CN118267292A - Thermosensitive moxibustion instrument - Google Patents

Abstract

The application relates to the technical field of thermosensitive moxibustion, and discloses a thermosensitive moxibustion instrument, which aims to solve the problems that excessive ashes remain at the front end of a moxibustion material, so that the moxa temperature transferred to the body surface of a patient is reduced and the thermosensitive moxibustion effect is affected. According to the application, through the arrangement of the cutting strip, the rotary seat and the contact pins, the cutting strip is utilized to pull the retained ashes away from a small part, and then the rotary seat drives the contact pins to strike the cutting strip, so that most of the remaining ashes are separated, and the blocking degree of the ashes on moxa heat is further reduced through the actions, so that the thermosensitive moxibustion effect is not easily affected.

Description

Thermosensitive moxibustion instrument

Technical Field

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

Background

The heat sensitive moxibustion belongs to a clinical acupuncture alternative therapy, which usually utilizes Ai Reci laser body surface acupoints or specific parts generated by moxibustion materials (made of mugwort leaves) to adjust physiological and biochemical functions of human body disorder and achieve the aim of preventing and curing diseases.

The heat-sensitive moxibustion instrument is commonly used today to use heat-sensitive moxibustion to the patient, and some current heat-sensitive moxibustion instruments mainly comprise shallow, armed lever, irradiation head and mount table, when using, install the moxibustion material on the mount table of irradiation head inside, afterwards, ignite the moxibustion material to through armed lever and shallow, drive the burning department of moxibustion material and be close to the patient, make Ai Rezuo that the moxibustion material produced use the human appointed position, through above-mentioned action, and then realize the use of heat-sensitive moxibustion therapy.

However, in the above process, the patient often lies on (or lies prone to) the sickbed, so that the burning position of the moxibustion material is always located right above the human body, and ash generated by burning the moxibustion material is left at the front end of the moxibustion material for a long time along with the gradual burning of the moxibustion material, thereby affecting the heat transfer of moxa and reducing the temperature felt by the patient, and further affecting the effect of thermosensitive moxibustion.

Disclosure of Invention

The application provides a thermosensitive moxibustion instrument which has the advantage of reducing the blocking degree of ashes on moxa heat and is used for solving the problems that excessive ashes are remained at the front end of a moxibustion material, so that the temperature of the moxa heat transferred to the body surface of a patient is reduced and the thermosensitive moxibustion effect is affected.

In order to achieve the above purpose, the application adopts the following technical scheme: a thermal moxibustion instrument comprising:

The device comprises a trolley, wherein a panel is fixedly arranged on one side of the upper side surface of the trolley, arm rods are fixedly arranged on the other side of the upper side surface of the trolley, the number of the arm rods is two, and the upper end parts of the two arm rods are hinged and fixed with irradiation heads;

The device comprises a mounting table, wherein the middle position of an inner cavity of an irradiation head is fixedly provided with the mounting table, the lower side position of the inner part of the irradiation head is penetrated and provided with a lower opening, the inner part of the side surface of the downward opening of the mounting table is rotatably provided with a rotary seat, the side surface of the downward opening of the rotary seat is eccentrically and fixedly provided with a contact pin, the outer side of the contact pin is fixedly sleeved with a moxibustion material, the end part of the contact pin, which is close to the lower opening, is an ignition end, the inner part of the rotary seat is provided with a power supply for heating the ignition end, the side surface of the mounting table, which is back to the downward opening, is fixedly provided with a motor, and an output shaft of the motor is fixedly connected with the rotary seat;

The telescopic rod is fixedly arranged on the side surface of the mounting table, which is back to the downward opening, the output rod of the telescopic rod passes through the mounting table, a clamping cavity is formed in the end part of the output rod, a clamping block is movably clamped in the clamping cavity, a rotating rod is rotatably arranged at the position, facing the downward opening, of the clamping block, one end, facing the downward opening, of the rotating rod extends out of the output rod, a pressure sensor is arranged in the clamping cavity and positioned at the position, facing the downward opening, of the clamping block, the pressure sensor is in contact with the clamping block, a rotating sleeve is movably sleeved on the outer side of the end part of the output rod, the rotating sleeve is connected with the rotating rod, a cutting strip is fixedly arranged on the circumferential side of the rotating sleeve, and in an initial state, the height of the cutting strip is lower than that of a contact pin;

the inner part of the lower opening is fixedly provided with a separation net.

Further, a torsion spring is sleeved in the inner cavity of the rotating sleeve and positioned at the outer side of the rotating rod, and two ends of the torsion spring are fixedly connected with the inner wall of the rotating sleeve and the rotating rod respectively.

Further, one side of the irradiation head and one side of the installation table surface, which is downwards opened, are inserted with a collecting box, the cutting strips correspond to the positions of the collecting box, and the collecting box and the moxibustion materials are in different vertical paths.

Further, the upper side position inside the irradiation head is penetrated and provided with an upper opening, the inside of the upper opening is fixedly provided with a fan, and the inside of the mounting table is penetrated and provided with a wind guide opening at a position far away from the rotating seat.

Further, the air guide opening corresponds to the orientation of the cutting strip.

Further, the cutting bars are of pyramid structure.

Further, the contact pin includes ignition, cover shell and elastic component, the eccentric fixed mounting of swivel mount side towards lower open-ended has the ignition, the ignition comprises ignition end and installation pole, the cover shell has been cup jointed in the outside of installation pole, there is the interval between cover shell and the installation pole, cover shell and ignition end are connected in the activity, circumference equidistance is provided with the elastic component between the medial surface of cover shell and the installation pole, the both ends of elastic component fixed connection cover shell and installation pole respectively.

Further, the photoelectric material and the light-emitting chip are fixedly arranged in the lower opening and positioned at the position of the separating net, which is opposite to one side of the mounting table, and the photoelectric material and the light-emitting chip are provided with independent power supplies.

The application has the following beneficial effects:

According to the thermosensitive moxibustion instrument provided by the application, the cutting strip, the rotary seat and the contact pins are arranged, the cutting strip is utilized to pull the retained ashes away from a small part, and then the rotary seat drives the contact pins to strike the cutting strip, so that most of the remaining ashes are separated, and the blocking degree of the ashes on moxa heat is further reduced through the actions, so that the thermosensitive moxibustion effect is not easily affected.

Meanwhile, through the action of cleaning ash step by step, when the cutting strips are separated from the ash, the area of the burning part of the moxibustion material is reduced, so that after the ash is separated from the moxibustion material, most of the burning part of the moxibustion material still keeps a burning state, and then, most of the burning part ignites the burning part pressed and extinguished by the ash again, and through the action, the moxibustion material is promoted to burn uniformly, so that the thermosensitive moxibustion effect is not easily affected.

Through the setting of fan and wind guide, at the in-process that moxibustion material transmission was to human surface transmission moxa heat, the fan was to the direction suction air of moxibustion material for the smog that moxibustion material produced is taken out, simultaneously through the flow of above-mentioned air, and then plays the heat dissipation effect to shining the inside structure of head.

Through the setting of fan and wind guide for at the in-process that the air moved the fan from the direction of moxibustion material, this air was close to above-mentioned ashes and presses the position of moxibustion material burning department, and then utilized the quick flow of air, makes this position of moxibustion material fast reburning, through above-mentioned action, and then further makes moxibustion material evenly burn, makes the thermal moxibustion effect be difficult for receiving.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments of the application and together with the description, serve to explain the principles of the application.

The application may be more clearly understood from the following detailed description taken in conjunction with the accompanying drawings, in which:

FIG. 1 is a schematic view of the overall structure of a first embodiment of the present invention;

FIG. 2 is a schematic view showing an internal structure of an irradiation head according to a first embodiment of the present invention;

FIG. 3 is a schematic view of a side structure of a mounting table according to a first embodiment of the present invention;

FIG. 4 is a schematic view of a cutting bar in a first embodiment of the present invention;

FIG. 5 is a schematic view illustrating the internal structures of a telescopic rod and a swivel in accordance with an embodiment of the present invention;

FIG. 6 is a schematic view of a cutting bar according to a first embodiment of the present invention;

Fig. 7 is a schematic diagram of a pin assembly structure in a second embodiment of the present invention.

In the figure: 1. a cart; 2. a panel; 3. an arm lever; 4. an irradiation head; 5. an upper opening; 6. a lower opening; 7. a mounting table; 8. rotating base; 9. a contact pin; 10. moxibustion materials; 11. a motor; 12. a telescopic rod; 13. a cavity is blocked; 14. a clamping block; 15. a rotating rod; 16. a pressure sensor; 17. a rotating sleeve; 18. cutting the strip; 19. a torsion spring; 20. a screen; 21. a collection box; 22. a fan; 23. an air guide port; 24. an ignition member; 25. a casing; 26. an elastic member.

Detailed Description

The following description of the embodiments of the present application will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present application, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

Example 1

Referring to fig. 1-6, a thermosensitive moxibustion instrument comprises a cart 1, a panel 2 is fixedly arranged on one side of the upper side of the cart 1, arm rods 3 are fixedly arranged on the other side of the upper side of the cart 1, the number of the arm rods 3 is two, the upper end parts of the two arm rods 3 are hinged and fixed with an irradiation head 4, a lower opening 6 is penetrated and arranged at the lower side position inside the irradiation head 4, an installation table 7 is welded at the middle position of the inner cavity of the irradiation head 4, a rotating seat 8 is rotatably arranged at the side surface of the installation table 7 facing the lower opening 6, a contact pin 9 is eccentrically and fixedly arranged at the side surface of the rotating seat 8 facing the lower opening 6, a moxibustion material 10 is fixedly sleeved on the outer side of the contact pin 9, the end part of the contact pin 9 close to the lower opening 6 is an ignition end (such as an electric heating wire or an ignition rod in the prior art), a power supply (not shown in the drawing) is arranged inside the rotating seat 8, the electric heating device is used for heating the ignition end, a motor 11 (such as a forward and reverse rotating motor in the prior art) is fixedly arranged at the side surface of the mounting table 7, which is opposite to the lower opening 6, and corresponds to the center of the rotating seat 8, the output shaft of the motor 11 stretches into the mounting table 7 and is fixedly connected with the center of the rotating seat 8, a telescopic rod 12 (such as a combination of an electric control telescopic cylinder and an output rod in the prior art) is fixedly arranged at the side surface of the mounting table 7, which is opposite to the lower opening 6, and is positioned at one side of the motor 11 (the motor 11 and the telescopic rod 12 are respectively provided with an independent power supply, the motor 11 and the telescopic rod 12 are respectively operated in a remote control and timing manner, the remote control technology is used for controlling the power on and off of the motor 11 and the telescopic rod 12, the timing time is the sum of the burning fixed length of a moxibustion material 10 and the ash cleaning time of the device), the output rod of the telescopic rod 12 passes through the mounting table 7, the end of the output rod is provided with a clamping cavity 13, a clamping block 14 is clamped in the clamping cavity 13 in a sliding manner, a rotating rod 15 is rotatably arranged at the position, facing the lower opening 6, of the clamping block 14, one end, facing the lower opening 6, of the rotating rod 15 extends out of the output rod, a pressure sensor 16 is arranged in the clamping cavity 13 and positioned at the position, facing one side of the lower opening 6, of the clamping block 14, the pressure sensor 16 is in contact with the clamping block 14, a rotating sleeve 17 is sleeved on the outer side of the end of the output rod in a sliding manner, the rotating sleeve 17 is connected with the rotating rod 15, a cutting strip 18 is fixedly arranged on the circumferential side of the rotating sleeve 17, in an initial state, the height of the cutting strip 18 is lower than the height of a contact pin 9 (a preset value exists in the pressure sensor 16, and when the cutting strip 18 contacts a moxibustion material 10 which does not form ashes, the pressure sensor 16 outputs a signal to the telescopic rod 12, so that the telescopic rod 12 stops running), and a separation net 20 is fixedly arranged in the lower opening 6.

Before use, firstly, the moxibustion material 10 is fixed on the contact pin 9, then, the separation net 20 is placed (the separation net 20 is detachably arranged), when the moxibustion material is used, the trolley 1 and the arm rod 3 are utilized to drive the irradiation head 4 to move to a designated position, then, the panel 2 is operated, the ignition end of the contact pin 9 is heated, one end of the moxibustion material 10 close to the lower opening 6 is ignited, moxa heat generated by the moxibustion material 10 is enabled to pass through the lower opening 6 and the separation net 20 and further act on the surface of a human body, meanwhile, the motor 11 and the telescopic rod 12 are electrified, after a period of time, along with gradual combustion of the moxibustion material 10, one section of the moxibustion material 10 close to the lower opening 6 becomes ash, at this time, the motor 11 drives the rotary seat 8 to rotate (taking fig. 4 as an example, anticlockwise rotation) so that the moxibustion material 10 moves to a position above the cutting bar 18 (as shown in fig. 4), and then, the telescopic rod 12 operates, so that the telescopic rod 12 drives the cutting bar 18 to extend into the ash until the cutting bar 18 contacts the moxibustion material 10 which does not become ash (in the process, when the cutting bar 18 contacts the moxibustion material 10 which does not become ash, the cutting bar 18 applies force to the rotating sleeve 17, the rotating rod 15 and the clamping block 14, so that the pressure of the clamping block 14 to the pressure sensor 16 is increased to a certain value, so that the pressure sensor 16 outputs a signal to the telescopic rod 12 once, so that the telescopic rod 12 stops running), afterwards, the motor 11 continues to rotate (taking fig. 4 as an example, and continues to rotate anticlockwise), so that the moxibustion material 10 is far away from the cutting bar 18, by the action, ash (a small part of ash) on the side of the cutting bar 18, which is away from the contact pin 9, is pulled away from the moxibustion material 10 by the cutting bar 18, and then the motor 11 rotates (clockwise in the example shown in fig. 4), and drive moxibustion material 10 contact cutting strip 18, through this action, make cutting strip 18 contact ashes and contact pin 9 in proper order, and then produce the vibration, make remaining ashes (most ashes) break away from moxibustion material 10, through the action above-mentioned, and then reduce the ashes and block the degree to the moxa-thermal, make the thermal moxibustion effect be difficult for receiving, afterwards, motor 11 keeps away from contact pin 9 again (taking figure 4 as the example, anticlockwise rotation resets), and return to the initial position, make moxa-thermal effect to the human body again, and telescopic link 12 moves down and resets, this is single ashes clearance operation (because the distance that every time telescopic link 12 moves up is different, make in this process, the time that motor 11 moved to cutting strip 18 top and stopped is telescopic link 12 and drive cutting strip 18 from moxibustion material 10 extreme bottom to the time), in addition, through the action of above-mentioned substep clearance ashes, when reducing cutting strip 18 and dialling away ashes, partial ashes press the area of moxibustion material 10 burning department, make ashes break away from the material, make the ashes keep the combustion state again on the thermal moxibustion material is difficult for receiving the burning department, the thermal moxibustion material is still carried out by the burning department on the combustion condition is still being influenced by the part of the combustion material, the combustion effect is still being difficult to be burnt on the combustion department is made to the combustion point of the combustion material is more than the burning, the combustion condition was burnt to the place was burnt to the fact to have been easy to the fact to have the burning.

Referring to fig. 3 and 5, a torsion spring 19 is sleeved in the inner cavity of the rotating sleeve 17 and positioned at the outer side of the rotating rod 15, one end of the torsion spring 19 is fixedly connected with the inner wall of the rotating sleeve 17, and the other end of the torsion spring 19 is fixedly connected with the rotating rod 15.

Through the arrangement of the torsion spring 19, when the moxibustion material 10 and the contact pin 9 strike the cutting strip 18, the cutting strip 18 can be elastically buffered to a certain extent, and further deformation of the cutting strip 18 in the long-time working process is avoided, and ash cleaning operation is influenced.

Referring to fig. 2-6, a collecting box 21 is inserted at one side of the irradiation head 4 and at one side of the mounting table 7 facing the downward opening 6, the cutting bar 18 corresponds to the position of the collecting box 21, and the collecting box 21 and the moxibustion material 10 are in different vertical paths.

Through the setting of collecting box 21 for above-mentioned ashes that are cleared up can be collected by collecting box 21, and then avoid ashes to drop on separating net 20, make the ashes that are cleared up can not prevent moxa heat.

Referring to fig. 2-6, an upper opening 5 is formed in the upper portion of the inside of the irradiation head 4, a fan 22 is fixedly mounted in the upper opening 5, and an air guide opening 23 is formed in the inside of the mounting table 7 and away from the swivel seat 8.

In the process of transferring moxa heat to the surface of a human body through the moxibustion material 10, the fan 22 operates, and air is sucked through the lower opening 6 and the air guide opening 23, so that smoke generated by the moxibustion material 10 is sucked away, and meanwhile, the heat dissipation effect is achieved on the structure inside the irradiation head 4 through the flow of the air.

Referring to fig. 2-6, the air guide opening 23 corresponds to the orientation of the cutting bar 18.

Through setting up in this position for after the follow-up moxibustion material 10 resets, the part that moxibustion material 10 burning department was pressed out by ashes is closer to wind guide 23, makes the in-process that removes fan 22 from the direction of lower opening 6 at the air, and this air is close to above-mentioned moxibustion material 10 burning department and is pressed out by ashes, and then utilizes the rapid flow of air, makes this position of moxibustion material 10 fast reburning, through above-mentioned action, and then further makes moxibustion material 10 even burning, makes the thermal sensitive moxibustion effect be difficult for receiving.

Referring to fig. 6, the cutting bars 18 have a pyramid structure.

Through the setting of pyramid structure for the in-process that cutting strip 18 stretched into ashes receives less resistance, simultaneously, makes the difficult more ashes of compaction of cutting strip 18, makes most ashes can break away from smoothly.

Example two

Referring to fig. 2-7, this embodiment is a further improvement of the first embodiment, and the improvement is that: the contact pin 9 includes ignition piece 24, cover shell 25 and elastic component 26, the eccentric fixed mounting of side of swivel mount 8 towards lower opening 6 has ignition piece 24, ignition piece 24 comprises ignition end and installation pole, cover shell 25 has been cup jointed in the outside of installation pole, there is the interval between cover shell 25 and the installation pole, cover shell 25 and ignition end form sliding connection, circumference equidistance is provided with elastic component 26 between the medial surface of cover shell 25 and the installation pole, the one end and the cover shell 25 fixed connection of elastic component 26, the other end and the installation pole fixed connection of elastic component 26.

Through the setting of above-mentioned structure for when cutting strip 18 and contact pin 9 striking, the cover shell 25 can be applied force to elastic component 26, and then realizes certain elasticity buffer function, afterwards, after cutting strip 18 and contact pin 9 separation, elastic component 26 drives cover shell 25 and resets, and the shake takes place, makes the moxibustion material 10 in the cover shell 25 outside take place tremble in step, through this action, and then further impels ashes to break away from moxibustion material 10, makes the difficult influence of thermal moxibustion effect.

Example III

This embodiment is a further improvement over the first embodiment in that: the inside of the lower opening 6 and the position of the partition net 20 on the side facing away from the mounting table 7 are fixedly provided with a photoelectric material and a light emitting chip (in the prior art, not shown in the figure), and the photoelectric material and the light emitting chip are provided with independent power supplies.

The photoelectric material is utilized to generate heat, far infrared rays which are useful for the human body are generated to generate heat radiation, the far infrared rays are acted on superficial tissues of the human body acupuncture points, the luminous chip with specific wavelength is utilized to emit near infrared rays and red light, the light radiation is generated, and the far infrared rays are acted on deep tissues of the human body acupuncture points.

Claims (8)

1. A thermal moxibustion instrument, comprising:

The device comprises a trolley (1), wherein a panel (2) is fixedly arranged on one side of the upper side surface of the trolley (1), arm rods (3) are fixedly arranged on the other side of the upper side surface of the trolley (1), the number of the arm rods (3) is two, and irradiation heads (4) are hinged and fixed at the upper end parts of the two arm rods (3);

The device comprises a mounting table (7), wherein the middle position of an inner cavity of an irradiation head (4) is fixedly provided with the mounting table (7), a lower opening (6) is formed in the lower side position of the inside of the irradiation head (4) in a penetrating manner, a rotary seat (8) is rotatably mounted in the side surface of the mounting table (7) facing the lower opening (6), a contact pin (9) is eccentrically and fixedly mounted on the side surface of the rotary seat (8) facing the lower opening (6), a moxibustion material (10) is fixedly sleeved on the outer side of the contact pin (9), the end, close to the lower opening (6), of the contact pin (9) is an ignition end, a power supply is arranged in the rotary seat (8) and used for heating the ignition end, a motor (11) is fixedly mounted on the side surface of the mounting table (7) facing away from the lower opening (6), and an output shaft of the motor (11) is fixedly connected with the rotary seat (8);

The telescopic rod (12), the side of mount table (7) back down opening (6) fixed mounting has telescopic rod (12), the output pole of telescopic rod (12) passes mount table (7), clamping chamber (13) have been seted up to the tip of output pole, movable joint has fixture block (14) in clamping chamber (13), fixture block (14) are installed bull stick (15) towards the position rotation of lower opening (6), the one end of bull stick (15) towards lower opening (6) stretches out the output pole, the position that just is located fixture block (14) and is faced down opening (6) one side in clamping chamber (13) is provided with pressure sensor (16), pressure sensor (16) and fixture block (14) contact, the outside activity of output pole tip has cup jointed rotating sleeve (17), rotating sleeve (17) are connected with bull stick (15), the circumference side fixed mounting of rotating sleeve (17) has cutting strip (18), during initial state, the height of cutting strip (18) is less than the height of contact pin (9).

A separation net (20) is fixedly arranged in the lower opening (6).

2. The thermosensitive moxibustion instrument according to claim 1, wherein a torsion spring (19) is sleeved in the inner cavity of the rotating sleeve (17) and positioned at the outer side of the rotating rod (15), and two ends of the torsion spring (19) are fixedly connected with the inner wall of the rotating sleeve (17) and the rotating rod (15) respectively.

3. A thermal moxibustion instrument according to claim 2, characterized in that a collecting box (21) is inserted on one side of the irradiation head (4) and on one side of the mounting table (7) facing the downward opening (6), the cutting strip (18) corresponds to the position of the collecting box (21), and the collecting box (21) and the moxibustion material (10) are in different vertical paths.

4. A thermosensitive moxibustion instrument according to claim 3, characterized in that an upper opening (5) is provided in the upper side of the inside of the irradiation head (4), a fan (22) is fixedly installed in the upper opening (5), and an air guide opening (23) is provided in the inside of the mounting table (7) and at a position far from the swivel seat (8).

5. A thermal moxibustion instrument according to claim 4, characterized in that said air guide (23) corresponds to the orientation of the cutting strip (18).

6. A thermo-sensitive moxibustion instrument according to claim 5, characterised in that the cutting strips (18) are of pyramid structure.

7. The heat-sensitive moxibustion instrument according to claim 5, wherein the contact pin (9) comprises an ignition part (24), a sleeve (25) and an elastic part (26), the ignition part (24) is eccentrically and fixedly arranged on the side surface of the rotary seat (8) facing the lower opening (6), the ignition part (24) consists of an ignition end and a mounting rod, the sleeve (25) is sleeved on the outer side of the mounting rod, a space exists between the sleeve (25) and the mounting rod, the sleeve (25) is movably connected with the ignition end, the elastic part (26) is circumferentially equidistant between the inner side surface of the sleeve (25) and the mounting rod, and two ends of the elastic part (26) are fixedly connected with the sleeve (25) and the mounting rod respectively.

8. The thermal moxibustion instrument according to claim 1, wherein the photoelectric material and the light emitting chip are fixedly arranged in the lower opening (6) and at a position of the separation net (20) back to the mounting table (7), and the photoelectric material and the light emitting chip are provided with independent power supplies.