chamber 2003 is detachably provided to the carrier 2001. The combustion chamber 2003 and the carrier 2001 enclose a second cavity 201. The top wall 21 of the moxibustion box 20 is disposed on a side of the carrier 2001 facing away from the combustion chamber 2003. The bottom wall 23 of the moxibustion box 20 is disposed on the side of the combustion chamber 2003 facing away from the carrier 2001. When the combustion chamber 2001 is detached from the carrier 2001, the moxibustion fuel in the second chamber 201 can be replaced.

It is understood that in other embodiments, the moxibustion box 20 may be removably disposed on the main body 10, wherein the top wall 21 or the bottom wall 23 includes an open state and a closed state, and the moxibustion fuel in the second chamber 201 of the moxibustion box 20 can be replaced when the top wall 21 or the bottom wall 23 is in the open state.

Moxibustion instrument 100 also includes fan 60. The fan 60 is disposed on the top wall 21 of the moxibustion box 20 and located at the first through hole 211. The fan 60 is electrically connected to the control module 41. The control module 41 controls the fan 60 to work so as to guide air to enter the second cavity 201 through the through hole structure and the second through hole 231 in sequence, so that moxibustion fuel in the second cavity 201 is combusted; and guides the smoke in the second cavity 201 to be discharged out of the moxibustion instrument 100 through the first through hole 211.

It is understood that in other embodiments, the lifter 50 may be omitted. The moxibustion box 20 may not be relatively moved with respect to the main body 10. When the temperature detected by the temperature sensor 42 is out of the set temperature range, the control module 41 controls the fan 60 to adjust the rotation speed to change the amount of the air introduced into the second chamber 201, thereby changing the heat generated by the combustion of the moxibustion fuel to realize the temperature of the heat in the moxibustion box 20 transferred to the moxibustion object. For example, when the temperature detected by the sensor 42 is higher than a set value, the control module 41 controls the fan 60 to decelerate to reduce the amount of air entering the second chamber 201, so that the amount of heat generated by the combustion of the moxibustion fuel in the second chamber 201 is reduced, and the amount of heat transferred from the base 30 to the moxibustion object is reduced. For another example, when the temperature detected by the sensor 42 is lower than a set value, the control module 41 controls the fan 60 to accelerate to increase the amount of air entering the second cavity 201, so that the heat generated by the moxibustion fuel in the second cavity 201 is increased, thereby increasing the heat transferred from the base 30 to the moxibustion object.

It is understood that in other embodiments, the ignition mechanism for igniting the moxibustion fuel may be omitted from the moxibustion box 20. The moxibustion instrument 100 can also generate heat by energization to perform moxibustion on a moxibustion subject. For example, referring to fig. 4, a heating element 70 is disposed in the moxibustion box 20, and the heating element 70 is electrically connected to the control module 41. The heating element 70 is energized to generate heat and heat the moxibustion fuel, so that the moxibustion fuel can generate folium Artemisiae Argyi taste.

When the temperature detected by the temperature sensor 42 is out of the set temperature range, the control module 41 controls the heating element 70 to adjust the amount of heat generated, so as to realize the temperature of the heat in the moxibustion box 20 to be transferred to the moxibustion object.

The heating element 70 may be a resistance wire, a heating sheet, or the like.

The first and second conduction parts 43 and 44 are contacted or separated, allowing the base 30 to be detachable from the main body 10, and when the base 30 is mounted to the main body 10, the temperature sensor 42 of the temperature regulation assembly 40 is electrically connected to the control module 41 to be able to normally operate.

With continued reference to fig. 3, the base 30 includes a mounting member 31 and a first cover 32. The first lid 32 is fixed to the attachment 31. The mounting member 31 is detachably mounted to the main body 10. The first lid 32 is provided with a first mounting hole 321 that penetrates therethrough. The temperature sensor 42 is disposed in the first mounting hole 321. The first mounting hole 321 exposes the detection end 421 of the temperature sensor 42. The mounting member 31 is provided with a second mounting hole 311 therethrough. The second conductive member 44 is disposed in the second mounting hole 311.

The detection end 421 of the base 30 exposed from the temperature sensor 42 includes: the detection end 421 of the temperature sensor 42 passes through the first installation hole 321 and protrudes out of the base 30, or the detection end 421 is coplanar with a side of the base 30 departing from the moxibustion box 20, or the detection end 421 is located in the first installation hole 321.

The first cover 32 is further provided with a groove 322 on a side facing the main body 10. The temperature regulation assembly 40 also includes two electrical connections 45. Two electrical connectors 45 are positioned in the groove 322, and two ends of each electrical connector 45 are respectively connected with the temperature sensor 42 and the corresponding second conduction piece 44, so that the temperature sensor 42 is electrically conducted with the second conduction piece 44 when being electrified, and the temperature sensor 42 is electrically conducted with the control module 41 when being electrified through the contact of the second conduction piece 44 and the first conduction piece 43.

Referring to fig. 5, the first conductive element 43 includes a connection portion 431 and a contact portion 433. The connection portion 431 is welded to the control module 41 to be electrically connected to the control module 41, but is not limited thereto. The contact portion 433 is disposed on the connection portion 431 and contacts the second conductive member 44. The second conductive element 44 is a cylinder, but not limited thereto.

The contact portion 433 is provided on the connection portion 431 and is elastically movable with respect to the connection portion 431. The elastic moving finger is capable of moving the contact portion 433 relative to the connection portion 431, and the contact portion 433 is connected to the connection portion 431 through an elastic structure (e.g., a spring or a spring plate, not shown) that drives the contact portion 433 to move relative to the connection portion 431. For example, the first conduction member 43 is a pogo pin (pogo pin).

The contact portion 433 elastically moves with respect to the connection portion 431, and contacts the second conductive member 44 when the base 30 is mounted on the body 10, and the contact portion 433 is kept in contact with the second conductive member 44 by an elastic force, thereby improving reliability of electrical connection.

It is understood that in other embodiments, the first conductive member 43 includes a connection portion 431 and a contact portion 433, and the second conductive member 44 includes a connection portion and a contact portion (not shown). The contact portion of the second conductive member 44 is disposed on the connection portion, and when the base 30 is mounted on the main body 10, the contact portion of the second conductive member 44 contacts the contact portion 431 of the first conductive member 43, so that the first conductive member 43 and the second conductive member 44 are reliably contacted.

It is understood that in other embodiments, the first conductive element 43 may be a conductive pillar structure, and the second conductive element 44 includes a connection portion and a contact portion (not shown). The contact portion moves elastically relative to the connection portion, and when the base 30 is mounted on the main body 10, the contact portion of the second conductive member 44 contacts the first conductive member 43, so that the first conductive member 43 contacts the second conductive member 44 reliably.

It is understood that, in other embodiments, at least one of the contact portion 433 or the connection portion 431 may also be an elastic member, which can be elastically deformed when the contact portion 433 or the connection portion 431 is stressed. For example, referring to fig. 6, the contact portion 433a of the first conductive piece 43a is disposed at one side of the main body 10. The contact portion 433a is an elastic member and is elastically deformable. When the second conduction piece 44 contacts with the first conduction piece 43a, the contact portion 433a deforms elastically, and the contact portion 433a presses against the second conduction piece 44 elastically, so that the first conduction piece 43a and the second conduction piece 44 are in stable contact connection. When the contact portion 433a is separated from the second conductive member 44, the contact portion 433a is restored to its original shape.

It is understood that in other embodiments, one end of the connection portion 431 is disposed on the main body 10, and the other end is a free end. The contact portion 433 is disposed at a free end of the connection portion 431, the connection portion 431 is an elastic member, and when the contact portion 433 contacts the second conductive member 44, the connection portion 431 is elastically deformed, so that the free end drives the contact portion 433 to move, and the first conductive member 43 and the second conductive member 44 are stably connected in a contact manner. When the contact portion 433 is separated from the second conductive member 44, the connection portion 431 is restored to its original shape.

It is understood that in other embodiments, the connection portion 431 may be fixed on the main body 10 and electrically connected to the control module 41 through an electrical connection structure such as a wire.

Referring to fig. 1 and fig. 3, the base 30 further includes a second cover 33. The second cover 33 is fixed to the first cover 32. It is understood that in other embodiments, the second cover 33 can be fixed to the mounting member 31. The second cover 33 is located on a side of the first cover 32 facing the main body 10. The second cover 33 is in contact with and conducts heat to the bottom wall 23 and the first cover 32 of the moxibustion box 20, respectively. The heat in the second chamber 201 of the moxibustion box 20 is conducted to the moxibustion object through the bottom wall 23, the second cover 33 and the first cover 32 in this order.

The second cover 33 is provided with an escape groove 331. The two second conductive members 44 are exposed from the escape groove 331 so as to be able to contact the first conductive member 43 on the main body 10.

The moxibustion box 20 is in contact with the second cover 33 to conduct heat, and the efficiency of heat conduction from the moxibustion box 20 to the base 30 is improved. The area of the second cover 33 toward the moxibustion box 20 is larger than the area of the bottom wall 23 of the moxibustion box 20, so that the heating area is increased, the heat of the moxibustion box 20 is uniformly conducted to all positions of the second cover 33, the heat is uniformly dispersed, and the first cover 32 uniformly conducts the heat of the second cover 33 to a moxibustion object. The heat of the second cover body 33 is prevented from being conducted to the first cover body 32 too fast and too high locally, and the moxibustion object is prevented from experiencing too high local temperature and reducing the use experience.

The thermal conductivity of the first cover 32 can be set to be smaller than that of the second cover 33, so that the moxibustion object is prevented from being damaged due to too high temperature when contacting the moxibustion device 100, and the safety of the moxibustion device 100 is improved.

It is understood that in other embodiments, the second cover 33 may be omitted. The bottom wall 23 of the moxibustion box 20 can directly contact the first cover 32 and conduct heat.

It is understood that in other embodiments, the moxibustion box 20 may not contact the base 30.

The second cover 33 is disposed between the moxibustion box 20 and the recess 322 of the first cover 32, so as to prevent the electric connector 45 in the recess 322 from interfering with the moxibustion box 20 when the moxibustion box 20 moves. In other embodiments, when the second cover 33 is omitted, the electrical connector 45 is prevented from contacting the moxibustion box 20 by setting the length of the electrical connector 45 such that the electrical connector 45 is positioned in the groove 322 and does not move out of the groove 322.

The via structure includes a plurality of third vias 323 and a plurality of fourth vias 333. The plurality of third through holes 323 are disposed in the first cover 32. The plurality of fourth through holes 333 are disposed in the second cover 33. When the second cover 33 is fixed to the first cover 32, at least one of the third through holes 323 and at least a part of one of the fourth through holes 333 are opposite to and communicate with each other. When the base 30 is mounted to the main body 10, the at least one fourth through hole 333 of the second cover 33 is opposite to and communicates with at least a portion of the one second through hole 231 of the bottom wall 23. The second cavity 201 is communicated with the outside of the moxibustion instrument 100, so that the outside air can enter the second cavity 201, and the smell of the mugwort leaves in the second cavity 201 can be transmitted to the outside.

The mounting member 31 may be detachably coupled to the main body 10 in various ways. For example, as shown in fig. 2, the peripheral wall of the mount 31 is provided with a catch 313. A clamping groove 103 is arranged on the wall of the first cavity 101. The buckle 313 is detachably connected with the clamping groove 103 in a buckling manner. Specifically, the base 30 extends into a portion of the first cavity 101, so that the buckle 313 enters from one end of the slot 103, and the base 30 is rotated to slide the buckle 313 along the slot 103, so as to be fastened to the other end of the slot 103.

It is understood that the base 30 can be connected to the main body 10 by other methods, for example, the base 30 and the main body 10 are respectively provided with a protruding pillar (not shown), and the two protruding pillars are detachably locked by a connection rope.

In the above moxibustion device 100, when the moxibustion device 100 performs moxibustion on a moxibustion object, the temperature sensor 42 can contact or approach the moxibustion object, and the detection terminal 421 can detect the temperature of the moxibustion part of the moxibustion object. When the temperature exceeds the set temperature range suitable for moxibustion, the moxibustion is stopped or some measures are taken to adjust the temperature when the use feels that the temperature is too high or too low.

Further, the first and second conduction parts 43 and 44 are contacted or separated to allow the base 30 to be detachable from the main body 10, and when the base 30 is mounted to the main body 10, the temperature sensor 42 of the temperature regulating assembly 40 is electrically connected to the control module 41 to enable a normal operation.

Although the present application has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof without departing from the spirit and scope of the present application.

Claims (12)

1. A moxibustion instrument comprises a main body, a moxibustion box and a base, wherein the moxibustion box is arranged on the main body; the moxibustion box is characterized in that the base is detachably arranged on the main body and is positioned on one side of the moxibustion box; the moxibustion instrument further comprises a temperature regulation and control assembly, wherein the temperature regulation and control assembly comprises:

a control module disposed at the main body;

the temperature sensor is arranged on the base, the base is exposed out of a detection end of the temperature sensor, and the detection end is used for detecting the temperature of moxibustion of a moxibustion object;

the two first conduction pieces are respectively arranged on the main body or the control module and are respectively and electrically connected with the control module;

the two second conduction pieces are respectively arranged on the base and are respectively and electrically connected with the temperature sensor;

when the base is installed on the main body, the first conduction piece and the second conduction piece are in contact and are electrically connected.

2. The moxibustion instrument of claim 1, wherein: one side of the base, which deviates from the moxibustion box, is provided with a heat conducting surface, and the temperature sensor is positioned in the center of the heat conducting surface.

3. The moxibustion instrument of claim 1, wherein: the base comprises a mounting piece and a first cover body, the first cover body is fixed on the mounting piece, and the mounting piece is detachably mounted on the main body;

the first cover body is provided with a through first mounting hole, the temperature sensor is fixed in the first mounting hole, and the first mounting hole exposes out of the detection end of the temperature sensor.

4. The moxibustion instrument of claim 3, wherein: the mounting piece is provided with a through second mounting hole, and the second conduction piece is arranged in the second mounting hole;

a groove is further formed in one side, facing the main body, of the first cover body, and the temperature regulation and control assembly further comprises two electric connection pieces; the two electric connecting pieces are positioned in the groove, and two ends of each electric connecting piece are respectively connected with the temperature sensor and the corresponding second conduction piece.

5. The moxibustion instrument of claim 3, wherein: the base further comprises a second cover body, the second cover body is fixed to the mounting piece or the first cover body and is positioned on one side, facing the main body, of the first cover body; the second cover body is respectively contacted with the moxibustion box and the first cover body and conducts heat.

6. The moxibustion instrument of claim 4, wherein: the peripheral wall of the mounting piece is provided with a buckle, the main body is provided with a first cavity, a clamping groove is formed in the cavity wall of the first cavity, and the buckle is detachably connected with the clamping groove in a buckling mode.

7. The moxibustion instrument of claim 1, wherein:

the first conduction piece comprises a connecting part and a contact part, the connecting part is arranged on the main body or the control module, and the contact part is in contact with the second conduction piece; or

The second switches on a piece and includes connecting portion and contact site, connecting portion set up in the base, the contact site with first piece contact that switches on.

8. The moxibustion instrument of claim 7, wherein: the contact portion is elastically movable relative to the connection portion.

9. The moxibustion instrument of claim 7, wherein: when the contact portion contacts the second conductive member, the connection portion or the contact portion is elastically deformed.

10. The moxibustion instrument of claim 1, wherein: the moxibustion box is used for containing moxibustion fuel for moxibustion and igniting the moxibustion fuel;

the moxibustion instrument further comprises a lifting piece, the moxibustion box is movably connected to the main body through the lifting piece, the lifting piece is electrically connected with the control module, and when the temperature detected by the temperature sensor reaches a set value, the control module controls the lifting piece to drive the moxibustion box to move.

11. The moxibustion instrument of claim 1, wherein: the moxibustion box is used for containing and fixing moxibustion fuel for moxibustion and igniting the moxibustion fuel;

the main body is provided with a first cavity, the moxibustion box is arranged in the first cavity, the moxibustion box is provided with a second cavity, and the moxibustion fuel is positioned in the second cavity;

the moxibustion box comprises a top wall and a bottom wall which are opposite, the bottom wall is close to the base compared with the top wall, the top wall is provided with a first through hole, the bottom wall is provided with a plurality of second through holes, the base is provided with a through hole structure, and the through hole structure is opposite to and communicated with the second through holes when the base is installed on the main body;

the moxibustion device further comprises a fan, the fan is arranged on the top wall and located at the first through hole, the fan is electrically connected with the control module, and the control module controls the fan to regulate and guide the amount of air which sequentially passes through the through hole structure and the second through hole and enters the second cavity.

12. The moxibustion instrument of claim 1, wherein: set up heating element in the moxa-moxibustion box, heating element with control module electricity is connected, the moxa-moxibustion box is used for holding moxa-moxibustion fuel, heating element circular telegram produces the heat and heats moxa-moxibustion fuel, control module control heating element adjusts the heat size of production.

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