阅读说明：本技术 打灰工具头及理疗仪 (Make grey instrument head and physiotherapy equipment ) 是由 谈迎峰 刘成 张磊 王学真 于 2021-07-08 设计创作，主要内容包括：本发明公开了一种打灰工具头及理疗仪,打灰工具头用于燃烧理疗物料,打灰工具头包括工具头本体和承托网,工具头本体设置有用于容纳理疗物料的通道,通道贯通工具头本体的下端,承托网活动连接在通道中,承托网用于承托通道中的理疗物料,承托网可带动理疗物料在通道中上下抖动。本发明的该些实施例能够解决烟灰脱离理疗物料的技术问题。承托网既用为在燃烧的理疗物料的承托结构,又用为驱动烟灰脱离理疗物料的结构,还用为驱动大块烟灰颤碎的结构；使打灰工具头具有一定的脱灰能力；反复地向上顶推承托网,使烟灰脱离理疗物料、使承托网上的大块烟灰颤碎掉落。(The invention discloses an ash beating tool head and a physiotherapy instrument, wherein the ash beating tool head is used for burning physiotherapy materials, and comprises a tool head body and a bearing net, the tool head body is provided with a channel for containing the physiotherapy materials, the channel penetrates through the lower end of the tool head body, the bearing net is movably connected in the channel, the bearing net is used for bearing the physiotherapy materials in the channel, and the bearing net can drive the physiotherapy materials to shake up and down in the channel. The embodiments of the invention can solve the technical problem that the cigarette ash is separated from the physiotherapy material. The supporting net is used for supporting the physical therapy materials in combustion, driving the cigarette ash to be separated from the physical therapy materials and driving a large cigarette ash to shake and break; the ash beating tool head has certain ash removing capacity; repeatedly and upwards pushes the bearing net to separate the cigarette ash from physical therapy materials and shake large cigarette ash on the bearing net to break and fall.)

1. A dusting tool head for burning physiotherapy materials, comprising:

the tool head body is provided with a channel for containing the physiotherapy material, and the channel penetrates through the lower end of the tool head body;

the bearing net is movably connected in the channel and used for bearing the physical therapy materials in the channel, and the bearing net can drive the physical therapy materials to vertically shake in the channel.

2. The dusting tool head of claim 1 wherein the support net comprises a first net and a second net supported on the first net, wherein a middle portion of the second net is spaced apart from the first net, and wherein a mesh of the second net is larger than a mesh of the first net, and wherein the second net is configured to support the treatment material.

3. The tool head as claimed in claim 1 or 2, wherein the tool head body comprises a first section and a second section detachably connected to a lower end of the first section, the passage comprises a first section arranged in the first section and a second section arranged in the second section, the second section penetrates through upper and lower ends of the second section, and the support net is movably connected in the second section.

4. The ash striking tool head according to claim 3, wherein the tool head body further comprises a combustion chamber, the combustion chamber comprises an outer barrel detachably connected to the first section and an inner barrel accommodated in the outer barrel, the inner barrel is provided with a first concave portion with a downward opening, the first concave portion and the second section are used for accommodating the physiotherapy material, a smoke cavity is defined between an outer wall of the inner barrel and an inner wall of the outer barrel, a smoke inlet is arranged at the lower end of the combustion chamber and is communicated with the smoke cavity, a smoke outlet communicated with the smoke cavity is arranged on the peripheral wall of the outer barrel, and the smoke outlet is used for being communicated with a negative pressure smoking device.

5. The dusting tool head of claim 4, wherein the inner cylinder has a connecting piece protruding from a lower end thereof, and the outer cylinder has a first protrusion formed on an outer circumferential wall thereof, and the connecting piece hooks the first protrusion.

6. A physiotherapy apparatus, comprising:

the dusting tool head of any one of claims 1 to 5;

a chassis;

the ash receiving cylinder and the pushing device are connected to the case, the pushing device is arranged below the ash receiving cylinder, and the pushing device is used for penetrating through the ash receiving cylinder to push the bearing net or used for pushing the bearing net through the ash receiving cylinder.

7. The physiotherapy instrument of claim 6, wherein the case is provided with a mounting seat, the mounting seat is provided with a second concave portion with an upward opening, the ash receiving cylinder is supported at an inner bottom of the second concave portion, the thrusting device comprises a pushing rod and a thrusting power structure, the pushing rod penetrates through the ash receiving cylinder, the thrusting power structure is connected with a lower end of the mounting seat, and an output shaft of the thrusting power structure penetrates through the mounting seat to push the pushing rod.

8. The physiotherapy apparatus of claim 7, wherein the inner bottom of the second recess is provided with a rebound device, the output shaft of the rebound device is provided with a magnetic attraction device, and the magnetic attraction device is used for magnetically attracting the ash receiving barrel.

9. The physiotherapy equipment of claim 6, further comprising a positioning device, wherein the ash beating tool head is connected to one end of the positioning device, the other end of the positioning device is connected to the case, and the positioning device is used for driving the ash beating tool head to enable the ash beating tool head to be close to the port of the ash receiving barrel.

10. The physiotherapy instrument of claim 6 or 7, further comprising a protective cover capable of stretching and deforming, wherein the pushing device comprises a pushing rod and a pushing power structure for driving the pushing rod to ascend and descend, the pushing rod penetrates through the ash receiving barrel, the lower end of the protective cover is hermetically connected with the bottom of the ash receiving barrel, the upper end of the protective cover is hermetically connected with the peripheral wall of the pushing rod, the upper end of the protective cover ascends and descends along with the pushing rod, and a connecting gap between the pushing rod and the ash receiving barrel is covered by the protective cover.

Technical Field

The invention relates to the field of drug combustion physiotherapy, in particular to a dusting tool head and a physiotherapy instrument.

Background

The moxibustion is a traditional Chinese medicine method for carrying out physical therapy by using the burning heat of the moxa, and the burning heat of the moxa stimulates the activities of meridians and collaterals, so that the disordered physiological and biochemical functions of a human body are adjusted, and the moxibustion has better effects on health preservation and clinical treatment. The common moxibustion is divided into two types, one is to hold the moxa roll directly by hand, and the other is to put the moxa roll into a tool head.

Moxa sticks and other materials are combusted in the tool head, and the generated combustion heat is emitted from the lower port of the tool head. The material burns in the tool head, and certain cigarette ash is accumulated gradually, and cigarette ash accumulation is great and reduces the divergence of combustion heat, reduces the physiotherapy effect. Because the material is in a burning heating state and is hidden in the tool head, the ash on the material is difficult to clean.

Therefore, in order to ensure the physiotherapy effect, the ash beating tool head with certain ash removing capacity is necessary.

Disclosure of Invention

The present invention is directed to solving at least one of the problems of the prior art. Therefore, the ash beating tool head provided by the invention can be provided with a bearing net to drive physical therapy materials to shake up and down, so that ash can be separated from the physical therapy materials, and the ash can directly pass through the bearing net or can be shaken and smashed to be separated from the bearing net.

According to the ash beating tool head disclosed by the embodiment of the first aspect of the invention, the ash beating tool head is used for burning physiotherapy materials, and comprises a tool head body and a bearing net, wherein the tool head body is provided with a channel for containing the physiotherapy materials, the channel penetrates through the lower end of the tool head body, the bearing net is movably connected in the channel and used for bearing the physiotherapy materials in the channel, and the bearing net can drive the physiotherapy materials to shake up and down in the channel. The embodiments of the invention can solve the technical problem that the cigarette ash is separated from the physiotherapy material.

According to the first aspect of the invention, the tool head for plastering at least has the following beneficial effects: the supporting net is a multifunctional supporting net in essence, is movably arranged, and is used as a supporting structure for physical therapy materials in combustion, a structure for driving the cigarette ash to be separated from the physical therapy materials and a structure for driving the large cigarette ash to shake and break; the ash beating tool head has certain ash removing capacity; the ash beating tool head can perform manual shaking ash removal, namely the ash beating tool head is combined into a simple portable physiotherapy instrument, a user enables the ash beating tool head to be close to an ash receiving barrel and can repeatedly push the supporting net upwards through an external tool, ash is separated from physiotherapy materials, and large ash blocks on the supporting net are shaken, broken and dropped; the ash beating tool head can also be combined with a pushing device, namely the combination is determined as a mechanical automatic ash beating physiotherapy instrument, the pushing device repeatedly pushes the bearing net upwards, so that the ash is separated from physiotherapy materials, and large ash blocks on the bearing net are shaken, broken and dropped.

According to some embodiments of the invention, the support net comprises a first net sheet and a second net sheet supported on the first net sheet, wherein a space is provided between a middle part of the second net sheet and the first net sheet, and the mesh size of the second net sheet is larger than that of the first net sheet (namely, filtering holes), and the second net sheet is used for supporting the physiotherapy material. The embodiments of the present invention can solve the problem of unburnt material falling or broken, and the technical effect is better when the present invention is combined with a negative pressure smoking device.

According to some embodiments of the invention, the tool head body comprises a first section and a second section detachably connected with the lower end of the first section, the passage comprises a first section arranged at the first section and a second section arranged at the second section, the second section penetrates through the upper end and the lower end of the second section, and the support net is movably connected in the second section. The embodiments of the invention can solve the problem of portability of replacement of the supporting net and the physiotherapy material.

According to some embodiments of the invention, the tool head body further comprises a combustion chamber, the combustion chamber comprises an outer barrel detachably connected to the first section and an inner barrel accommodated in the outer barrel, the inner barrel is provided with a first concave part with a downward opening, the first concave part and the second section are used for accommodating the physiotherapy material, a smoke cavity is defined between the outer wall of the inner barrel and the inner wall of the outer barrel, the lower end of the combustion chamber is provided with a smoke inlet which is communicated with the smoke cavity, the peripheral wall of the outer barrel is provided with a smoke outlet which is communicated with the smoke cavity, and the smoke outlet is used for being communicated with a negative pressure smoking device. The embodiments of the invention can solve the problem of consumable material of the tool head of which the structure for placing the physical therapy material is easy to damage, can solve the processing problem of the combustion chamber with the first concave part and the hollow wall, and can solve the problem of fallen or crushed unburnt material.

According to some embodiments of the invention, the lower end of the inner cylinder is convexly provided with a connecting sheet, the outer peripheral wall of the outer cylinder is provided with a first bulge, and the connecting sheet is hooked on the first bulge. The embodiments of the invention can solve the processing problem of the smoke inlet at the lower end of the combustion chamber, combine and connect the inner cylinder and the outer cylinder into a whole to facilitate holding and installation, and can solve the problem of convenience in dismounting the inner cylinder and the outer cylinder.

According to a second aspect of the present invention, the physiotherapy instrument includes a case, an ash receiving cylinder, a pushing device and the ash beating tool head, wherein the ash receiving cylinder and the pushing device are both connected to the case, the pushing device is disposed below the ash receiving cylinder, and the pushing device is used for penetrating through the ash receiving cylinder to push the bearing net or pushing the bearing net through the ash receiving cylinder. The embodiments of the present invention can solve the problem of mechanical automated dusting.

The pushing device is arranged below the ash receiving cylinder and used for penetrating through the ash receiving cylinder to push the bearing net, the bearing net shakes to enable ash on the physical therapy material to fall off, and the fallen ash falls off to the ash receiving cylinder. Or the pushing device is arranged below the ash receiving cylinder and used for pushing the ash receiving cylinder, the ash receiving cylinder pushes the bearing net, the bearing net shakes to enable ash on the physical therapy material to fall off, and the fallen ash falls off to the ash receiving cylinder.

According to the second aspect of the invention, the physiotherapy instrument has at least the following advantages: the ash beating tool head is combined with a pushing device, the pushing device repeatedly pushes the bearing net upwards to separate the ash from the physical therapy material, large ash blocks on the bearing net are shaken to be broken and fall off, and the pushing device executes mechanical automatic ash dusting.

According to some embodiments of the present invention, a mounting seat is disposed on the chassis, the mounting seat is provided with a second concave portion with an upward opening, the ash receiving cylinder is supported at an inner bottom of the second concave portion, the pushing device includes a pushing rod and a pushing power structure, the pushing rod passes through the ash receiving cylinder, the pushing power structure is connected to a lower end of the mounting seat, and an output shaft of the pushing power structure is used for passing through the mounting seat to push the pushing rod. The embodiments of the invention can solve the problem of convenience in ash dumping and ash cleaning of the ash collecting barrel with ash removing capability.

According to some embodiments of the invention, the inner bottom of the second concave part is provided with a rebounder, and the output shaft of the rebounder is provided with a magnetic attraction piece for magnetically attracting the ash receiving cylinder. The embodiment of the invention can solve the problems that the ash receiving cylinder is stable in placement and is ejected by power when being taken out.

According to some embodiments of the invention, the dust removing device further comprises a position adjusting device, the dust removing tool head is connected to one end of the position adjusting device, the other end of the position adjusting device is connected to the case, and the position adjusting device is used for driving the dust removing tool head to enable the dust removing tool head to be close to the port of the dust collecting cylinder. The embodiments of the invention can solve the problems of mechanical automatic shifting for physiotherapy and mechanical automatic shifting for dusting.

According to some embodiments of the invention, the ash collecting device further comprises a protection cover capable of stretching and deforming, the pushing device comprises a pushing rod and a pushing power structure for driving the pushing rod to lift, the pushing rod penetrates through the ash collecting barrel, the lower end of the protection cover is hermetically connected with the bottom of the ash collecting barrel, the upper end of the protection cover is hermetically connected with the peripheral wall of the pushing rod, the upper end of the protection cover lifts along with the pushing rod, and a connecting gap between the pushing rod and the ash collecting barrel is covered by the protection cover. The embodiments of the invention can solve the problem of protection of the relative motion structure to ensure stable operation of the equipment.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 is a schematic structural view of a sanding tool head according to an embodiment of the present invention;

FIG. 2 is an exploded view of the ash striking tool head shown in FIG. 1;

FIG. 3 is a cross-sectional view of the ash removal tool head of FIG. 2;

FIG. 4 is a first web and second web distribution pattern of the dusting tool head of FIG. 3;

FIG. 5 is a cross-sectional view of the combustion bowl of the ash removal tool head shown in FIG. 2;

FIG. 6 is a diagram showing the distribution of the case, the ash receiving tube, the ash applying mask and the pushing device of the physiotherapy apparatus, wherein a plate on the case represents the case;

FIG. 7 is a cross-sectional view of the structure shown in FIG. 6, with the output shaft (/ slide) of the ejection power structure representing the ejection power structure;

fig. 8 is another schematic diagram of the structure shown in fig. 6 after the pushing rod drives the protection cover and the tower-shaped cover to rise, and an output shaft (/ sliding rod/sliding block) of the pushing power structure represents the pushing power structure;

FIG. 9 is a further schematic view of the arrangement shown in FIG. 6 after the ash receiving bin has been removed from the mounting block, with the output shaft (/ slide) of the pushing power arrangement representing the pushing power arrangement;

fig. 10 is a schematic structural diagram of the physiotherapy instrument.

A dusting tool head 100;

the tool head comprises a tool head body 110, a first subsection 111, a second subsection 112a, an outer cylinder 113, a first bulge 113a, an inner cylinder 114, a first concave part 114a, a connecting sheet 114b, a smoke cavity 115, a smoke inlet 116 and a smoke outlet 117;

a support net 120, a first mesh 121, a second mesh 122;

the ash receiving cylinder 200, the isolation cylinder 210, the pushing device 300, the pushing rod 310 and the pushing power structure 320;

the positioning device comprises a case 400, a positioning device 500, a protective cover 610 and a tower-shaped cover 620;

the installation seat 710, the second concave part 711, the rebound device 712, the cushion 720, the dust mask 800 and the negative pressure smoking device 900.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are illustrative only for the purpose of explaining the present invention, and are not to be construed as limiting the present invention.

In the description of the present invention, it should be understood that the orientation or positional relationship referred to in the description of the orientation, such as the upper, lower, front, rear, left, right, etc., is based on the orientation or positional relationship shown in the drawings, and is only for convenience of description and simplification of description, and does not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, the meaning of a plurality of means is one or more, the meaning of a plurality of means is two or more, and more than, less than, more than, etc. are understood as excluding the present number, and more than, less than, etc. are understood as including the present number. If any, the description to the first and second is only for the purpose of distinguishing technical features, and is not to be understood as indicating or implying relative importance or implicitly indicating the number of technical features indicated or implicitly indicating the precedence of the technical features indicated.

In the description of the present invention, unless otherwise explicitly limited, terms such as arrangement, installation, connection and the like should be understood in a broad sense, and those skilled in the art can reasonably determine the specific meanings of the above terms in the present invention in combination with the specific contents of the technical solutions.

Referring to fig. 1 to 3, according to an embodiment of the present invention, an ash-removing tool head 100 includes a tool head body 110 and a supporting net 120, the tool head body 110 is provided with a channel for containing physiotherapy materials, the channel penetrates through a lower end of the tool head body 110, the supporting net 120 is movably connected in the channel, the supporting net 120 is used for supporting the physiotherapy materials in the channel, and the supporting net 120 can drive the physiotherapy materials to shake up and down in the channel. The embodiments of the invention can solve the technical problem that the cigarette ash is separated from the physiotherapy material.

In some embodiments of the present invention, the inner wall of the channel is provided with a step for supporting the supporting net 120, and the supporting net 120 can bounce on the step to drive the physiotherapy material on the supporting net 120 to vibrate and drive the large-particle cigarette ash to vibrate.

Referring to fig. 3 and 4, in some embodiments of the invention, one or more guide rods are disposed on the inner wall of the tunnel, and the guide rods pass through the support net 120 to limit the rotation of the support net 120 to some extent, so that the support net 120 can be swung up and down. Preferably, the upper end of the guide rod is provided with a limiting block, and the limiting block stops the upward movement of the supporting net 120. Furthermore, there may be: the upper end of guide arm is connected to the stopper is detachable, and/or has: the lower end of the guide rod is detachably connected with the inner wall of the channel. Thus, the support net 120 can be removed by removing the upper or lower ends of the guide rods.

The tool head 100 for plastering according to the embodiment of the first aspect of the invention has at least the following advantages: the supporting net 120 is substantially a multi-purpose supporting net 120, the supporting net 120 is movably arranged, and is used as a supporting structure for physical therapy materials in combustion, a structure for driving the cigarette ash to be separated from the physical therapy materials, and a structure for driving the large cigarette ash to shake and break; the ash removing tool head 100 has certain ash removing capacity; the tool head 100 can perform manual shaking for ash removal, namely the tool head 100 is combined into a simple portable physiotherapy instrument, and a user can repeatedly push the support net 120 upwards by approaching the tool head 100 to the ash receiving tube 200 through an external tool, so that ash can be separated from physiotherapy materials, and large ash blocks on the support net 120 can be shaken, broken and dropped; the ash beating tool head 100 can also be combined with a pushing device 300, namely the combination is determined as a mechanical automatic ash beating physiotherapy instrument, the pushing device 300 repeatedly pushes the bearing net 120 upwards, so that the ash is separated from physiotherapy materials, and large ash blocks on the bearing net 120 are shaken, broken and dropped.

In some embodiments of the invention, the support screen 120 is only one sheet of mesh. The mesh is pushed by the external tool and pushing device 300.

Referring to fig. 3 and 4, in some embodiments of the invention, the support screen 120 includes a first screen 121 and a second screen 122 supported on the first screen 121, the second screen 122 being spaced apart from the first screen 121 at a central portion thereof, the second screen 122 being larger in mesh than the first screen 121, the second screen 122 being adapted to support a treatment material. The support net 120 serves both to support the physiotherapy material and to support the unburnt material that falls off or is crushed. The external tool and pushing device 300 pushes the first mesh 121. When the first mesh sheet 121 is pushed repeatedly by the pushing device 300 (or an external tool), the first mesh sheet 121 and the second mesh sheet shake up and down, the ash is separated from the physical therapy material and separated from the tool head body 110 after passing through the first mesh sheet 121 and the second mesh sheet 122, the separated or crushed unburnt material is easy to shake because of relatively large particles and is not like ash, the particles of the unburnt material pass through the second mesh sheet 122 and temporarily exist in the first mesh sheet 121, and the particles of the unburnt material can continuously burn and exert the physical therapy effect. Therefore, the embodiments of the present invention can solve the unburnt material that is dropped or crushed. When the negative pressure smoking device 900 is combined, the unburned material particles can be burnt out and smashed quickly in a short shaking process because fine particles and contact air are more sufficient; namely, when the negative pressure smoking device 900 is combined, the technical effect of solving the problem of falling or broken unburnt materials is better.

The second mesh 122 has a mesh larger than that of the first mesh 121, with the equivalent alternatives being: the outer ring of the second mesh 122 is smaller than the outer ring of the first mesh 121, and the space between the two outer rings can pass through fallen or crushed unburnt materials. When the first mesh sheet 121 is pushed repeatedly by the pushing device 300 (or an external tool), the first mesh sheet 121 and the second mesh sheet shake up and down, the ash is separated from the physiotherapy material, and is separated from the tool head body 110 after passing through the first mesh sheet 121 and the second mesh sheet 122, and the separated or broken unburnt material can roll down to the first mesh sheet 121 from the edge of the second mesh sheet 122. The second web 122 may be provided with feet that rest on the first web 121.

Referring to fig. 1 to 3, in some embodiments of the present invention, the tool bit body 110 includes a first section 111 and a second section 112 detachably connected to a lower end of the first section 111, the passage includes a first section disposed on the first section 111 and a second section 112a disposed on the second section 112, the second section 112a penetrates through upper and lower ends of the second section 112, and the support net 120 is movably connected to the second section 112 a. The embodiments of the present invention can solve the problem of portability of replacement of the support net 120 and the physiotherapy material.

The second section 112 may be threaded into the first section 111 like an end shield. Alternatively, the first subsection 111 may be provided with at least two unscrewing notches, and the second subsection 112 may be provided with an unscrewing protrusion, which correspondingly screws and fastens the unscrewing notches.

Referring to fig. 1 to 3, in some embodiments of the present invention, the peripheral wall of the second sub-portion 112 is provided with an air inlet, and the air inlet corresponds to the supporting net 120.

Referring to fig. 2, 3 and 5, in some embodiments of the present invention, the tool head body 110 further includes a combustion chamber, the combustion chamber includes an outer cylinder 113 detachably connected to the first section and an inner cylinder 114 accommodated in the outer cylinder 113, the inner cylinder 114 is provided with a first recess 114a with a downward opening, the first recess 114a and the second section 112a are used for accommodating physiotherapy materials, a smoke chamber 115 is defined between an outer wall of the inner cylinder 114 and an inner wall of the outer cylinder 113, a smoke inlet 116 is arranged at a lower end of the combustion chamber, the smoke inlet 116 is communicated with the smoke chamber 115, a smoke outlet 117 communicated with the smoke chamber 115 is arranged on a peripheral wall of the outer cylinder 113, and the smoke outlet 117 is used for communicating with a negative pressure smoking device 900. When the tool head has just been put into to strip physiotherapy materials such as moxa stick, one section holding is at first concave part 114a, another section holding is at second subsection 112a, the burning place of burning storehouse hold physiotherapy material concurrently, take the collection place of hot flue gas greasy dirt, the connection can be dismantled in first subsection to the burning storehouse, the change in burning storehouse is more convenient, the burning storehouse after damage and/or accumulation certain greasy dirt will be changed, concentrate the design in burning storehouse with easy dirty structure of wearing to decrease, avoid whole tool head body 110 to change. The embodiments of the invention can solve the problem of consumable materials of the tool head which is easy to damage the structure for placing the physical therapy material. The combustion chamber is divided into the inner cylinder 114 and the outer cylinder 113, and the smoke chamber 115 is defined between the inner cylinder 114 and the outer cylinder 113, so that the processing difficulty of the combustion chamber with the first concave part 114a and a hollow wall can be solved. The negative pressure smoking device 900 drives the airflow to flow, the air is introduced from the lower port of the tool head body 110 and flows through the supporting net 120, the smoke inlet 116 and the smoke cavity 115 in sequence, and the flowing air enables the unburned material particles to burn more quickly, so that the fallen or broken unburned material can be solved. The inner cylinder 114 is accommodated in the outer cylinder 113, that is, the connection structure of the inner cylinder 114 and the outer cylinder 113 is simple, and the problem of convenience in mounting and dismounting the inner cylinder 114 and the outer cylinder 113 can be solved.

The combustion chamber is made of one of PPS plastic, PPS glass-added fiber, nylon glass-added fiber, stainless steel, aluminum alloy and tinplate.

The inner wall of the first section of passageway is provided with the constant head tank, and the periphery wall of urceolus 113 is provided with the location sand grip, and the location sand grip is used for pegging graft the constant head tank, makes the outlet 117 location of combustion chamber be preset position.

In some embodiments of the invention, the inner wall of the first section of the channel is provided with at least two elastic sheets along the circumferential direction, and the at least two elastic sheets are used for clamping the upper end of the combustion chamber, namely the upper end of the outer barrel.

For the negative pressure smoking device 900, it can be appreciated that: the smoking fan or air pump is in communication with the smoke outlet 117 of the smoke chamber 115, and therefore is at a negative pressure with respect to the combustion chamber.

Referring to fig. 3 and 5, in some embodiments of the present invention, the lower end of the inner cylinder 114 is protruded with a coupling piece 114b, the outer circumferential wall of the outer cylinder 113 is provided with a first protrusion 113a, and the coupling piece 114b hooks the first protrusion 113 a. Connecting tab 114b extends outwardly, and both snap connecting tab 114b and pull connecting tab 114b are convenient. The embodiments of the invention can solve the processing problem of the smoke inlet 116 at the lower end of the combustion chamber, and the inner cylinder 114 and the outer cylinder 113 are combined and connected into a whole to be convenient for holding and installation, so as to prevent the inner cylinder 114 from separating from the outer cylinder 113 downwards. Equivalents are: the lower end of the outer cylinder 113 is provided with a connecting piece 114b in a protruding manner, the inner peripheral wall of the inner cylinder 114 is provided with a first protrusion 113a, and the connecting piece 114b hooks the first protrusion 113 a.

Referring to fig. 1 to 3 and 6 to 10, the physiotherapy apparatus according to the second aspect of the present invention includes a case 400, an ash receiving tube 200, a pushing device 300 and the ash beating tool head 100, wherein the ash receiving tube 200 and the pushing device 300 are both connected to the case 400, the pushing device 300 is disposed below the ash receiving tube 200, and the pushing device 300 is used for passing through the ash receiving tube 200 to push the supporting net 120. Or, the physiotherapy instrument includes an ash receiving cylinder 200, a pushing device 300 and the ash beating tool head 100, the pushing device 300 is disposed below the ash receiving cylinder 200, and the pushing device 300 is used for pushing the bearing net 120 through the ash receiving cylinder 200, that is, the pushing device 300 pushes the ash receiving cylinder and the ash receiving cylinder to push the bearing net, so that physiotherapy materials on the bearing net shake. The embodiments of the present invention can solve the problem of mechanical automated dusting.

The base, substrate, pedestal, etc. are all equivalent alternatives to the chassis 400. The lower end of the case 400 may be provided with a roller, and the roller may drive the entire physiotherapy apparatus to move. The inventive cabinet 400 can also be installed on the ground, a desktop, a wall, etc.

The device also comprises a central control unit (controller and central controller), a pushing device, a negative pressure smoking device and other electric connection central control units. The central control unit can be a DSP, an FPGA, a singlechip, a PLC and the like.

The physiotherapy equipment can be moxibustion equipment, physiotherapy equipment burning essential oil, etc.

According to the second aspect of the invention, the physiotherapy instrument has at least the following advantages: the ash beating tool head 100 is combined with the pushing device 300, the pushing device 300 repeatedly pushes the bearing net 120 upwards to separate the ash from the physical therapy materials, large ash blocks on the bearing net 120 are shaken and broken off, and the pushing device 300 performs mechanical automatic ash dusting.

Referring to fig. 6 to 9, in some embodiments of the present invention, the ash receiving cylinder 200 further includes a mounting seat 710, the mounting seat 710 is provided with a second recess 711 with an upward opening, the ash receiving cylinder 200 is supported at an inner bottom of the second recess 711, the pushing device 300 includes a pushing rod 310 and a pushing power structure 320, the pushing rod 310 passes through the ash receiving cylinder 200, the pushing power structure 320 is connected to a lower end of the mounting seat 710, and an output shaft of the pushing power structure 320 is used for passing through the mounting seat 710 to push the pushing rod 310. That is, the ejector rod 310 is not fixedly connected to the output shaft of the ejector power mechanism 320. The ash receiving cylinder 200 is taken out from the second concave part 711 of the mounting seat 710, and the push rod 310 can be taken away with the ash receiving cylinder 200; the soot receiving cylinder 200 is taken out from the second recess 711 of the mounting seat 710, and the soot in the soot receiving cylinder 200 can be dumped. Therefore, the embodiments of the invention can solve the problem of convenience in ash dumping and cleaning of the ash receiving barrel 200 with ash removing capability.

In some embodiments of the present invention, the inner bottom of the second recess 711 is provided with a rebounder 712, and the output shaft of the rebounder 712 is provided with a magnetic member for magnetically attracting the ash cylinder 200. When the ash receiving cylinder is placed into the second concave part 711, the ash receiving cylinder 200 is supported on the magnetic part, the ash receiving cylinder 200 is not easy to shake and is determined to be in a stable state, at the moment, the ash receiving cylinder 200 is pressed and connected, the ash receiving cylinder 200 drives the output shaft of the rebound device to retract downwards, the rebound device is enabled to be self-locked, the output shaft of the rebound device retracts, and the ash receiving cylinder further sinks into the second concave part 711; when the ash receiving cylinder 200 accumulates certain ash and needs to take out the ash receiving cylinder 200 from the second concave part 711, the rebounding device performs rebounding by pressing the ash receiving cylinder 200 again, and the output shaft of the rebounding device is popped up by a section, so that the ash receiving cylinder 200 protrudes upwards out of the second concave part 711 by a certain height. The embodiments of the invention can solve the problems that the ash receiving cylinder 200 is stably arranged and is taken out to be ejected by power so as to be convenient to grab. The rebounder is a conventional technology, the output shaft is locked at a retraction position once, and the output shaft is popped out/protruded for a section once again; the similar structure can also be commonly used in the push type lock catch of the drawer and the cabinet body which are used in daily life, and the lock claw of the push type lock catch is developed into the output shaft. Aiming at the equivalent design of magnetic attraction, the ash receiving cylinder and the magnetic attraction piece can be provided with a permanent magnet part on one side and a corresponding metal part on the other side, or can be provided with permanent magnet parts on both sides.

Referring to fig. 6 and 7, in some embodiments of the present invention, the dust-removing mask 800 is further included, the dust-removing mask 800 is configured to cover the port of the dust-collecting barrel 200, the dust-removing mask 800 includes at least one layer of shielding member made of soft material, the one layer of shielding member includes at least two flaps, the at least two flaps are circumferentially distributed, adjacent ends of the two adjacent flaps are overlapped or in splicing contact, the at least two flaps are configured to cover the port of the dust-collecting barrel, and the lower end of the tool head body can pass through a central position surrounded by the at least two flaps. The dust collecting device can solve the problems that when the tool head body is inserted into the dust collecting barrel to perform dust collecting, the port of the dust collecting barrel is sealed to prevent dust, and when the dust collecting barrel moves, the dust collecting barrel is sealed to prevent ash from being lifted.

Referring to fig. 6 to 9, in some embodiments of the present invention, the positioning device 500 is further included, the dust removing tool head 100 is connected to one end of the positioning device 500, the other end of the positioning device 500 is connected to the chassis 400, and the positioning device 500 is configured to drive the dust removing tool head 100 to enable the dust removing tool head 100 to be close to the port of the dust collecting barrel 200. The embodiments of the invention can solve the problems of mechanical automatic shifting for physiotherapy and mechanical automatic shifting for dusting. The positioning device 500 may be a mechanical arm, an XYZ three-axis positioning mechanism, or the like.

In some embodiments of the present invention, a dust-collecting box is further included, the dust-collecting box is drawer-type inserted into the chassis 400, and the lower end of the dust-collecting barrel 200 is used for dropping the ash into the dust-collecting box. The ash receiving cylinder 200 can be directly connected with the ash collecting box, or the opening of the ash receiving cylinder 200 directly drops the ash into the ash collecting box, or the like.

The negative pressure smoking device 900 is arranged in the case 400, the smoking pipes are arranged along the position adjusting device 500, one end of each smoking pipe is communicated with the tool head body and is used for absorbing oil smoke generated by combustion of physical therapy materials, and the other end of each smoking pipe is communicated with the negative pressure smoking device 900.

Referring to fig. 7 and 9, in some embodiments of the present invention, the ejection device 300 further includes a protection cover 610 capable of stretching and deforming, the ejection device 300 includes an ejector rod 310 and an ejection power structure 320 for driving the ejector rod 310 to ascend and descend, the ejector rod 310 passes through the ash receiving cylinder 200, a lower end of the protection cover 610 is hermetically connected to a bottom of the ash receiving cylinder 200, an upper end of the protection cover 610 is hermetically connected to a peripheral wall of the ejector rod 310, an upper end of the protection cover 610 ascends and descends along with the ejector rod 310, and a connection gap between the ejection and the ash receiving cylinder 200 is covered by the protection cover 610. The shield 610 is stretch deformable, and it will be appreciated that the shield 610 is made of a flexible material, such as plastic, rubber, cotton, etc. The pushing power structure 320 may be an air cylinder, a hydraulic cylinder, an electric cylinder, or the like, or may be a combination of a motor and a slider-crank structure, or a combination of a motor and a screw-nut pair, or may be other. Therefore, whether the ejector rod 310 is fixedly connected with the output shaft of the ejector power structure 320 or not, the embodiments of the present invention can solve the problem of protection of the relative movement structure to ensure stable operation of the apparatus.

Referring to fig. 7 and 8, in some embodiments of the invention, mount 710 is coupled to chassis 400 via cushion 720. Because the thrusters are connected to the mounting base 710 and are moving members, the cushion pad 720 is designed to absorb the vibration of the moving members. It is understood that the bumper pad 720 is made of a soft material, such as rubber, plastic, cotton, etc. The embodiments of the invention can solve the problems of vibration and noise of the pushing device.

The mounting base 710 and the housing 400 may be integrally formed or may be separately designed.

Referring to fig. 7 and 9, in some embodiments of the present invention, the inner bottom of the ash receiving cylinder 200 protrudes upward to form the isolating cylinder 210, the push rod 310 penetrates through the isolating cylinder 210, the lower end of the protective cover 610 is connected to the isolating cylinder 210, and the inner side of the ash receiving cylinder 200 and the outer side of the isolating cylinder 210 define a ring groove for collecting the ash. The tower-shaped cover 620 is used for covering the upper port of the isolation cylinder 210, the push rod 310 penetrates through the tower-shaped cover 620, and the push rod 310 can drive the tower-shaped cover 620 to move up and down.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the gist of the present invention.