LU507216B1 - A moxibustion chair capable of implementing moxibustion techniques - Google Patents

Abstract

The present invention relates to the field of moxibustion therapy and discloses a moxibustion chair capable of implementing moxibustion techniques, comprising: a moxibustion seat mechanism with a front-mounted opening and closing cover mechanism, an internally installed meridian reciprocating moxibustion driving mechanism within the moxibustion seat mechanism, an elastic pressure attachment mechanism installed internally within the meridian reciprocating moxibustion driving mechanism, and an exhaust mechanism set between the elastic pressure attachment mechanism and the moxibustion seat mechanism. Inside the elastic pressure attachment mechanism, there are respectively set a pecking moxibustion driving mechanism and a rotating moxibustion driving mechanism, with a positioning bearing mechanism set between them. The internal of positioning bearing mechanism is installed with a moxibustion column placement mechanism. This moxibustion chair capable of implementing moxibustion techniques enables gentle moxibustion while also applying pecking, rotating, and meridian reciprocating moxibustion techniques to the user's back.

Description

DESCRIPTION LUS07216

A MOXIBUSTION CHAIR CAPABLE OF IMPLEMENTING MOXIBUSTION

TECHNIQUES

TECHNICAL FIELD

This invention relates to the field of moxibustion therapy technology, specifically to a moxibustion chair capable of implementing moxibustion techniques.

BACKGROUND

Moxibustion, also known as moxa therapy or moxibustion, is a therapeutic method that uses the heat generated by moxa sticks or moxa cones made from mugwort to stimulate acupoints or specific areas of the body. By stimulating the activity of meridians, it adjusts the disordered physiological and biochemical functions of the human body to achieve the purpose of disease prevention and treatment. The mechanism of moxibustion is similar to acupuncture and has complementary therapeutic effects with acupuncture. It has many advantages such as simple operation, low cost, and significant effects. The four commonly used techniques include sparrow-pecking moxibustion, rotating moxibustion, back-and-forth moxibustion along the meridians, and gentle moxibustion.

Sparrow-pecking moxibustion refers to holding a lit moxa stick and pecking at the acupoints like a bird feeding, with one up and one down moxibustion treatment. This technique is beneficial for further sensitizing the moxibustion area, thereby achieving the effect of dredging meridians and stimulating meridian qi.

Rotating moxibustion refers to holding a lit moxa stick about three centimeters away from the skin of the moxibustion acupoints, and repeatedly rotating the moxibustion without fixed direction, either clockwise or counterclockwise, until the patient feels warmth at the moxibustion site. Using rotating moxibustion helps in promoting the circulation of qi and blood in the moxibustion area.

Back-and-forth moxibustion along the meridians refers to holding a lit moxa stiék/507216 and moving it along the direction of the body's meridians at a uniform speed, with the patient feeling warmth at the moxibustion site. This technique is effective in dredging meridians and stimulating the body's meridian qi.

Gentle moxibustion refers to holding a lit moxa stick, targeting the acupoints or areas to be moxibusted, and suspending the moxibustion about three centimeters away from the skin. Similarly, the patient should feel warmth at the moxibustion site.

To facilitate moxibustion, many moxibustion devices available on the market are capable of providing moxibustion therapy to individuals. However, compared to manual therapy, most conventional moxibustion devices can only perform simple gentle moxibustion and cannot apply other techniques for moxibustion on the back. This results in poor targeting of therapy. Therefore, there is a need for a moxibustion chair capable of performing various moxibustion techniques, allowing for sparrow-pecking moxibustion, rotating moxibustion, and back-and-forth moxibustion on the user's back while retaining the ability to perform gentle moxibustion. This would enable users to choose different moxibustion techniques according to their needs, thus improving the targeting of therapy.

SUMMARY

In response to the shortcomings of existing technology, this invention provides a moxibustion chair capable of performing moxibustion techniques, addressing the aforementioned issues. The technical solution provided by this invention includes: A moxibustion seat mechanism comprising: A moxibustion seat mechanism with a front-opening cover mechanism installed on the front side. Inside the moxibustion seat mechanism, there is an installed back-and-forth moxibustion driving mechanism. Inside the back-and-forth moxibustion driving mechanism, there is an installed elastic pressing mechanism. Between the elastic pressing mechanism and the moxibustion seat mechanism, there is a smoke exhaust mechanism. Inside the elastic pressing mechanism, there are separately installed sparrow-pecking moxibustion driving mechanism and rotating moxibustion driving mechanism. Between the sparrow-pecking moxibustion driving mechanism and the rotating moxibustion driving mechanism, there }&/507216 a guide bearing mechanism. Inside the guide bearing mechanism, there is an installed moxa stick placement mechanism.

Preferably, the moxibustion seat mechanism comprises a seat body, a backrest, ventilation holes, a cushion, an opening, and an installation cavity. The installation cavity is embedded on the back of the seat body, and the backrest is fixedly connected to the inner wall of the installation cavity. The ventilation holes are penetratingly provided on the surface of the seat body, and the cushion is fixedly connected to the front of the seat body. The opening is penetratingly provided on the front of the seat body.

Preferably, the front-opening cover mechanism comprises a flip cover, elastic cloth, nickel blocks, and magnetic blocks. The flip cover is rotatably connected to the inner wall of the seat body, and the flip cover is closed on the surface of the opening. The flip cover has a passage opened in the middle, and the elastic cloth is fixedly connected to the inner wall of the passage. The nickel blocks are fixedly connected to the inner wall of the flip cover, and the magnetic blocks are fixedly installed on the inner wall of the installation cavity. The flip cover is fixedly connected to the seat body through the nickel blocks and magnetic blocks.

Preferably, the back-and-forth moxibustion driving mechanism comprises an installation frame, guide columns, a lifting frame, a lifting motor, a screw column, and a screw sleeve. The installation frame is fixedly connected to the inner wall of the installation cavity, and the guide columns are fixedly inserted into the inner wall of the installation frame. The lifting frame is slidably connected to the surface of the guide columns, and the lifting motor is fixedly installed on the top of the installation frame. The screw column is fixedly connected to the output end of the lifting motor via a coupling, and the screw column is rotatably connected to the installation frame through bearings.

The screw sleeve is fixedly inserted into the inner wall of the installation frame, and the inner wall of the screw sleeve is threaded with the outer wall of the screw column.

Preferably, the elastic pressing mechanism includes spring plates, pressing boxes, and inner brackets. There are two spring plates, and both are fixedly connected to one side of the lifting frame. The pressing box is fixedly connected between the two spring plates, and ventilation holes are penetratingly provided on the surface of the pressirlg/507216 box. The inner bracket is integrally set on the inner wall of the pressing box.

Preferably, the smoke exhaust mechanism includes baffles, smoke collection rings, buffer cloths, heat-conducting tubes, electronic thermometers, exhaust pumps, exhaust pipes, and spiral guide pipes. The baffles are fixedly connected to the inner wall of the pressing box, and the smoke collection rings are fixedly connected to the surface of the baffles, with output ports opened on the surface of the smoke collection rings. The heat-conducting tube is integrally set on one side of the baffles. The buffer cloth is fixedly connected between the smoke collection ring and the heat-conducting tube, with its surface slidingly connected to the surface of the elastic cloth. The electronic thermometer is fixedly installed on the surface of the seat body. The exhaust pump is fixedly installed on the top of the installation frame, and the exhaust pipe is fixedly installed at the output end of the exhaust pump. The spiral guide pipe is fixedly installed between the input end of the exhaust pump and the output port of the smoke collection ring.

Preferably, the sparrow-pecking moxibustion driving mechanism includes frame cylinders, eccentric pressure plates, sliding rings, cushion rings, vibration motors, output shafts, and eccentric rollers. The frame cylinder is fixedly connected to the inner wall of the inner bracket. The eccentric pressure plate is installed on the inner wall of the frame cylinder. The sliding ring is fixedly sleeved on the surface of the eccentric pressure plate, and the outer wall of the sliding ring is slidably connected to the inner wall of the frame cylinder. The cushion ring is fixedly connected to one side of the eccentric pressure plate.

The vibration motor is fixedly installed on the surface of the frame cylinder. The output shaft is fixedly connected to the output end of the vibration motor via a coupling, and the eccentric roller is fixedly sleeved on the surface of the output shaft, with its surface slidingly connected to the outer wall of the cushion ring.

Preferably, the rotating moxibustion driving mechanism includes an eccentric turntable, sliding holes, limit slots, gear rings, rotating motors, and gears. The eccentric turntable is rotationally connected to one end of the frame cylinder via bearings. The sliding holes are eccentrically opened on the surface of the eccentric turntable, and the limit slots are embeddedly provided on the inner wall of the sliding holes. The gear ring is fixedly sleeved on the surface of the eccentric turntable. The rotating motor is fixedh/#507216 installed on the surface of the frame cylinder. Both the vibration motor and the rotating motor are servo motors. The gear is fixedly mounted on the output end of the rotating motor, and the gear meshes with the gear ring.

Preferably, the guide bearing mechanism includes bearing cylinders, guide bars, stop rings, pads, flame-retardant blocks, ventilation holes, compression springs, and retaining rings. The bearing cylinder is eccentrically installed on the inner wall of the eccentric pressure plate and is fixedly connected to the eccentric pressure plate. The guide bars are integrally set on the surface of the bearing cylinder, and the outer wall of the bearing cylinder is slidably connected to the inner wall of the sliding holes. The surface of the guide bars is slidably connected to the inner wall of the limit slots. The stop rings are fixedly connected to the inner wall of the bearing cylinder. The pads are fixedly connected to the inner wall of one end of the bearing cylinder, and both the surface and one end of the bearing cylinder are penetratingly provided with through-holes. The flame-retardant blocks are fixedly connected to one side of the bearing cylinder, and the ventilation holes are penetratingly provided on both sides of the flame-retardant blocks.

The compression springs are movably sleeved on the surface of the bearing cylinder, and the compression springs are located between the eccentric turntable and the eccentric pressure plate. The retaining rings are fixedly connected to the inner wall of the bearing cylinder.

Preferably, the moxa stick placement mechanism includes a combustion cylinder, a blocking mesh, and a groove. The combustion cylinder is movably set inside the bearing cylinder. The blocking mesh is fixedly installed at one end of the combustion cylinder. The groove is embeddedly provided on the surface of the combustion cylinder, and the combustion cylinder is engaged with the bearing cylinder through the groove and the retaining ring.

Compared with existing technology, the present invention offers the following beneficial effects: 1. The moxibustion chair capable of performing moxibustion techniques, through the moxibustion seat mechanism, the opening and closing cover mechanism, the back-and-forth moxibustion driving mechanism, the elastic pressing mechanism, the smoke exhaust mechanism, the sparrow-pecking moxibustion driving mechanism, the rotating moxibustion driving mechanism, the guide bearing mechanism, and the moxa stick placement mechanism, allows for sparrow-pecking moxibustion, rotating moxibustion, and back-and-forth moxibustion techniques on the user's back while retaining the gentle moxibustion technique. This facilitates the use of different moxibustion techniques according to the user's needs, enhancing the targeting of therapy. 2. The moxibustion chair capable of performing moxibustion techniques, through the installation frame, guide columns, lifting frame, lifting motor, screw column, and screw sleeve, can adjust the height of the moxibustion tube to align with acupoints for back-and-forth moxibustion while accommodating different users' needs by adjusting the height of the device. 3. The moxibustion chair capable of performing moxibustion techniques, through the spring plates, pressing boxes, and inner brackets, ensures that when the user leans back on the seat body, the spring plates provide elasticity, allowing the user's back to be pressed firmly against the cushion cloth. This also creates a counterforce against the user's back, preventing excessive curvature of the spine and ensuring ergonomic comfort. 4. The moxibustion chair capable of performing moxibustion techniques, through the baffles, smoke collection rings, buffer cloths, heat-conducting tubes, electronic thermometers, exhaust pumps, exhaust pipes, and spiral guide pipes, ensures the timely removal of moxibustion smoke after moxibustion, preventing it from dispersing.

Additionally, the electronic thermometer allows for monitoring the approximate moxibustion temperature around the skin, facilitating subsequent temperatuté/507216 adjustments. 5. The moxibustion chair capable of performing moxibustion techniques, through the frame cylinders, eccentric pressure plates, sliding rings, cushion rings, vibration motors, output shafts, and eccentric rollers, can use the rotation of the eccentric rollers to align the moxibustion tube with acupoints for sparrow-pecking moxibustion. Furthermore, by driving the eccentric rollers to rotate at specified angles using the vibration motor, it can indirectly control the distance between the combustion cylinder and the skin, thereby controlling the moxibustion temperature around the skin.

BRIEF DESCRIPTION OF THE FIGURES

Figure 1 is a schematic diagram of the structure of the present invention;

Figure 2 is a rear view of the present invention;

Figure 3 is a schematic diagram of the structure of the opening and closing cover mechanism of the present invention when it is unfolded;

Figure 4 is a schematic diagram of the structure of the position of the driving mechanism of the reciprocating moxibustion according to the present invention;

Figure 5 is a schematic diagram of the structure of the position of the elastic pressing mechanism of the present invention;

Figure 6 is a side sectional view of the interior of the pressing box of the present invention;

Figure 7 is a schematic diagram of the explosion structure of the interior of the pressing box of the present invention;

Figure 8 is a schematic diagram of the structure of the driving mechanism of the sparrow pecking moxibustion according to the present invention;

Figure 9 is a schematic diagram of the explosion structure of the interior of the frame tube of the present invention;

Figure 10 is a side sectional view of the interior of the frame tube of the present invention;

Figure 11 is a schematic diagram of the explosion structure of the interior of tH&/507216 bearing tube of the present invention. wherein, 101. Seat body; 102. Backrest; 103. Ventilation holes; 104. Cushion; 105.

Opening; 106. Installation cavity; 201. Flip cover; 202. Elastic cloth; 203. Nickel blocks; 204. Magnetic blocks; 301. Installation frame; 302. Guide columns; 303. Lifting frame; 304. Lifting motor; 305. Screw column; 306. Screw sleeve; 401. Spring plates; 402.

Pressing boxes; 403. Inner brackets; 501. Baffles; 502. Smoke collection rings; 503.

Buffer cloths; 504. Heat-conducting tubes; 505. Electronic thermometers; 506. Exhaust pumps; 507. Exhaust pipes; 508. Spiral guide pipes; 601. Frame cylinders; 602.

Eccentric pressure plates; 603. Sliding rings; 604. Cushion rings; 605. Vibration motors; 606. Output shafts; 607. Eccentric rollers; 701. Eccentric turntable; 702. Sliding holes; 703. Limit slots; 704. Gear rings; 705. Rotating motors; 706. Gears; 801. Bearing cylinders; 802. Guide bars; 803. Stop rings; 804. Pads; 805. Flame-retardant blocks; 806. Ventilation holes; 807. Compression springs; 808. Retaining rings; 901. Combustion cylinders; 902. Blocking meshes; 903. Grooves.

DETAILED DESCRIPTION OF THE INVENTION

The following will be combined with the drawings in the embodiments of the present invention to clearly and completely describe the technical solutions in the embodiments of the present invention. Obviously, the described embodiments are only part of the embodiments of the present invention, not all of the embodiments. Based on the embodiments of the present invention, all other embodiments obtained by ordinary technicians in this field without creative work are within the scope of protection of the present invention.

Refer to Figure 1-11, a moxibustion chair capable of performing moxibustion techniques. It comprises a moxibustion seat mechanism with a front-facing hinged cover mechanism. Inside the moxibustion seat mechanism, there is a meridian reciprocating moxibustion driving mechanism installed, which in turn houses an elastic pressure attachment mechanism. Between the elastic pressure attachment mechanism and the moxibustion seat mechanism, there is a smoke exhaust mechanism. Inside the elastic pressure attachment mechanism, there are separate pecking moxibustion drivirlg/507216 mechanisms and rotating moxibustion driving mechanisms. A positioning bearing mechanism is set between the pecking moxibustion driving mechanism and the rotating moxibustion driving mechanism. Inside the positioning bearing mechanism, there is a moxa column placement mechanism. By setting up the moxibustion seat mechanism, hinged cover mechanism, meridian reciprocating moxibustion driving mechanism, elastic pressure attachment mechanism, smoke exhaust mechanism, pecking moxibustion driving mechanism, rotating moxibustion driving mechanism, positioning bearing mechanism, and moxa column placement mechanism, it is possible to perform pecking moxibustion, rotating moxibustion, and meridian reciprocating moxibustion techniques on the user's back while retaining gentle moxibustion techniques. This facilitates the use of different moxibustion techniques as needed to improve the targeted therapy.

The moxibustion seat mechanism includes a seat body 101, a backboard 102, breathable holes 103, a back cushion 104, an opening 105, and an installation cavity 106. The installation cavity 106 is embedded and opened on the back of the seat body 101, and the backboard 102 is fixedly connected to the inner wall of the installation cavity 106. The breathable holes 103 are opened on the surface of the seat body 101, and the back cushion 104 is fixedly connected to the front of the seat body 101. The opening 105 is opened on the front of the seat body 101 to facilitate the user to sit on the surface of the seat body 101 for moxibustion on the back, ensuring comfort during moxibustion.

The hinged cover mechanism comprises a flip cover 201, an elastic cloth 202, nickel blocks 203, and magnetic blocks 204. The flip cover 201 is pivotally connected to the inner wall of the seat body 101, and it covers the surface of the opening 105. The flip cover 201 has a passage opened in the middle, and the elastic cloth 202 is fixedly connected to the inner wall of the passage. Nickel blocks 203 are fixedly connected to the inner wall of the flip cover 201, and magnetic blocks 204 are fixedly installed on the inner wall of the installation cavity 106. The flip cover 201 is fixedly connected to the seat body 101 via nickel blocks 203 and magnetic blocks 204 for the convenience of replacing moxa sticks and dumping ash, with the elastic cloth 202 forming a barrier to reduce friction on the back.

The meridian reciprocating moxibustion driving mechanism includes an installatidr/507216 frame 301, guide columns 302, a lifting frame 303, a lifting motor 304, a threaded column 305, and a threaded sleeve 306. The installation frame 301 is fixedly connected to the inner wall of the installation cavity 106, and the guide columns 302 are fixedly inserted into the inner wall of the installation frame 301. The lifting frame 303 is slidably connected to the surface of the guide columns 302, and the lifting motor 304 is fixedly installed at the top of the installation frame 301. The threaded column 305 is fixedly connected to the output end of the lifting motor 304 via a coupling, and the threaded column 305 is rotatably connected to the installation frame 301 via bearings. The threaded sleeve 306 is fixedly inserted into the inner wall of the installation frame 301, and the inner wall of the threaded sleeve 306 is threaded with the outer wall of the threaded column 305. By setting up the installation frame 301, guide columns 302, lifting frame 303, lifting motor 304, threaded column 305, and threaded sleeve 306, it is possible to achieve meridian reciprocating moxibustion by driving the lifting frame 303 to lift and lower via the lifting motor 304 to align the moxa cylinder 801 with acupoints.

Additionally, it allows for height adjustment of the moxa cylinder 801, ensuring the device is suitable for different users.

The elastic pressure attachment mechanism consists of spring pieces 401, a pressure attachment box 402, and an inner support frame 403. There are two spring pieces 401, both fixedly connected on one side of the lifting frame 303. The pressure attachment box 402 is fixedly connected between the two spring pieces 401, with ventilation holes opened on the surface of the pressure attachment box 402. The inner support frame 403 is integrally set on the inner wall of the pressure attachment box 402.

With the setup of the spring pieces 401, pressure attachment box 402, and inner support frame 403, after the user leans back on the seat body 101, the spring pieces 401 can provide certain elasticity to ensure the user's back presses tightly against the cushioning cloth 503. This setup also provides a pushing force against the back, preventing excessive curvature of the spine and adhering to ergonomics.

The smoke exhaust mechanism includes a baffle 501, a smoke hood 502, [8507216 cushioning cloth 503, a heat-conducting tube 504, an electronic thermometer 505, an exhaust fan 506, an exhaust pipe 507, and a spiral air guide pipe 508. The baffle 501 is fixedly connected to the inner wall of the pressure attachment box 402, and the smoke hood 502 is fixedly connected to the surface of the baffle 501, with an output port opened on its surface. The heat-conducting tube 504 is integrally set on one side of the baffle 501. The cushioning cloth 503 is fixedly connected between the smoke hood 502 and the heat-conducting tube 504, with its surface slidingly connected to the surface of the elastic cloth 202. The electronic thermometer 505 includes a thermometer body, a temperature probe, and a spiral wire. The thermometer body is fixedly mounted on the surface of the seat body 101, and the temperature probe is fixedly inserted into the inner wall of the heat-conducting tube 504. The spiral wire is fixedly connected between the thermometer body and the temperature probe. The exhaust fan 506 is fixedly mounted at the top of the installation frame 301, and the exhaust pipe 507 is fixedly mounted on the output end of the exhaust fan 506. The spiral air guide pipe 508 is fixedly mounted between the input end of the exhaust fan 506 and the output port of the smoke hood 502.

With the setup of the baffle 501, smoke hood 502, cushioning cloth 503, heat-conducting tube 504, electronic thermometer 505, exhaust fan 506, exhaust pipe 507, and spiral air guide pipe 508, it is possible to timely remove the moxibustion smoke produced after moxibustion, avoiding its dispersal. Additionally, the electronic thermometer 505 provides timely information about the approximate moxibustion temperature around the skin, facilitating subsequent temperature adjustments.

The pecking moxibustion driving mechanism consists of a frame cylinder 601, an eccentric pressure plate 602, a sliding ring 603, a cushion ring 604, an oscillating motor 605, an output shaft 606, and an eccentric roller 607. The frame cylinder 601 is fixedly connected to the inner wall of the inner support frame 403, and the eccentric pressure plate 602 is mounted on the inner wall of the frame cylinder 601. The sliding ring 603 is fixedly sleeved on the surface of the eccentric pressure plate 602, and the outer wall of the sliding ring 603 is slidingly connected to the inner wall of the frame cylinder 601. The cushion ring 604 is fixedly connected to one side of the eccentric pressure plate 602.

The oscillating motor 605 is fixedly mounted on the surface of the frame cylinder 604U507216

The output shaft 606 is fixedly connected to the output end of the oscillating motor 605 via a coupling, and the eccentric roller 607 is fixedly sleeved on the surface of the output shaft 606. The surface of the eccentric roller 607 is slidingly connected to the outer wall of the cushion ring 604. With the setup of the frame cylinder 601, eccentric pressure plate 602, sliding ring 603, cushion ring 604, oscillating motor 605, output shaft 606, and eccentric roller 607, it is possible to perform pecking moxibustion by rotating the eccentric roller 607 to flick the moxa cylinder 801 to align with the acupoints. Additionally, by driving the eccentric roller 607 to rotate a specified angle through the oscillating motor 605, it is possible to control the distance between the burning cylinder 901 and the skin, indirectly controlling the moxibustion temperature around the skin.

The rotating moxibustion driving mechanism consists of an eccentric turntable 701, a sliding hole 702, a limiting groove 703, a gear ring 704, a rotating motor 705, and a gear 706. The eccentric turntable 701 is rotatably connected to one end of the frame cylinder 601 via bearings. The sliding hole 702 is eccentrically opened on the surface of the eccentric turntable 701, and the limiting groove 703 is embeddedly opened on the inner wall of the sliding hole 702. The gear ring 704 is fixedly sleeved on the surface of the eccentric turntable 701. The rotating motor 705 is fixedly mounted on the surface of the frame cylinder 601. Both the oscillating motor 605 and the rotating motor 705 are servo motors. The gear 706 is fixedly mounted on the output end of the rotating motor 705, and the gear 706 meshes with the gear ring 704. With this setup, the eccentric turntable 701 can rotate the internal moxa cylinder 801 around the eccentric axis of the eccentric turntable 701 as the center of rotation, achieving rotating moxibustion on acupoints.

The positioning bearing mechanism includes a bearing cylinder 801, a guide bar 802, a stop ring 803, a pad block 804, a flame retardant block 805, ventilation holes 806, compression springs 807, and retaining rings 808. The bearing cylinder 801 is eccentrically installed on the inner wall of the eccentric pressure plate 602, and it is fixedly connected to the eccentric pressure plate 602. The guide bar 802 is integrally set on the surface of the bearing cylinder 801, with the outer wall of the bearing cylinder 801 slidingly connected to the inner wall of the sliding hole 702. The surface of the guide b&#507216 802 is slidingly connected to the inner wall of the limiting groove 703. The stop ring 803 is fixedly connected to the inner wall of the bearing cylinder 801. The pad block 804 is fixedly connected to the inner wall of one end of the bearing cylinder 801, and both the surface of the pad block 804 and one end of the bearing cylinder 801 have through-holes. The flame retardant block 805 is fixedly connected to one side of the bearing cylinder 801, and ventilation holes 806 are opened on both sides of the flame retardant block 805. The compression springs 807 are movably sleeved on the surface of the bearing cylinder 801 and are located between the eccentric turntable 701 and the eccentric pressure plate 602. Retaining rings 808 are fixedly connected to the inner wall of the bearing cylinder 801. This setup allows for stable operation of two different moxibustion techniques, coordinating with the rotating moxibustion driving mechanism and pecking moxibustion driving mechanism, respectively.

The moxa column placement mechanism consists of a burning cylinder 901, a barrier net 902, and a slot 903. The burning cylinder 901 is movably set inside the bearing cylinder 801, and the barrier net 902 is fixedly installed at one end of the burning cylinder 901. The slot 903 is embeddedly opened on the surface of the burning cylinder 901, and the burning cylinder 901 is secured to the bearing cylinder 801 by engaging with the slot 903 and the retaining ring 808, facilitating the carrying, positioning, and flame retardancy of the burning moxa.

The operating principle involves connecting the exhaust pipe 507 to an external smoke exhaust duct.

During mild moxibustion, the process begins with opening the flip cover 201 and removing the burning cylinder 901. An ignited moxa stick is then placed inside the burning cylinder 901. After inserting the burning cylinder 901 into the bearing cylinder 801 and securing it with retaining ring 808, the flip cover 201 is closed, causing the nickel block 203 to magnetically attach to the magnet block 204. The user sits on the seat body 101, activates the exhaust pump 506, and aligns their back's acupuncture points with the cushioning cloth 503. With the back pressing against the cushioning cloth 503 through the elastic cloth 202, the compression springs 401 deform, ensuring close contact between the cushioning cloths 503. Heat generated by the burning moxa stick stimulaté4/507216 the user's back acupuncture points through the elastic cloth 202, while moxibustion smoke is drawn by the negative pressure created by the exhaust pump 506. The moxibustion smoke passes through the heat-conducting tube 504 onto the user's back through the elastic cloth 202. Then, the moxibustion smoke is blocked by the back and enters the smoke hood 502 through the gap in the elastic cloth 202 and the thinner parts of the cushioning cloth 503. The negative pressure then propels the moxibustion smoke through the spiral air guide pipe 508 into the exhaust pipe 507 and eventually into the external smoke exhaust duct. Additionally, the electronic thermometer 505 measures the temperature inside the heat-conducting tube 504 near the back.

During meridian reciprocating moxibustion, the lifting motor 304 is activated on top of the mild moxibustion procedure. The lifting motor 304 undergoes periodic forward and reverse rotations, driving the threaded column 305 to reciprocally move the lifting frame 303 along the guide column 302. Simultaneously, the pressure attachment box 402 drives the heated moxa stick inside the burning cylinder 901 to reciprocate along the meridian corresponding to the aligned acupuncture points. The heat and moxibustion smoke produced by the heated moxa stick stimulate the meridians.

During pecking moxibustion, following the mild moxibustion procedure, the oscillating motor 605 is activated. The oscillating motor 605 drives the eccentric roller 607 to rotate through the output shaft 606. As the eccentric roller 607 rotates, it periodically compresses the pad block 604 and the eccentric pressure plate 602. The reaction force of the compression spring 807 pushes the eccentric pressure plate 602 periodically, causing the pad block 604 and the eccentric pressure plate 602 to periodically reset. This results in periodic reciprocating motion of the pad block 604 and the eccentric pressure plate 602, driving the bearing cylinder 801 to reciprocally move the burning cylinder 901 and the heated moxa stick inside along the sliding hole 702.

This causes the moxa stick to align with the acupuncture points, providing an up-and-down moxibustion treatment.

During rotating moxibustion, following the mild moxibustion procedure, the rotatirg/507216 motor 705 is activated. The rotating motor 705 drives the gear 706 to rotate, which in turn drives the gear ring 704, causing the eccentric turntable 701 to rotate. As the eccentric turntable 701 rotates, it drives the burning cylinder 901 and the heated moxa stick inside to rotate and apply moxibustion to the acupuncture points.

When adjusting the height of the pressure attachment box 402, the lifting motor 304 is activated. The lifting motor 304 drives the threaded column 305 to rotate, which in turn drives the threaded cylinder 306 to move up and down, thereby lifting the lifting frame 303 and the pressure attachment box 402 along the guide column 302 until the pressure attachment box 402 reaches the specified appropriate height for moxibustion.

When adjusting the temperature, the oscillating motor 605 is activated. The oscillating motor 605 drives the eccentric roller 607 to rotate through the output shaft 606. As the eccentric roller 607 rotates, it pushes the pad block 604, the eccentric pressure plate 602, and the bearing cylinder 801 to move relative to the frame cylinder 601. By rotating the eccentric roller 607 to different angles, the movement distance of the bearing cylinder 801 varies, leading to different distances between the burning cylinder 901 and the moxa stick inside relative to the back. Consequently, the perceived temperature on the back varies. Therefore, adjusting the temperature perception on the back can be achieved by changing the rotation angle of the oscillating motor 605.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and variations may be made to the embodiments without departing from the principles and spirit of the present invention, and that the scope of the present invention is defined by the appended claims and their equivalents.

Claims (10)

CLAIMS LU507216

1.A moxibustion chair capable of implementing moxibustion techniques, comprising: a moxibustion seat mechanism, wherein the front of the moxibustion seat mechanism is equipped with an opening and closing cover mechanism, the internal of the moxibustion seat mechanism is installed with a meridian reciprocating moxibustion driving mechanism, and the internal of the meridian reciprocating moxibustion driving mechanism is equipped with an elastic pressure attachment mechanism; an exhaust mechanism is set between the elastic pressure attachment mechanism and the moxibustion seat mechanism; inside the elastic pressure attachment mechanism, there are respectively set a pecking moxibustion driving mechanism and a rotating moxibustion driving mechanism, with a positioning bearing mechanism set between them; the internal of the positioning bearing mechanism is installed with a moxibustion column placement mechanism.

2. The moxibustion chair capable of implementing moxibustion techniques according to claim 1, wherein the moxibustion seat mechanism comprises a seat body (101), a backboard (102), ventilation holes (103), a backrest (104), an opening and closing port (105), and an installation cavity (106); the installation cavity (106) is embedded on the back of the seat body (101), and the backboard (102) is fixedly connected to the inner wall of the installation cavity (106); the ventilation holes (103) penetrate through the surface of the seat body (101), and the backrest (104) is fixedly connected to the front of the seat body (101); the opening and closing port (105) penetrates through the front of the seat body (101).

3. The moxibustion chair capable of implementing moxibustion techniques according to claim 2, wherein the opening and closing cover mechanism comprises a flip cover (201), an elastic cloth (202), a nickel block (203), and a magnetic block (204); the flip cover (201) is pivotally connected to the inner wall of the seat body (101), and the flip cover (201) is closed on the surface of the opening and closing port (105), with a passage opened in the middle of the flip cover (201); the elastic cloth (202) is fixediJ507216 connected to the inner wall of the passage, the nickel block (203) is fixedly connected to the inner wall of the flip cover (201), and the magnetic block (204) is fixedly mounted on the inner wall of the installation cavity (106), and the flip cover (201) is fixedly connected to the seat body (101) through the nickel block (203) and the magnetic block (204).

4. A moxibustion chair capable of implementing moxibustion techniques according to claim 2, wherein the meridian reciprocating moxibustion driving mechanism comprises an installation frame (301), a guide column (302), a lifting frame (303), a lifting motor (304), a threaded column (305), and a threaded sleeve (306); the installation frame (301) is fixedly connected to the inner wall of the installation cavity (106), and the guide column (302) is fixedly inserted into the inner wall of the installation frame (301); the lifting frame (303) is slidably connected to the surface of the guide column (302), and the lifting motor (304) is fixedly mounted on the top of the installation frame (301); the threaded column (305) is fixedly connected to the output end of the lifting motor (304) through a coupling, and the threaded column (305) is rotatably connected to the installation frame (301) through bearings; the threaded sleeve (306) is fixedly inserted into the inner wall of the installation frame (301), and the inner wall of the threaded sleeve (306) is threadedly connected to the outer wall of the threaded column (305).

5. The moxibustion chair capable of implementing moxibustion techniques according to claim 4, wherein the elastic pressure attachment mechanism comprises spring plates (401), a pressure attachment box (402), and an internal bracket (403); the number of spring plates (401) is two, and both spring plates (401) are fixedly connected to one side of the lifting frame (303); the pressure attachment box (402) is fixedly connected between the two spring plates (401), and the surface of the pressure attachment box (402) is penetrated with ventilation holes; the internal bracket (403) is integrally arranged on the inner wall of the pressure attachment box (402).

6. The moxibustion chair capable of implementing moxibustion techniqués/507216 according to claim 5, wherein the exhaust mechanism comprises a baffle (501), a smoke collection ring (502), a buffer cloth (503), a heat conduction tube (504), an electronic thermometer (505), an exhaust pump (506), an exhaust pipe (507), and a spiral guide pipe (508); the baffle (501) is fixedly connected to the inner wall of the pressure attachment box (402), and the smoke collection ring (502) is fixedly connected to the surface of the baffle (501), with output ports opened on the surface of the smoke collection ring (502); the heat conduction tube (504) is integrally arranged on one side of the baffle (501), and the buffer cloth (503) is fixedly connected between the smoke collection ring (502) and the heat conduction tube (504), with its surface slidably connected to the surface of the elastic cloth (202); the electronic thermometer (505) is fixedly mounted on the surface of the seat body (101), and the exhaust pump (506) is fixedly mounted on the top of the installation frame (301); the exhaust pipe (507) is fixedly mounted on the output end of the exhaust pump (506), and the spiral guide pipe (508) is fixedly mounted between the input end of the exhaust pump (506) and the output port of the smoke collection ring (502).

7. A moxibustion chair capable of implementing moxibustion techniques as claimed in claim 5, wherein the pecking moxibustion driving mechanism comprises a frame cylinder (601), an eccentric pressing plate (602), a sliding ring (603), a cushion ring (604), a vibration motor (605), an output shaft (606), and an eccentric roller (607); the frame cylinder (601) is fixedly connected to the inner wall of the internal bracket (403), and the eccentric pressing plate (602) is mounted on the inner wall of the frame cylinder (601); the sliding ring (603) is fixedly sleeved on the surface of the eccentric pressing plate (602), and the outer wall of the sliding ring (603) is slidably connected to the inner wall of the frame cylinder (601); the cushion ring (604) is fixedly connected to one side of the eccentric pressing plate (602); the vibration motor (605) is fixedly mounted on the surface of the frame cylinder (601); the output shaft (606) is fixedly connected to the output end of the vibration motor (605) through a coupling, and the eccentric roller (607)

is fixedly sleeved on the surface of the output shaft (606), and the surface of tHe&/507216 eccentric roller (607) is slidably connected to the outer wall of the cushion ring (604).

8. A moxibustion chair capable of implementing moxibustion techniques as claimed in claim 7, wherein the rotating moxibustion driving mechanism comprises an eccentric turntable (701), a sliding hole (702), a limit groove (703), a gear ring (704), a rotating motor (705), and a gear (706); the eccentric turntable (701) is rotatably connected to one end of the frame cylinder (601) through a bearing, and the sliding hole (702) is eccentrically opened on the surface of the eccentric turntable (701); the limit groove (703) is integrally opened on the inner wall of the sliding hole (702); the gear ring (704) is fixedly sleeved on the surface of the eccentric turntable (701); the rotating motor (705) is fixedly mounted on the surface of the frame cylinder (601), and both the vibration motor (605) and the rotating motor (705) are servo motors; the gear (706) is fixedly mounted on the output end of the rotating motor (705), and the gear (706) meshes with the gear ring (704).

9. A moxibustion chair capable of implementing moxibustion techniques as claimed in claim 8, wherein the positioning and carrying mechanism comprises a carrying cylinder (801), a guiding bar (802), a blocking ring (803), a pad block (804), a flame-retardant block (805), ventilation holes (806), a compression spring (807), and a retaining ring (808); the carrying cylinder (801) is eccentrically installed on the inner wall of the eccentric pressing plate (602), and the carrying cylinder (801) is fixedly connected to the eccentric pressing plate (602); the guiding bar (802) is integrally arranged on the surface of the carrying cylinder (801), and the outer wall of the carrying cylinder (801) is slidably connected to the inner wall of the sliding hole (702), and the surface of the guiding bar (802) is slidably connected to the inner wall of the limit groove (703); the blocking ring (803) is fixedly connected to the inner wall of the carrying cylinder (801), and the pad block (804) is fixedly connected to the inner wall of one end of the carrying cylinder (801); both the surface of the pad block (804) and one end of the carrying cylinder (801) are penetrated with through holes, and the flame-retardant block (805) is fixedly connected to one side of the carrying cylinder (801); the ventilation holes (8064507216 are integrally opened on both sides of the flame-retardant block (805); the compression spring (807) is slidably sleeved on the surface of the carrying cylinder (801), and the compression spring (807) is located between the eccentric turntable (701) and the eccentric pressing plate (602); the retaining ring (808) is fixedly connected to the inner wall of the carrying cylinder (801).

10. A moxibustion chair capable of implementing moxibustion techniques as claimed in claim 9, wherein the moxibustion column placement mechanism comprises a combustion cylinder (901), a blocking net (902), and a card slot (903); the combustion cylinder (901) is movably arranged inside the carrying cylinder (801), and the blocking net (902) is fixedly mounted on one end of the combustion cylinder (901); the card slot (903) is integrally opened on the surface of the combustion cylinder (901), and the combustion cylinder (901) is locked to the carrying cylinder (801) through the card slot (903) and the retaining ring (808).