CN111407648A - Multifunctional fire needle treatment device for dermatology department - Google Patents

Abstract

The invention relates to a multifunctional fire needle treatment device for dermatology, which effectively solves the problems that the existing fire needle treatment device has single function and is inconvenient for doctors to operate; the technical scheme comprises the following steps: this multi-functional fire needle treatment device of dermatology department can be according to the difference of patient's state of an illness and the density, the degree of depth of corresponding adjustment needle insertion to can accomplish the acupuncture to patient's focus department automatically according to the degree of depth of needle insertion of setting for, alleviateed doctor's work burden greatly, this fire needle treatment device is the fire needle that has multiple different models in storage moreover, can carry out the acupuncture treatment to different focuses of different patients, make this fire needle treatment device suitability improve greatly.

Description

Multifunctional fire needle treatment device for dermatology department

Technical Field

The invention relates to the technical field of skin treatment, in particular to a multifunctional fire needle treatment device for dermatology.

Background

The fire needle therapy is widely applied in the last thousand years of clinical practice in China, the traditional fire needle is a method for treating diseases by needling a heated needle head on acupuncture points or affected parts, has the effects of warming channels and dispelling cold and clearing and activating the channels and collaterals, is mainly used for treating diseases such as rheumatism, arthritis, carbuncle, scrofula, certain skin diseases and the like in clinic, is further developed and highlighted along with the development of modern Chinese medical diagnosis and treatment, has a gradually enlarged treatment range and gradually increases the number of adaptive diseases;

the existing fire needle treatment method is that a doctor applies a needle by combining hand and eye with experience, the fire needle is cooled in the process of aligning the acupuncture point, the acupuncture point needs to be determined again when the fire needle is heated again, the treatment effect is poor, the efficiency is low, when the doctor performs the fire needle treatment, the penetration depth of the fire needle and the penetration density of the fire needle are different according to different patient conditions, the penetration depth of the traditional fire needle and the penetration density of the fire needle are judged by the doctor according to the self-feeling, the penetration depth and the penetration density of the fire needle have certain uncontrollable performance, and when the doctor aims at different acupuncture points or focuses, the doctor needs to adopt needles with different thicknesses, and the doctor is complex in changing the needles, wastes time and labor;

in view of the above, we provide a dermatological multifunctional fire needle treatment device to solve the above problems.

Disclosure of Invention

In view of the above situation, and in order to overcome the defects of the prior art, the invention provides a dermatological multifunctional fire needle treatment device, which can correspondingly adjust the density and depth of a needle according to different patient conditions, can automatically complete acupuncture on a focus of a patient according to the set depth of the needle, greatly lightens the workload of a doctor, and can carry out acupuncture treatment on different focuses of different patients by storing various fire needles of different models in the fire needle treatment device, so that the applicability of the fire needle treatment device is greatly improved.

The multifunctional fire needle treatment device for the dermatology department comprises a needle cylinder and is characterized in that a sliding rail arranged around an interval is installed in the needle cylinder in a coaxial rotating mode, a storage cylinder in vertical sliding fit with the sliding rail is connected in the sliding rail through a telescopic spring, a plurality of fire needles vertically and slidably installed on the storage cylinder are arranged in the storage cylinder in the annular interval, a positioning device for positioning the fire needles is arranged in the storage cylinder, a heating device is arranged in the storage cylinder, a needle outlet valve is arranged on the bottom wall of the needle cylinder, a needle changing cover is installed on the top wall of the needle cylinder, a locking device for locking the storage cylinder is arranged in the sliding rail, an unlocking device for unlocking the locking device is arranged on the bottom wall of the needle cylinder, a L-shaped plate and a trigger plate are fixed on one side, away from the central axis of the needle cylinder, of the outer wall of the storage cylinder, a lower pressing plate matched with the trigger plate is fixed on the L-shaped plate, a lower pressing plate matched with the trigger plate is installed above the needle outlet valve, the needle outlet valve is connected with an arc-shaped plate arranged in the coaxial rotating mode through a transmission device, a shielding device matched with the arc-shaped plate and a first arc-shaped rack is connected to the lower pressing plate, so that the arc-shaped rack is connected to the first arc-shaped gear shaft and the first arc-shaped rack-shaped gear shaft and the first rack-shaped rack-;

when the locking device and the unlocking device are matched to enable the trigger plate and the lower pressing plate not to be contacted, the unlocking device already completes unlocking of the locking device, the arc-shaped plate opens the needle outlet valve through the transmission device connected with the arc-shaped plate when the storage cylinder rotates to the position right above the needle outlet valve, the pushing device is vertically and slidably mounted on the top wall of the needle cylinder corresponding to the needle outlet valve, the lower end face of the pushing device is fixed with a magnet, and an iron sheet is fixed on one side of the fire needle facing the pushing device.

Preferably, the cylinder up end rotates and installs slide rail frame and a plurality of the slide rail interval encircles and installs in the slide rail frame, and locking device includes that it is connected with the locking spring to follow Z shape pole and slide rail frame on the slide rail of cylinder diameter direction slidable mounting, Z shape frame is arranged in the outer one end of slide rail and is installed the arc arch with the coaxial axle center setting of cylinder, be equipped with on the storage tube with Z shape pole matched with locking hole, unlocking device includes fixed mounting on the cylinder diapire and with the protruding matched with unlocking plate of arc.

Preferably, be fixed with the equidistance on the cylinder diapire with the axle center and encircle and be provided with a plurality of reference columns, it is a plurality of in location base and the location base equidistance the reference column is installed jointly and is connected with the positioning spring between plectane and the location base in vertical slidable mounting in the location base, be equipped with on the slide rail frame with reference column matched with locating hole, reference column head one end carries out radius angle and handles and slide rail quantity is half of reference column quantity.

Preferably, the needle cylinder inner wall is located needle valve top fixed mounting and has the supporting plate and hold-down plate fixed mounting terminal surface under the supporting plate, shelter from the device and include along needle cylinder diameter direction respectively slidable mounting in trigger plate, L baffle and baffle respectively with it corresponding trigger plate, L between the board be connected with reset spring, transmission includes L shape pole and L shape pole lower extreme be connected with the second arc rack that is connected with the arc, second arc rack meshing has the rotation to install in the drive gear of needle cylinder diapire and drive gear through worm gear drive arrangement drive needle valve.

Preferably, be equipped with a slide cylinder with the corresponding position an organic whole of needle valve on the cylinder roof, thrustor includes the push pedal of vertical slidable mounting in the slide cylinder, be equipped with the through-hole with fire needle matched with on the push pedal, be equipped with the arc dog with through-hole matched with on the push pedal, the arc dog is connected with the elastic telescopic rod of fixing on the push pedal and makes the arc dog can slide along push pedal diameter direction under elastic telescopic rod's cooperation, be equipped with adjusting device and this adjusting device in the push pedal and can drive corresponding arc dog and remove and then shelter from corresponding through-hole along push pedal diameter direction according to the demand.

Preferably, the top push pedal up end is connected with the round bar with axle center an organic whole, and adjusting device includes with the round bar with axle center setting and with round bar screw-thread fit's regulation pole, the axle center rotation of round bar below is installed connecting rod and is adjusted between the pole axial sliding fit installation, the connecting rod is connected with it and sets up and arrange the outer first ring of round bar in with the axle center through the connecting rod, encircle on the first ring install with the first regulating block of arc dog complex and be located and be fixed with the second regulating block between the adjacent two first regulating blocks, second regulating block quantity is half of first regulating block.

Preferably, a second ring is vertically and slidably mounted in the sliding cylinder, a meshed pushing gear is rotatably mounted on the second ring, one of the pushing gears is driven by a pushing motor, the two pushing gears are connected with a rapid reciprocating driving device arranged on the ring through a belt pulley group, and the circular rod can be driven to vertically move rapidly in a reciprocating manner through the rapid reciprocating driving device under the driving of the pushing motor.

Preferably, quick reciprocating drive device installs the pivot on the second ring including rotating, the inherent a plurality of sector gear of vertical spacer sleeve in the pivot, the round bar upper end has threaded section of thick bamboo and threaded section of thick bamboo excircle face to be equipped with the dentition with sector gear matched with through screw-thread fit, threaded section of thick bamboo rotates and installs in the slide barrel diapire, the outer one end of slide barrel is arranged in to the ring has the screw rod of rotation installation on the cylinder roof through screw-thread fit.

Preferably, go out the needle valve and install on the section of thick bamboo of rotating and rotating on the cylinder diapire including rotating and be provided with a plurality of arc spacing grooves around the interval, sliding fit between sector plate and the adjacent sector plate lateral wall is installed to arc spacing inslot rotation, and is a plurality of terminal surface is provided with the annular clamp plate that is fixed in on the cylinder diapire with the axle center in sector plate lower extreme and the rotation section of thick bamboo diapire sliding fit and the rotation section of thick bamboo, annular clamp plate lower extreme and sector plate sliding fit, it is connected with worm gear transmission to rotate a section of thick bamboo.

Preferably, the heating device includes: a heating cylinder matched with the fire needle is arranged in the storage cylinder, and a heating wire is arranged in the heating cylinder and connected with an external power supply.

The beneficial effects of the technical scheme are as follows:

(1) the multifunctional fire needle treatment device for the dermatology department can correspondingly adjust the density and the depth of the needle according to different illness states of patients, and can automatically complete the acupuncture on the focus of the patients according to the set depth of the needle, thereby greatly reducing the workload of doctors;

(2) in the scheme, when the fire needle treatment device is not used, the needle cylinder can be sealed through the needle outlet valve arranged at the bottom of the needle cylinder, so that external dust is prevented from entering the needle cylinder, the fire needles in the storage cylinder are prevented from being polluted, and in the process that the storage cylinder rotates to a working position (a position right above the needle outlet valve) from a standby position, the storage cylinder can be moved downwards (so that the fire needles in the storage cylinder are further close to the focus of a patient) and the needle outlet valve is opened, namely, the preparation work before acupuncture on the patient is completed;

(3) when specifically using, the doctor only needs to place the valve of going out the needle in patient's focus position department, then the doctor is holding the handrail, and patient's limbs are fixed to another hand, selects corresponding acupuncture density according to patient's the state of an illness, carries out acupuncture treatment to patient's focus position through quick reciprocating drive device drive fire needle afterwards, whole process easy operation, convenient, can extensively use widely.

Drawings

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

FIG. 2 is a bottom view of the overall structure of the present invention;

FIG. 3 is a schematic view of the syringe according to the present invention, partially cut away, showing the inner structure thereof;

FIG. 4 is a schematic view of the relationship between the storage cylinder and the slide rail according to the present invention;

FIG. 5 is a schematic view of the connection between the needle valve and the worm gear of the present invention;

FIG. 6 is a schematic view of the heating cartridge of the present invention rotated to a position directly above the needle outlet valve;

FIG. 7 is a schematic view of the trigger plate just contacting the lower platen according to the present invention;

FIG. 8 is a schematic view of another perspective of the present invention showing the heating cartridge rotated to a position directly above the needle outlet valve;

FIG. 9 is a schematic view of the needle valve of the present invention;

FIG. 10 is a schematic view of the needle valve of the present invention shown separated from the annular pressure plate;

FIG. 11 is a schematic view of a heating cartridge according to the present invention with a partially cut-away internal structure;

FIG. 12 is a schematic view of the sliding track of the present invention partially cut away and cooperating with the storage cylinder;

FIG. 13 is an enlarged view of the structure at A of the present invention;

FIG. 14 is a schematic view of the slide rail frame separated from the positioning base according to the present invention;

FIG. 15 is a schematic view of the internal structure of the sliding barrel of the present invention, partially in section;

FIG. 16 is a schematic view of the relationship between a plurality of first adjusting blocks, a plurality of second adjusting blocks and an arc-shaped block according to the present invention;

FIG. 17 is a schematic cross-sectional view of the elastic telescopic rod of the present invention;

FIG. 18 is a schematic view of the fast reciprocating drive of the present invention;

FIG. 19 is a schematic view of the present invention with the adjustment rod, the connecting rod and the round rod separated;

FIG. 20 is a cross-sectional view of the lower end of the round bar showing the internal structure of the round bar according to the present invention;

FIG. 21 is a schematic bottom view of the pushing stop of the present invention;

FIG. 22 is a schematic view of the engagement between the threaded cylinder and the rotating rod according to the present invention.

Detailed Description

The foregoing and other technical matters, features and effects of the present invention will be apparent from the following detailed description of the embodiments with reference to the accompanying drawings, in which reference is made to the accompanying drawings.

Embodiment 1, this embodiment provides a dermatology department multifunctional fire needle 5 treatment device, as shown in fig. 3, a plurality of slide rails 2 are coaxially and rotatably installed in a needle cylinder 1, and a storage cylinder 4 which is vertically and slidably matched with the slide rails 2 is connected in the slide rails 2 through a telescopic spring 3 (as shown in fig. 12, fire needles 5 with different thickness specifications are placed in each storage cylinder 4 (as shown in fig. 11, the fire needles 5 are composed of a needle handle 7 and a needle head 6), and we use fire needles 5 with different thickness to perform acupuncture treatment according to different patient conditions), a plurality of fire needles 5 which are vertically and slidably installed in the storage cylinder 4 are arranged in the storage cylinder 4 at intervals, and a positioning device for positioning the fire needles 5 is arranged in the storage cylinder 4 (when the fire needles 5 in the storage cylinder 4 are not used, the positioning device is positioned as shown in fig. 11, that is, the needle head 6 is completely positioned in the storage cylinder 4), when acupuncture treatment needs to be performed on a patient, the heating device arranged in the storage cylinder 4 is used for heating the fire needle 5, and acupuncture is performed on the focus of the patient after the condition of the patient is heated to a certain temperature;

referring to fig. 2, a needle outlet valve is arranged on the bottom wall of the needle cylinder 1, and a needle changing cover 8 is arranged on the top wall of the needle cylinder 1 (the needle changing cover 8 is in threaded fit with the top wall of the needle cylinder 1, as shown in fig. 1, when the fire needles 5 in the storage cylinder 4 need to be changed and cleaned, the needle changing cover 8 is screwed off, then the storage cylinder 4 needing to be changed with the fire needles 5 is rotated to a position right below the needle changing cover 8, the fire needles 5 vertically and slidably arranged in the storage cylinder 4 are taken out and changed upwards, when the fire needles 5 are taken out upwards by force, the positioning device loses the positioning effect on the fire needles 5, and when a new fire needle 5 is put into a specific position of the storage cylinder 4 again, the positioning device can position the fire needles 5 again);

initially, when the fire needle 5 treatment device is not used, the positions of the storage cylinders 4 in the needle cylinder 1 are in a state as shown in fig. 3, at this time, the needle handles 7 are spaced apart from the upper end surface of the needle cylinder 1, and the storage cylinders 4 are also spaced apart from the bottom wall of the needle cylinder 1, and locking of the storage cylinders 4 is achieved by a locking device arranged in the slide rail 2 (so that the storage cylinders 4 are kept in a standby position), referring to fig. 3, we fix L plates 9 and L plates 9 on the outer wall of the storage cylinders 4 on the side away from the central axis of the needle cylinder 1 (the trigger plate 10 is arranged in a circular arc shape and arranged coaxially with the needle cylinder 1, and we carry out a circular arc on the upper end surface of the trigger plate 10 as shown in fig. 7), referring to fig. 8, we install a lower pressing plate 11 matched with the trigger plate 10 on the inner wall of the needle discharge valve on the inner wall of the needle cylinder 1 (we set the lower pressing plate 11 into a circular arc shape and arranged coaxially with the needle discharge valve 1 and also set up with the lower pressing plate 11 and arranged with the lower end of the circular arc-down corner of the lower pressing plate 11 as shown in a circular arc-shaped plate 12 when we connect with the arc-shaped gear 12 on the first shielding device, and the first arc-shaped gear 12, and the first device is connected with a first shielding device 12, and the first arc-shielding device 12 is connected to shield the first arc-shaped plate 12, and the first arc-12 on the first arc-shaped device, and the first arc-shaped device 12, and the first arc-shaped device 14;

when we need to perform acupuncture treatment on a patient, we rotate the slide rail 2 and make the corresponding storage cylinder 4 rotate to be right above the needle outlet valve (i.e. working position), when several storage cylinders 4 are in standby position, the trigger plate 10 fixedly mounted on the side wall of the storage cylinder 4 is not in contact with the lower press plate 11, when we rotate the slide rail 2 and drive the storage cylinder 4 to rotate in the needle cylinder 1, even if it is rotated from standby position to be right above the needle outlet valve, the locking device arranged on the slide rail 2 first contacts with the unlocking device fixed on the bottom wall of the needle cylinder 1, and the unlocking device locks the storage cylinder 4 under the action of the unlocking device, then we continue to rotate the slide rail 2, when the trigger plate 10 is not in contact with the lower press plate 11, the arc plate 12 slidably mounted in the arc groove 13 already abuts against the shielding device and is under the blocking of the shielding device, the arc plate 12 starts to rotate along the arc groove 13 and makes the coil spring 16 start to store energy under the action of axial force, so as to rotate to the position as to be rotated to be the position as shown in fig. 7, when the trigger plate 10 fixedly mounted on the arc plate 4 is in the cylinder 4 and the cylinder 4 is in the cylinder 4, when the cylinder 4 is in the cylinder 4, the cylinder 4, the cylinder is in the cylinder, when the cylinder 4 is in the cylinder, the cylinder 4 is in the cylinder, the cylinder 4, the cylinder 4 is in the cylinder, the cylinder 4, the cylinder 4 is in the cylinder, the cylinder;

referring to the attached drawing 2, a pushing device is vertically and slidably mounted on the top wall of the needle cylinder 1 at a position corresponding to the needle outlet valve, a magnet is fixed on the lower end face of the pushing device, an iron sheet is fixed on one side of the fire needle 5 facing the pushing device (namely, the upper end of the needle handle 7), the fire needle 5 in the corresponding storage cylinder 4 can be heated by a heating device in advance according to needs, when the fire needle 5 is heated to a specific required temperature, the preparation work before acupuncture treatment of a patient is carried out, namely, the storage cylinder 4 is rotated to a position right above the needle outlet valve (at the moment, the storage cylinder 4 is positioned right below the pushing device), the needle outlet valve is completely opened, at the moment, the pushing device is moved downwards to drive a plurality of fire needles 5 vertically and slidably mounted in the storage cylinder 4 to move downwards (the lower end face of the pushing device is abutted against the upper end face of the needle handle 7), further, the fire needles 5 extend out of the storage cylinder 4 and extend out of the needle cylinder 1 (penetrate to the focus position of a patient) through needle outlet valves arranged on the bottom wall of the needle cylinder 1, so that acupuncture treatment on the focus position of the patient is realized, corresponding acupuncture depths are selected according to different focuses of the patient, when the fire needles 5 penetrate into the focus of the patient to corresponding depths, the fire needles 5 are quickly moved upwards through the pushing device and are synchronously driven to move upwards, and then the fire needles 5 are driven to withdraw from the focus position of the patient (when the pushing device moves upwards, iron sheets fixed on the needle handle 7 are attracted by a magnet to drive the fire needles 5 to be pulled out of the focus of the patient), and then the process is continuously repeated, namely, the acupuncture process is repeated for multiple times, so that the acupuncture treatment on the focus position of the patient is realized;

after the acupuncture treatment of the patient is completed, the pushing device is reset to the initial position, the fire needles 5 vertically and slidably mounted in the storage cylinder 4 are positioned by the positioning device again, then the sliding rail 2 continues to rotate, the shielding device is opened under the action of the arc plate 12 and the arc plate 12 passes through the shielding device, then the arc plate 12 slides along the arc groove 13 under the action of the coil spring 16 to slide to the initial position (namely, slides to one end, far away from the coil spring 16, in the process that the arc plate 12 slides to the initial position along the arc groove 13, the arc plate 12 drives the needle outlet valve to close through a transmission device connected with the arc plate 12), and meanwhile, the highest position of the trigger plate 10 is not contacted with the lowest position of the lower press plate 11 any more, at the moment, the storage cylinder 4 starts to move upwards along the sliding rail 2 under the action of the telescopic spring 3, when the storage cylinder 4 moves up to the initial position, it is positioned again by the positioning device arranged on the slide rail 2.

Embodiment 2, on the basis of embodiment 1, referring to fig. 4, a slide rail frame 17 is rotatably mounted on the upper end surface of a needle cylinder 1, a plurality of slide rails 2 are mounted on the slide rail frame 17 in a surrounding manner at intervals, referring to fig. 12, a locking device comprises a Z-shaped rod 18 slidably mounted on the slide rails 2 along the diameter direction of the needle cylinder 1, a locking spring 19 is connected between the Z-shaped rod 18 and the slide rail frame 17, referring to fig. 11, a storage cylinder 4 is provided with a locking hole 21 matched with the Z-shaped rod 18, referring to fig. 8, the unlocking device comprises an unlocking plate 22 fixedly mounted on the bottom wall of the needle cylinder 1 near the needle outlet valve and matched with an arc-shaped protrusion 20 (when the unlocking plate 22 is arranged, the position of the unlocking plate 22 is partially overlapped with the rotating path of the arc-shaped protrusion 20), initially, when a plurality of storage cylinders 4 are in the standby position, the arc-shaped protrusion 20 is not contacted with the unlocking plate, when the slide rail frame 17 is rotated to move the storage barrel 4 from the standby position to the working position, the arc-shaped protrusion 20 abuts against the unlocking plate 22 and moves the arc-shaped protrusion 20 towards the direction close to the central axis of the needle barrel 1 along the diameter direction of the needle barrel 1 under the action of the unlocking plate 22, so that the Z-shaped rod 18 connected with the arc-shaped protrusion is withdrawn outwards from the locking hole 21 arranged on the storage barrel 4 and compresses the locking spring 19 (so that energy is stored in the locking spring), when the unlocking plate 22 is arranged, the unlocking plate 22 is also coaxially arranged with the needle barrel 1 and the unlocking plate 22 is kept at a certain length, that is, when the trigger plate 10 fixed on the storage barrel 4 is not contacted with the lower pressing plate 11 fixed on the inner wall of the needle barrel 1, the arc-shaped protrusion 20 always abuts against the unlocking plate 22 and the Z-shaped rod 18 is always outside the locking hole 21, when the lower pressing plate 11 contacts the trigger plate 10, the storage cylinder 4 starts to move down along the sliding rail 2 at the moment, so that the locking hole 21 moves down synchronously, at the moment, the locking hole 21 no longer corresponds to the Z-shaped rod 18, at the moment, the arc-shaped protrusion 20 no longer contacts the unlocking plate 22 and drives the Z-shaped rod 18 to abut against the outer wall of the storage cylinder 4 under the action of the locking spring 19, and when the storage cylinder 4 moves upwards to the initial position under the action of the telescopic spring 3, namely, the locking hole 21 corresponds to the Z-shaped rod 18, the Z-shaped rod 18 is inserted into the locking hole 21 again to lock the storage cylinder 4.

Embodiment 3, on the basis of embodiment 2, referring to fig. 3, a positioning base 23 is coaxially fixed on the bottom wall of the needle cylinder 1, and a plurality of positioning columns 24 are equidistantly and circumferentially arranged in the positioning base 23 (as shown in fig. 14), the plurality of positioning columns 24 are jointly installed on a circular plate 25 which is vertically and slidably installed in the positioning base 23, and a positioning spring 26 is connected between the circular plate 25 and the positioning base 23, referring to fig. 14, a positioning hole 27 which is matched with the positioning column 24 is arranged on the slide rail frame 17, one end of the head of the positioning column 24 is chamfered, and the number of the slide rails 2 is half of the number of the positioning columns 24 (the plurality of positioning columns 24 are equidistantly and circumferentially arranged around the positioning base;

referring to fig. 3, we drive several storage cylinders 4 to rotate in the syringe 1 by rotating the slide rail frame 17, so the number of the positioning columns 24 is twice as large as that of the slide rails 2 (in this embodiment we set five storage cylinders 4 and the number of the positioning columns 24 is ten (five of them are used for positioning the storage cylinders 4 in standby, and the other five are used for positioning the storage cylinders 4 in working), and the number of the storage cylinders 4 can be selected according to the use requirement when setting specifically), so that when several storage cylinders 4 are in standby position, the positioning columns 24 are inserted into the positioning holes 27 arranged on the slide rail frame 17 to position the slide rail 44 frame, when we finish the acupuncture treatment to the patient or the device is not used, we rotate the slide rail frame 17 to insert the other five positioning columns 24 used for standby of the storage cylinders 4 into the positioning holes 27, the positioning effect of the rack of the sliding rods 44 is realized, and the arrangement is such that when a plurality of storage cylinders 4 are positioned at the standby position, the trigger plate 10 fixedly mounted on the side wall of the storage cylinder 4 is not in contact with the lower pressing plate 11 and the unlocking plate 22 is not in contact with the arc-shaped protrusions 20.

Embodiment 4, on the basis of embodiment 1, referring to fig. 6, a supporting plate 28 is fixedly installed on the inner wall of the syringe 1 above the needle outlet valve, and a lower pressing plate 11 is fixedly installed on the lower end surface of the supporting plate 28 (the arc-shaped groove 13 is disposed on the supporting plate 28, and the first gear 15 is rotatably installed on the supporting plate 28), referring to fig. 11, the shielding device includes shielding plates 29 respectively slidably installed on the trigger plates 10 and L along the diameter direction of the syringe 1, and the shielding plates 29 are respectively connected with corresponding trigger plates 10 and L (as shown in fig. 12), we set the matching portions of the two shielding plates 29 with a radius, and also set the radius at one end of the head of the arc-shaped plate 12, and the two return springs 30 are mutually matched with the two shielding plates 29, so that when the rounding portion of the arc-shaped plate 12 is rounded at the rounding portion of the two shielding plates 29, the two shielding plates 29 mutually matched can drive the arc-shaped plate 12 to rotate along the arc-shaped groove 13 under the action of the return spring 30, and when the arc-shaped plate 12 acts on the arc-shaped plate 12 and drives the shielding plate to rotate along the rounding portion of the arc-shaped groove 29, and the other end of the needle outlet valve to rotate to the needle outlet valve, and then to overcome the elastic force of the needle outlet valve, and the needle outlet valve 13, and the needle outlet valve, and then to continue to rotate along the needle outlet valve 12, and the needle outlet valve 13, and the needle outlet valve (when the needle outlet valve 13 when;

when the acupuncture treatment is completed, we continue to rotate the slide rail bracket 17 and further drive the storage to continue to rotate, since the two shielding plates 29 cannot continue to drive the arc plate 12 to rotate along the arc groove 13, then the two return springs 30 cannot overcome the acting force between the arc plate 12 and the two shielding plates 29 at this time, the arc plate 12 starts to force the two shielding plates 29 to contract into the L-shaped plate 9, the trigger plate 10 (at this time, the two shielding plates 29 are opened) and compress the return springs 30 (the rounding angle position of the arc plate 12 acts on the rounding angle position of the two shielding plates 29), so that the arc plate 12 crosses the two shielding plates 29, at this time, the arc plate 12 starts to rotate along the arc groove 13 towards the initial position under the action of the coil spring 16, and finally rotates to the initial position to stop rotating, and after the arc plate 12 completely crosses the two shielding plates 29, the two shielding plates 29 are closed together again under the action of the return springs 30 (as shown in fig. 11.

Embodiment 5, on the basis of embodiment 1, as shown in fig. 15, a sliding cylinder 39 is integrally arranged on the top wall of a needle cylinder 1 at a position corresponding to a needle outlet valve, a pushing device comprises a pushing plate 40 vertically slidably arranged in the sliding cylinder 39, the pushing plate 40 is provided with through holes 41 matched with fire needles 5 (as shown in fig. 11, a plurality of fire needles 5 are arranged in a storage cylinder 4 at equal intervals in a surrounding manner), a plurality of cylinders 67 vertically slidably matched with a needle handle 7 are integrally arranged on the bottom wall of the storage cylinder 4, only vertical sliding and relative rotation can be generated between the needle handle 7 and the cylinders 67, as shown in fig. 13, a positioning device comprises clamping columns 68 axially slidably arranged in the cylinders 67 and connected with the clamping columns 69, the needle handle 7 is provided with clamping holes 70 matched with the clamping columns 68, when the fire needles 5 are positioned in the storage cylinder 4 as shown in fig. 11 (at this time, the fire needles 5 are completely positioned in the storage cylinder 4), when the fire needle 5 in the storage cylinder 4 needs to be replaced, the sliding rail 2 only needs to be rotated, the corresponding storage cylinder 4 is rotated to the position right below the needle replacing cover 8, the needle handle 7 is pulled upwards manually, the clamping column 68 inserted into the clamping hole 70 is forced to withdraw from the clamping hole 70, the effect of taking the fire needle 5 out of the storage cylinder 4 is further achieved, and when a new fire needle 5 is inserted into the corresponding position in the storage cylinder 4, the clamping column 68 is inserted into the clamping hole 70 again, so that the fire needle 5 is positioned;

referring to fig. 16, an arc-shaped stopper 42 matched with the through hole 41 is arranged on the push plate 40 (the through hole 41 at the central position of the push plate 40 does not need to be provided with the arc-shaped stopper 42, so that six arc-shaped stoppers 42 are arranged in the present embodiment), the arc-shaped stopper 42 is connected with an elastic telescopic rod 43 fixed on the push plate 40, and the arc-shaped stopper 42 can slide along the diameter direction of the push plate 40 under the matching of the elastic telescopic rod 43, as shown in fig. 17, the elastic telescopic rod 43 comprises a sliding rod 44 installed in a sliding fit manner, a telescopic cylinder 45 is connected between the sliding rod 44 and the telescopic cylinder 45, an adjusting device is arranged on the push plate 40 and can drive the corresponding arc-shaped stopper 42 to move along the diameter direction of the push plate 40 according to requirements (the connecting spring 46 is compressed to store energy, when the adjusting block is no longer contacted with the arc-shaped stopper 42, the arc-shaped stopper 42 moves along the Position) thereby shelters from corresponding through-hole 41, when corresponding through-hole 41 was sheltered from, the fire needle 5 that corresponds with this through-hole 41 just pierces to patient's focus position department under the effect of ejector plate 40 this moment, the fire needle 5 that the through-hole 41 that is not sheltered from by arc dog 42 corresponds then passes ejector plate 40 and stays in storage cylinder 4 to realize the control to the density of acupuncture at patient's focus position, can be according to the difference of patient's state of an illness and the corresponding density of selecting acupuncture, make the device flexibility improve greatly.

Embodiment 6, on the basis of embodiment 5, referring to fig. 19, a circular rod 47 is integrally connected to the upper end surface of the top push plate 40 coaxially with the center of the axis (referring to fig. 15, the circular rod 47 integrally connected to the top push plate 40 can only move vertically in the slide cylinder 39 but cannot rotate relative to the slide cylinder 39), the adjusting device includes an adjusting rod 48 coaxially arranged with the circular rod 47 and in threaded fit with the circular rod 47, referring to fig. 20, a connecting rod 49 is rotatably mounted coaxially below the circular rod 47 and in axial sliding fit with the adjusting rod 48, the connecting rod 49 is connected via a connecting rod 75 to a first circular ring 50 coaxially arranged outside the circular rod 47, referring to fig. 16, first adjusting blocks 51 matched with the arc-shaped stoppers 42 are mounted on the first circular ring 50 at equal intervals and a second adjusting block 52 is fixed between two adjacent first adjusting blocks 51, the number of the second adjusting blocks 52 is half of that of the first adjusting blocks 51, and the sides of the first adjusting blocks 51 and the second adjusting blocks 52 facing the round rod 47 are both arc-shaped;

in this embodiment, we have seven fire needles 5 in the storage cylinder 4, and referring to fig. 21, we have seven through holes 41 corresponding to the fire needles 5 on the pushing plate 40, and how many fire needles 5 in the storage cylinder 4 can be selected according to actual needs, and it is worth noting here that: in the present scheme, since the upper end surface of the top pushing plate 40 is coaxially fixed with the integrally connected round rod 47, the through hole 41 located at the central position of the top pushing plate 40 is always shielded by the lower end surface of the round rod 47 (if none of the six through holes 41 circumferentially arranged at equal intervals are shielded by the arc-shaped stopper 42), that is, it means that the fire needle 5 treatment device in the present scheme performs acupuncture treatment on the focus position of the patient at least one fire needle 5 at each time (at this time, the acupuncture density on the focus position of the patient is minimum), when we need to adjust the acupuncture density on the focus position of the patient (select the corresponding acupuncture density according to the condition of the patient), we rotate the adjusting rod 48 which is in threaded fit with the round rod 47 (at this time, the adjusting rod 48 vertically moves in the round rod 47) to further drive the connecting rod 49 axially slidably fitted with the adjusting rod 48 to rotate in the round rod 47 (as shown in figure 20), referring to fig. 16, a slotted hole matched with a connecting rod 75 is formed in the bottom of a round rod 47, so that a connecting rod 49 rotates in the round rod 47, and simultaneously drives a first circular ring 50 to rotate through the connecting rod 75, and then a corresponding breathing stop block is forced to move through a first adjusting block 51 and a second adjusting block 52 fixed on the first circular ring 50, so that through holes 41 with different numbers are shielded;

in an initial state, that is, when none of the six through holes 41 is blocked, as shown in fig. 16, when in specific use, the adjusting rod 48 is rotated to drive the first circular ring 50 to rotate along the counterclockwise direction as shown in fig. 16, and then the first adjusting blocks 51 fixed on the first circular ring 50 force the arc-shaped stop block 42 to move towards a position close to the circular rod 47, so that all of the six through holes 41 are blocked, and at this time, if the pushing plate 40 is moved downwards, all of the seven fire needles 5 can be driven to puncture a focus of a patient, so that acupuncture treatment with a high density is realized;

when we drive the first ring 50 to rotate clockwise as shown in fig. 16 by rotating the adjusting rod 48, that is, the corresponding arc-shaped stop block 42 is forced to move towards the direction close to the round bar 47 by the three second adjusting blocks 52 fixed on the first ring 50, at this time, only three of the six through holes 41 arranged at equal intervals around are shielded, that is, at this time, if the pushing plate 40 is moved downwards, the four fire needles 5 can be driven to prick the focus of the patient, so as to realize the medium-density acupuncture treatment;

the magnets are fixedly arranged on the lower end face of each arc-shaped stop block 42, the lower end face of each magnet is kept flush with the lower end face of the arc-shaped stop block 42, one magnet is fixedly arranged on the top wall of the through hole 41 positioned in the central position of the push plate 40, the lower end face of each magnet is kept flush with the top wall of the through hole 41, when the push plate 40 moves downwards and is in contact with the needle handle 7, the arc-shaped stop blocks 42 abut against the upper end face of the needle handle 7 to drive the fire needle 5 to move downwards and pierce the focus part of a patient, when the push plate 40 moves upwards, the iron sheet fixed on the upper end face of the needle handle 7 is attracted by the magnets to drive the fire needle 5 to be pulled out of the focus part, so that when the fire needle 5 moves upwards to the initial position, the positioning device realizes the positioning of the fire needle 5 again, and the magnetic force of the magnets fixed on the push plate, thereby separating the fire needle 5 from the ejector plate 40.

Embodiment 7, on the basis of embodiment 6, referring to fig. 15, a second ring 53 is vertically and slidably installed in a sliding cylinder 39, and meshed pushing gears 54 are rotatably installed on the second ring 53, one of the pushing gears 54 is driven by a pushing motor 55, the two pushing gears 54 are connected to a fast reciprocating driving device installed on the ring through a pulley set 74, the two mutually meshed pushing gears 54 are driven to rotate by the pushing motor 55, and then the fast reciprocating driving device is driven by the pulley set 74 to drive a round rod 47 to rapidly reciprocate in the vertical direction, the pushing motor 55 is controlled by a controller of the pushing motor 55 to drive the pushing gears 54 to rotate for a circle, and then the pushing motor 55 stops working (the motor controller is an integrated circuit which actively controls the motor to work according to a set direction, speed, angle and response time), when a storage cylinder 4 storing fire needles 5 with corresponding thickness specifications is adjusted to be right above a needle outlet valve and corresponding needling density is selected, a pushing motor 55 is controlled to start working, a round rod 47 (namely a pushing plate 40) is driven to rapidly move downwards through a rapid reciprocating driving device so as to drive a plurality of fire needles 5 to carry out needling on a focus part of a patient, after the fire needles 5 are inserted into the focus part of the patient, the rapid reciprocating driving device drives the round rod 47 to rapidly move upwards, so that the fire needles 5 inserted into the focus part are rapidly pulled out of the focus part, and the effect of needling treatment on the focus part of the patient is achieved;

the pushing motor 55 is controlled by the motor controller to start at regular intervals, that is, the pushing motor 55 starts to drive the pushing gear 54 to rotate for a circle, then stops working and starts again at regular intervals (the time interval is satisfied that the fire needle 5 is pulled out from the focus position of the patient, then contracts into the storage cylinder 4 again and is heated again by the heating device to the required temperature, then the pushing motor 55 starts to work), and the round rod 47 is continuously driven to do rapid reciprocating movement in the vertical direction and repeat the above actions, so that the fire needle 5 is driven to rapidly puncture the focus position at regular intervals and is not rapidly pulled out from the focus position (the fire needle treatment disease treatment is rapidly pulled out).

Embodiment 8, on the basis of embodiment 7, referring to fig. 15, the fast reciprocating driving device includes two rotating shafts 56 (two rotating shafts 56, as shown in fig. 18) rotatably mounted on the second ring 53, a plurality of sector gears 57 are fixed to a vertical spacer on each rotating shaft 56 (in this embodiment, three sector gears 57 are fixed to the vertical spacer, and the central angle corresponding to the arc surface of each sector gear 57 is different), that is, three sets of sector gears 57 are fixed to two rotating shafts 56 respectively, each set of sector gears 57 can be matched with each other to drive the round rod 47 to make fast reciprocating movement in the vertical direction (to drive the fire needle 5 to quickly penetrate), in this embodiment, the distances for driving the round rod 47 to make reciprocating movement in the vertical direction are different by setting three sets of sector gears 57, the sector gear 57 with the larger central angle drives the round rod 47 to make the largest distance range for vertical movement, otherwise, the smaller the size is, the different depths of the fire needle 5 which is driven to penetrate into the focus part of the patient are realized, so that the penetration depth of the fire needle 5 can be correspondingly selected according to the illness state of the patient;

in specific use, referring to fig. 15, a threaded cylinder 58 rotatably mounted on the top wall of the sliding cylinder 39 is rotatably mounted at the upper end of the round rod 47 through threaded fit, a rotating rod 73 fixed to the top wall of the sliding cylinder 39 is rotatably mounted on the upper end surface of the threaded cylinder 58 (i.e., the threaded cylinder 58 can only rotate and cannot move vertically), as shown in fig. 22, a tooth system 59 matched with the sector gear 57 is arranged on the outer circumferential surface of the threaded cylinder 58, and the second ring 53 is driven to vertically move in the sliding cylinder 39 by rotating the screw 60, so that different groups of sector gears 57 are driven to be matched with the threaded cylinder 58, and the fire needle 5 is driven to penetrate into a focus of a patient at different depths, so as to achieve a therapeutic effect, the two rotating shafts 56 are respectively arranged on two sides of the round rod 47, and when the pushing motor 55 drives the rotating shafts 56 to rotate, so that one sector gear 57 in one group is just separated from the threaded cylinder 58 (at this time, the sector gear 57 drives the threaded cylinder to The cylinder 58 rotates to drive the round rod 47 in threaded fit with the threaded cylinder 58 to move downwards to the lowest position), the other sector gear 57 just realizes the meshing with the threaded cylinder 58 (at the moment, the sector gear 57 starts to drive the round rod 47 in threaded fit with the threaded cylinder 58 to move upwards by driving the threaded cylinder 58), and the two pushing gears 54 rotate in opposite directions, so that the rotating directions of the two sector gears 57 in the same group are opposite, and further, when the different sector gears 57 in the same group are meshed with the threaded cylinder 58, the round rod 47 can be driven to ascend or descend, so that the effect of quickly inserting the fire needle 5 into a focus of a patient and quickly pulling the fire needle out is realized;

when setting up sector gear 57 and a thread section of thick bamboo 58, we are through setting up suitable gear drive ratio for when different group sector gear 57 cooperatees with a thread section of thick bamboo 58, can drive round bar 47 and drive push pedal 40 and then make fire needle 5 pierce the degree of depth that is different to patient's focus position, realize carrying out the effect of the acupuncture treatment of the different degree of depth to different state of an illness.

Embodiment 9, on the basis of embodiment 4, referring to fig. 5, the needle discharging valve includes a rotating cylinder 61 rotatably mounted on the bottom wall of the needle cylinder 1, referring to fig. 9, a plurality of arc-shaped limiting grooves 62 are formed on the bottom wall of the rotating cylinder 61 at intervals, the sector plates 63 are rotatably mounted in the arc-shaped limiting grooves 62 through shaft pins 72 fixedly connected with the sector plates 63, and side walls of adjacent sector plates 63 are in sliding fit, a plurality of lower end surfaces of the sector plates 63 are in sliding fit contact with the bottom wall of the rotating cylinder 61, and an annular pressing plate 64 (as shown in fig. 10) fixed on the bottom wall of the needle cylinder 1 is coaxially arranged in the rotating cylinder 61, so that the lower end surfaces of the annular pressing plate 64 are in sliding fit contact with the sector plates 63 when the annular pressing plate is arranged, the rotating cylinder 61 is connected with a worm gear, and when the worm gear drives the rotating cylinder 61 to rotate, the sector plates 63 can be gathered (the needle discharging valve is closed) towards the The center positions of the rotating cylinders 61 are dispersed (needle outlet valves are opened);

specifically, the worm and gear transmission device comprises a first worm 35 which coaxially rotates with the transmission gear 33, the first worm 35 is matched with a second worm wheel 36 which is rotatably installed on the bottom wall of the needle cylinder 1, the second worm wheel 36 coaxially rotates with a second worm 37, the second worm 37 is matched with a worm wheel rim 38 which is coaxially sleeved on the outer wall of the rotating cylinder 61, when the arc-shaped plate 12 rotates along the arc-shaped groove 13 in the direction close to the coil spring 16, the rotating cylinder 61 is driven to rotate through the worm and gear transmission device, so that the effect of opening the needle outlet valve is realized, when the arc-shaped plate 12 is not blocked by the shielding device any more, the arc-shaped plate 12 rotates along the arc-shaped groove 13 in the direction far away from the coil spring 16 under the action of the coil spring 16, and then the rotating cylinder 61 is driven to rotate in the opposite direction through the worm and further the effect of closing the needle outlet valve.

Embodiment 10, on the basis of embodiment 7, referring to fig. 11, the heating device includes a heating cylinder 65 disposed in the storage cylinder 4 and the fire needle 5, and a heating wire 66 is installed in the heating cylinder 65, the heating wire 66 is connected to an external power source, when an electrical loop of the heating wire 66 is connected to the external power source, the heating wire 66 starts to generate heat and heats the fire needle 5 located in the heating cylinder 65, and as for the heating temperature of the heating wire 66, the heating temperature of the heating wire 66 can be controlled by controlling the current flowing through the heating wire 66, so as to control the heating device to heat the fire needle 5 to different temperatures, so as to adapt to different conditions for treatment.

The multifunctional fire needle 5 treatment device for the dermatology department can correspondingly adjust the density and the depth of the needle according to different illness states of patients, and can automatically complete the acupuncture on the focus of the patients according to the set depth of the needle, thereby greatly reducing the workload of doctors, and the fire needles 5 with various different diameters and specifications are stored in the fire needle 5 treatment device, so that the acupuncture treatment can be carried out on different patients and different focuses, and the applicability of the fire needle 5 treatment device is greatly improved;

in the scheme, when the fire needle 5 treatment device is not used, the needle cylinder 1 can be sealed through the needle outlet valve arranged at the bottom of the needle cylinder 1, so that external dust is prevented from entering the needle cylinder 1 better, the fire needles 5 in the storage cylinder 4 are prevented from being polluted, and in the process that the storage cylinder 4 rotates from a standby position to a working position (a position right above the needle outlet valve), the storage cylinder 4 can move downwards (so that the fire needles 5 in the storage cylinder 4 are further close to the focus of a patient) and the needle outlet valve is opened, namely, the preparation work before acupuncture on the patient is completed;

when the needle-free needle tube is used specifically, a doctor only needs to place the needle outlet valve at the focus position of a patient, then the doctor holds the handrail 71 with one hand and fixes the limb of the patient with the other hand, corresponding needling density is selected according to the state of an illness of the patient, and then the fire needle 5 is driven by the rapid reciprocating driving device to carry out needling treatment on the focus position of the patient, so that the whole process is simple and convenient to operate and can be widely popularized and used The bacteria are infected to the cleaned focus part.

The above description is only for the purpose of illustrating the present invention, and it should be understood that the present invention is not limited to the above embodiments, and various modifications conforming to the spirit of the present invention are within the scope of the present invention.

Claims (10)

1. The multifunctional fire needle treatment device for the dermatology department comprises a needle cylinder (1), and is characterized in that a sliding rail (2) arranged around an interval is installed in the needle cylinder (1) in a coaxial rotating mode, the sliding rail (2) is connected with a storage cylinder (4) in vertical sliding fit with the sliding rail (2) through a telescopic spring (3), a plurality of fire needles (5) vertically and slidably installed on the storage cylinder (4) are arranged in the storage cylinder (4) in an annular rotating mode, a positioning device for positioning the fire needles (5) is arranged in the storage cylinder (4), a heating device is arranged in the storage cylinder (4), a needle outlet valve is arranged on the bottom wall of the needle cylinder (1) in a surrounding mode, a needle changing cover (8) is installed on the top wall of the needle cylinder (1), a locking device for locking the storage cylinder (4) is arranged in the sliding rail (2), an unlocking device for unlocking the locking device is arranged on the bottom wall of the needle cylinder (1), a rack locking device is arranged on the bottom wall of the needle cylinder (1), an L-shaped plate (9) is fixed on one side of the outer wall of the storage cylinder (4) far away from the central axis, a rack gear (12) is fixed with a trigger plate (12), a trigger plate (10) which is connected with a first arc-shaped plate (12), the rack gear device (12) is connected with a first arc-shaped plate (12), the rack device, the rack (12) is connected with the rack device, the rack (12) is connected with the rack (12), the rack device (12), the rack device, the rack (12) and the rack device (12), the rack device (12) is connected with a first rack device (12), the rack device (12);

a plurality of locking device cooperatees with unlocking device and makes trigger plate (10) and holding down plate (11) when not contacting yet, and unlocking device has accomplished locking device's unblock to arc (12) open the needle valve through the transmission device who is connected with it when storage cylinder (4) rotate to directly over the needle valve, it has thrustor and thrustor lower terminal surface to be fixed with magnet to have a vertical slidable mounting in needle valve corresponding position on syringe (1) roof, fire needle (5) are fixed with the iron sheet towards thrustor one side.

2. The dermatology department multifunctional fire needle treatment device according to claim 1, wherein the upper end face of the needle cylinder (1) is rotatably provided with a slide rail frame (17) and the slide rails (2) are installed on the slide rail frame (17) in a surrounding manner at intervals, the locking device comprises a Z-shaped rod (18) which is slidably installed on the slide rails (2) along the diameter direction of the needle cylinder (1), a locking spring (19) is connected between the Z-shaped rod (18) and the slide rail frame (17), the Z-shaped frame is arranged at one end outside the slide rails (2) and is provided with an arc-shaped protrusion (20) which is coaxially arranged with the needle cylinder (1), the storage cylinder (4) is provided with a locking hole (21) matched with the Z-shaped rod (18), and the unlocking device comprises an unlocking plate (22) which is fixedly installed on the bottom wall of the needle cylinder (1) and is matched with the arc-shaped protrusion.

3. The dermatology department multifunctional fire needle treatment device according to claim 2, wherein a positioning base (23) is coaxially fixed on the bottom wall of the needle cylinder (1), a plurality of positioning columns (24) are arranged in the positioning base (23) in an equidistant surrounding manner, the positioning columns (24) are jointly installed on a circular plate (25) which is vertically slidably installed in the positioning base (23), a positioning spring (26) is connected between the circular plate (25) and the positioning base (23), positioning holes (27) matched with the positioning columns (24) are formed in the slide rail frame (17), one end of the head portions of the positioning columns (24) is chamfered, and the number of the slide rails (2) is half of the number of the positioning columns (24).

4. The multifunctional fire needle treatment device for the dermatology department according to claim 1, wherein the supporting plate (28) is fixedly installed on the inner wall of the needle cylinder (1) above the needle outlet valve, the lower pressing plate (11) is fixedly installed on the lower end face of the supporting plate (28), the shielding device comprises a shielding plate (29) which is respectively slidably installed on the trigger plates (10) and L plates (9) along the diameter direction of the needle cylinder (1), a reset spring (30) is connected between the shielding plate (29) and the trigger plates (10) and L plates (9) corresponding to the shielding plate, the transmission device comprises a L-shaped rod (31) and a L-shaped rod (31) which are connected with the arc-shaped plate (12), the lower end of the second arc-shaped rod (32) is connected with a second arc-shaped rack (32), and the second arc-shaped rack (32) is meshed with a transmission gear (33) which is rotatably installed on the bottom wall of the needle cylinder (1) and the transmission gear.

5. The dermatological multifunctional fire needle treatment device according to claim 1, a sliding cylinder (39) is integrally arranged on the top wall of the needle cylinder (1) at the position corresponding to the needle outlet valve, the pushing device comprises a pushing plate (40) which is vertically and slidably arranged in the sliding cylinder (39), the top push plate (40) is provided with a through hole (41) matched with the fire needle (5), an arc-shaped stop block (42) matched with the through hole (41) is arranged on the pushing plate (40), the arc-shaped stop block (42) is connected with an elastic telescopic rod (43) fixed on the pushing plate (40) and the arc-shaped stop block (42) can slide along the diameter direction of the pushing plate (40) under the matching of the elastic telescopic rod (43), the ejector plate (40) is provided with an adjusting device which can drive the corresponding arc-shaped stop block (42) to move along the diameter direction of the ejector plate (40) according to requirements so as to shield the corresponding through hole (41).

6. The dermatological multifunctional fire needle treatment device according to claim 5, the upper end surface of the top push plate (40) is coaxially and integrally connected with a round rod (47), the adjusting device comprises an adjusting rod (48) which is coaxially arranged with the round rod (47) and is in threaded fit with the round rod (47), a connecting rod (49) is coaxially and rotatably arranged below the round rod (47), the connecting rod (49) and the adjusting rod (48) are axially and slidably arranged in a matching way, the connecting rod (49) is connected with a first circular ring (50) which is coaxial with the connecting rod (75) and is arranged outside the circular rod (47), first adjusting blocks (51) matched with the arc-shaped stop blocks (42) are arranged on the first circular ring (50) at intervals in a surrounding manner, and a second adjusting block (52) is fixed between every two adjacent first adjusting blocks (51), the number of the second adjusting blocks (52) is half of that of the first adjusting blocks (51).

7. The dermatologic multifunctional fire needle treatment device according to claim 6, wherein a second ring (53) is vertically slidably mounted in the sliding cylinder (39), and a pushing gear (54) engaged with the second ring (53) is rotatably mounted on the second ring (53), one of the pushing gears (54) is driven by a pushing motor (55), the two pushing gears (54) are connected with a fast reciprocating driving device arranged on the ring through a belt pulley set (74), and the driving of the pushing motor (55) can drive the round rod (47) to rapidly reciprocate in the vertical direction through the fast reciprocating driving device.

8. The dermatologic multifunctional fire needle treatment device according to claim 7, wherein the quick reciprocating driving device comprises a rotating shaft (56) rotatably mounted on a second circular ring (53), a plurality of sector gears (57) are vertically arranged on the rotating shaft (56) in a sleeved mode, a threaded cylinder (58) is in threaded fit at the upper end of the circular rod (47), a tooth system (59) matched with the sector gears (57) is arranged on the outer circular surface of the threaded cylinder (58), the threaded cylinder (58) is rotatably mounted on the bottom wall of the sliding cylinder (39), and a screw rod (60) rotatably mounted on the top wall of the needle cylinder (1) is rotatably mounted at one end, outside the sliding cylinder (39), of the circular ring in a threaded fit mode.

9. The multifunctional hot needle treatment device for the dermatology department according to claim 4, wherein the needle outlet valve comprises a rotating cylinder (61) rotatably mounted on the bottom wall of the needle cylinder (1) and a plurality of arc-shaped limiting grooves (62) are arranged on the bottom wall of the rotating cylinder (61) at intervals, a sector plate (63) and an adjacent sector plate (63) are rotatably mounted in the arc-shaped limiting grooves (62) in a sliding fit manner, a plurality of sector plates (63) are slidably fitted with the bottom wall of the rotating cylinder (61) and an annular pressing plate (64) fixed on the bottom wall of the needle cylinder (1) is coaxially arranged in the rotating cylinder (61), the lower end face of the annular pressing plate (64) is slidably fitted with the sector plate (63), and the rotating cylinder (61) is connected with a worm and gear transmission device.

10. The dermatological multifunctional fire needle treatment device according to claim 7, wherein the heating device comprises: a heating cylinder (65) matched with the fire needle (5) is arranged in the storage cylinder (4), and an electric heating wire (66) is arranged in the heating cylinder (65), wherein the electric heating wire (66) is connected with an external power supply.

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