CN112370656A - Operation handle of bioelectricity physiotherapy instrument - Google Patents

Abstract

The invention relates to the field of physiotherapy equipment, in particular to an operating handle of a bioelectricity physiotherapy instrument. The pulse generation assembly is electrically connected with the control switch, the fixing frame is fixedly arranged inside the shell, the pulse generation assembly is fixedly arranged at the front end of the shell, the middle of the fixing frame is provided with a through hole, the middle of the pulse generation assembly is provided with a negative pressure channel, and the negative pressure channel is communicated with the through hole. The negative pressure channel in the middle of the pulse generating assembly is matched with the channel to form an air path allowing air to pass through, negative pressure can be formed in the negative pressure channel by matching with the diaphragm pump, the pulse generating assembly is electrically operated by pressing the control switch to form low-frequency pulse current, the working area of the pulse generating assembly can be transferred by moving the shell, and the operation is simple, fast and efficient; under the cooperation of negative pressure condition, the skin contact effect of whole pulse generation subassembly and operating position is better, can not take place because the pulse generation subassembly breaks away from the pricking sense that skin surface produced, greatly increased the comfort level of pulse generation subassembly during operation.

Description

Operation handle of bioelectricity physiotherapy instrument

Technical Field

The invention relates to the field of physiotherapy equipment, in particular to an operating handle of a bioelectricity physiotherapy instrument.

Background

At present, the electronic pulse is used for stimulating nerves and muscles, so that not only can the absolute strength of the muscles be improved, but also more importantly, the speed strength of the muscles can be obviously improved; the aim of training muscle groups can be achieved with lower energy consumption; the effect of the electrical stimulation on the muscle group can keep the aftereffect; the testee has no obvious discomfort to the electrical stimulation and can be applied to exercise training; on the other hand, the low-frequency pulse current can simulate the brain wave of a human body, so that the muscle can be in various states of being massaged by the manipulations, the effects of massaging and relaxing the muscle and relieving fatigue are achieved, blood circulation can be promoted, metabolism is accelerated, and the massage device has great advantages compared with the traditional massage;

however, the bioelectricity physiotherapy instruments in the market all adopt two or more electrode plates, any aching and tired part on the body is massaged, when the massage position needs to be changed, the operation of the instrument needs to be suspended, the electrode plates are taken off from the skin surface of a massaged person and are attached to the latest massage position again, time and labor are wasted, and the working efficiency is low; on the other hand, because the electrode slice is not laminated completely when placing or because the electrode slice leads to ageing during operation, the laminating degree is not good will cause the electrode slice position to produce the tingling sensation, and this is very uncomfortable at the massage in-process, influences greatly by the experience comfort level of massage person.

Disclosure of Invention

The invention aims to solve the technical problem of providing an operation handle of a bioelectricity physiotherapy instrument, and solves the problems of low working efficiency and poor fitting effect of the traditional physiotherapy instrument.

The technical scheme for solving the technical problems is as follows: the utility model provides a bioelectricity physiotherapy equipment operating handle, includes casing, mount, pulse generation subassembly and control switch, the pulse generation subassembly with the control switch electricity is connected, the mount is fixed to be set up inside the casing, the pulse generation subassembly is fixed to be set up the front end of casing, the pulse generation subassembly with the connection can be dismantled to the mount, the through-hole has been seted up at the middle part on the mount, pulse generation subassembly middle part is provided with the negative pressure passageway, the negative pressure passageway with the through-hole intercommunication.

Further, still include electric heating element, electric heating element laminating sets up on the inboard surface of pulse generation subassembly, electric heating element with control switch electricity is connected.

Further, the mount rear side laminating is provided with the temperature control circuit board, the last fixed light pearl that is provided with of temperature control circuit board, the mount is made by the printing opacity material, the temperature control circuit board with the connection can be dismantled to the casing internal surface, the light pearl with the control switch electricity is connected.

Further, still include the display module, the display module sets up on the casing.

Further, display module includes display screen and control panel, the control panel is fixed to be set up inside the casing, the display screen inlays to be established on the casing.

Further, the mount rear side laminating is provided with temperature control circuit board, temperature sensor with control panel signal connects, fixed light pearl and the temperature sensor of being provided with on the temperature control circuit board, the mount is made by the printing opacity material, temperature control circuit board with the connection can be dismantled to the casing internal surface, the light pearl with the control switch electricity is connected, temperature sensor is used for detecting the temperature information of physiotherapy position.

Further, the light beads adopt monochromatic red light with the wavelength of 650nm and the output power of 1-5 mW.

Further, the pulse generation assembly comprises a threaded sleeve, a positive electrode and a negative plate, the positive electrode and the negative plate are electrically connected with the control switch, a wide-mouth-shaped negative pressure channel is arranged at the center of the positive electrode, the positive electrode is detachably connected with the fixing frame, the negative pressure channel is communicated with the fixing frame, and the threaded sleeve is arranged on the outer side of the positive electrode.

Further, the whole discoid structure that is of mount, the through-hole is seted up to the mount the central axis, through-hole one side with the outside surface of the negative pressure passageway on the positive electrode passes through threaded connection, the through-hole opposite side is provided with the air cock, the air cock with through-hole intercommunication and fixed the setting are in on the mount.

Further, the pulse generating assembly comprises a threaded sleeve, a first electrode, a second electrode and two insulating sheets, the first electrode is spliced with the second electrode, a negative pressure channel is formed at the connecting position, the threaded sleeve is sleeved on the outer side of the first electrode, the outer side of the second electrode, the insulating sheets are respectively clamped on the position where the first electrode is contacted with the second electrode, the negative pressure channel is detachably connected with the fixing frame, and the first electrode and the second electrode are electrically connected with the control switch.

Further, the whole discoid structure that is of mount, the through-hole is seted up to the mount the central axis, through-hole one side with first electrode with the outside surface of the negative pressure passageway that the second electrode formed passes through threaded connection, the through-hole opposite side is provided with the air cock, the air cock with through-hole intercommunication and fixed the setting are in on the mount.

Furthermore, a wiring groove is formed in the edge of the outer side of the fixing frame.

Further, the casing is including preceding locking shell, back locking shell, half shell on the left side and half shell on the right side, half shell on the left side with half shell on the right side can be dismantled and be connected, the mount presss from both sides and establishes half shell on the left side with the space that half shell on the right side formed is inside, the pulse takes place the subassembly and sets up half shell on the left side with the front end of half shell on the right side, preceding locking shell cover is established the pulse takes place the subassembly outside and respectively with half shell on the left side, half shell joint on the right side, the back locking shell is screwed through the screw and is set up half shell on the left side with the end of half.

Further, a sealing ring is arranged between the front locking shell and the pulse generation assembly.

The invention provides an operation handle of a bioelectricity physiotherapy instrument, which comprises a shell, a fixing frame, a pulse generation assembly and a control switch, wherein the pulse generation assembly is electrically connected with the control switch, the fixing frame is fixedly arranged in the shell, the pulse generation assembly is fixedly arranged at the front end of the shell, the pulse generation assembly is detachably connected with the fixing frame, a through hole is formed in the middle of the fixing frame, a negative pressure channel is formed in the middle of the pulse generation assembly, and the negative pressure channel is communicated with the through hole. Therefore, the pulse generating assembly is arranged at the front end of the shell through the fixing frame, the negative pressure channel in the middle of the pulse generating assembly is matched with the channel to form an air path allowing air to pass through, negative pressure can be formed in the negative pressure channel by matching with the diaphragm pump, when the pulse generating assembly is used, the pulse generating assembly is electrically operated by pressing the control switch to form low-frequency pulse current, the position of the pulse generating assembly is massaged, the working area of the pulse generating assembly can be transferred by holding the shell by hand, the operation is simple and rapid, and the working efficiency is high; on the other hand, under the matching of the negative pressure condition, the whole pulse generation assembly has better skin contact effect with the working position, the pricking feeling caused by the separation of the pulse generation assembly from the surface of the skin can not occur, and the comfort degree of the pulse generation assembly during working is greatly increased.

Drawings

FIG. 1 is a schematic view of the overall structure of an operating handle of the bioelectrical physiotherapy apparatus according to the present invention;

FIG. 2 is a front view of the whole structure of the operation handle of the bioelectrical physiotherapy apparatus of the present invention;

FIG. 3 is a sectional view of an operating handle of the bioelectrical physiotherapy apparatus of the present invention;

FIG. 4 is a schematic view of a right half-shell structure of an operating handle of the bioelectrical physiotherapy apparatus according to the present invention;

FIG. 5 is a schematic view of a first electrode structure of an operation handle of the bioelectrical physiotherapy apparatus according to the present invention;

FIG. 6 is a schematic view of the structure of the operating handle holder of the bioelectrical physiotherapy apparatus according to the present invention;

fig. 7 is a schematic structural view of a temperature control circuit board of an operation handle of the bioelectricity physiotherapy instrument.

In the drawings, the components represented by the respective reference numerals are listed below:

1. the shell, 101, preceding locking shell, 102, back locking shell, 103, left half shell, 104, right half shell, 105, sealing washer, 2, mount, 201, through-hole, 202, air cock, 203, trough, 3, pulse generating component, 301, negative pressure passageway, 302, thread bush, 303, first electrode, 304, second electrode, 305, insulating piece, 4, control switch, 5, electric heating element, 6, temperature control circuit board, 601, light ball, 7, display module.

Detailed Description

The principles and features of this invention are described below in conjunction with the following drawings, which are set forth by way of illustration only and are not intended to limit the scope of the invention.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "center", "inner", "outer", "top", "bottom", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

As shown in fig. 1-7, the present invention provides an operation handle of a bioelectricity physiotherapy instrument, which includes a housing 1, a fixing frame 2, a pulse generation assembly 3 and a control switch 4, wherein the pulse generation assembly 3 is electrically connected to the control switch 4, the fixing frame 2 is fixedly disposed inside the housing 1, the pulse generation assembly 3 is fixedly disposed at the front end of the housing 1, the pulse generation assembly 3 is detachably connected to the fixing frame 2, a through hole 201 is disposed in the middle of the fixing frame 2, a negative pressure channel 301 is disposed in the middle of the pulse generation assembly 3, and the negative pressure channel 301 is communicated with the through hole 201. Thus, the pulse generating assembly 3 is arranged at the front end of the shell 1 through the fixing frame 2, the negative pressure channel 301 in the middle of the pulse generating assembly 3 is matched with the channel to form an air path allowing air to pass through, negative pressure can be formed in the negative pressure channel 301 by matching with a diaphragm pump, when the pulse generating assembly is used, the pulse generating assembly 3 is pressed to work electrically to form low-frequency pulse current, the position of the pulse generating assembly 3 is massaged, the working area of the pulse generating assembly 3 can be transferred by holding the shell 1 by hand, the operation is simple and rapid, and the working efficiency is high; on the other hand, under the cooperation of negative pressure condition, the whole pulse generating assembly 3 has better effect of contacting with the skin at the working position, and the pricking feeling generated by the separation of the pulse generating assembly 3 from the skin surface can not occur, thereby greatly increasing the comfort level of the pulse generating assembly 3 during working.

The points to be explained here are: the host computer side sets up the diaphragm pump, the air inlet intercommunication above-mentioned through-hole 201 of diaphragm pump, at the diaphragm pump during operation, form the negative pressure in negative pressure passageway 301 promptly, in addition, in the aspect of circuit design, the on-off control of diaphragm pump can directly be controlled through control switch 4, the diaphragm pump directly works after closing control switch 4, also can be connected control switch 4 with the control panel of host computer end, control switch 4 only provides control signal to the control panel, the control panel controls the diaphragm pump through predetermineeing the procedure, of course, the on-off control of foretell pulse generation subassembly 3 also can be controlled through the control panel.

The bioelectrical physiotherapy instrument operation handle of the invention, as shown in fig. 1-7, can also be based on the technical scheme described above: still include electric heating element 5, the laminating of electric heating element 5 sets up on the inboard surface of pulse generation subassembly 3, electric heating element 5 with control switch 4 electricity is connected. Thus, as the pulse generating component 3 is made of conductive materials and is generally made of metal materials, when the pulse generating component 3 is used, particularly when the pulse generating component just contacts the skin of a massaged person, the pulse generating component 3 is cooler and is very uncomfortable after being attached to the skin, the pulse generating component 3 is heated by the electric heating component 5, so that the pulse generating component 3 has a proper temperature when contacting the skin of the massaged person, the massage comfort level is improved, and generally, the pulse generating component 3 is heated to 40-45 ℃ most properly; the more preferable technical scheme is as follows: the electric heating component 5 is electrically connected with the control switch 4 through a control panel on the host side. If control switch 4 only controls electric heating element 5 and opens work, it is relatively difficult to realize to the temperature holding control of electric heating element 5, so preferred control panel controls, for example, the working method of control panel control electric heating element 5 is intermittent type formula work in order to keep constant temperature, or adopt temperature sensor to carry out temperature monitoring to pulse generation subassembly 3, and then control electric heating element 5 and carry out heating work, for the heating work of cooperation electric heating element 5, pulse generation subassembly 3 preferably adopts the aluminium material, the aluminium material both can guarantee pulse generation subassembly 3's electric conduction efficiency, the thermal conductivity of aluminium material also can make pulse generation subassembly 3 obtain rapid heating simultaneously, save the preparation time, improve work efficiency. The points to be explained here are: the electric heating assembly 5 comprises a heating sheet and a wiring pin, the heating sheet is of an annular sheet structure, the wiring pin is perpendicular to the inner side surface of the heating sheet, and the wiring pin and the heating sheet are fixedly connected or integrally formed; the electric connection is established through the wiring pin, if the wiring is easily short-circuited with the pulse generating assembly 3 on the heating sheet, the safe operation is not facilitated; the heating plate is sleeved outside the negative pressure channel 301 in the middle of the pulse generation assembly 3, and the outer side surface of the heating plate is abutted against the pulse generation assembly 3.

The bioelectrical physiotherapy instrument operation handle of the invention, as shown in fig. 1-7, can also be based on the technical scheme described above: and a display assembly 7 arranged on the housing. The further preferred technical scheme is as follows: display module 7 includes display screen and control panel, the control panel is fixed to be set up inside the casing, the display screen inlays to be established on the casing. Like this, through set up display module 7 on the casing, wherein signal communication is established with the host computer side to the control panel for the work information of host computer side is handled through the control panel and is shown on the display screen, for example, parameters such as energy density, frequency, and operating personnel need not to go to the host computer position and carry out data monitoring, can observe current working parameter through the display screen on the handle, promotes the factor of safety in the use.

The bioelectrical physiotherapy instrument operation handle of the invention, as shown in fig. 1-7, can also be based on the technical scheme described above: the laminating of 2 rear sides of mount is provided with temperature control circuit board 6, temperature control circuit board 6 with control panel signal connection, the last fixed light pearl 601 and the temperature sensor of being provided with of temperature control circuit board 6, mount 2 is made by the printing opacity material, temperature control circuit board 6 with the connection can be dismantled to 1 internal surface of casing, light pearl 601 with control switch 4 electricity is connected, temperature sensor is used for detecting the temperature information of physiotherapy position. Like this, temperature sensor and temperature control circuit board 6 establish the electricity communication, and temperature sensor carries out real-time supervision to the temperature information of physiotherapy position to with temperature information transmission to temperature control circuit board 6, temperature control circuit board 6 with temperature information transmission to control panel, the control panel is handled temperature information, and show through the display screen, in order to reach temperature real time monitoring's purpose. The further preferred technical scheme is as follows: the light bead 601 adopts monochromatic red light with the wavelength of 650nm and the output power of 1-5 mW. Thus, the fixing frame 2 is made of a light-transmitting material, light generated by the light bead 601 can be transmitted into the negative pressure channel 301 through the fixing frame 2 and irradiate on the skin surface of the human body, the light-transmitting material can be selected from materials such as but not limited to acrylic or polycarbonate, and of course, the light-transmitting material can be only arranged at the position of the fixing frame 2 corresponding to the light bead 601. In addition, the light bead 601 adopts low-intensity monochromatic red light with the wavelength of 650nm and the output power of 1-5 mW; the low-intensity laser emitted by the laser is a safe and reliable light source which is widely applied to the medical field. Light with a wavelength of 650nm is most easily absorbed by red blood cells in blood kicked by a person. The red blood cells in the blood absorb the energy of the light quantum to generate a series of photochemical reaction, enzymes in the red blood cells are activated, the abnormal state of the blood is changed, and a radio frequency instrument is assisted to obtain better curative effect. For better fixed and installation temperature control circuit board 6, the shape of temperature control circuit board 6 is unanimous with the cross-sectional shape of the casing 1 of installation temperature control circuit board 6 department, and casing 1 sets up bellied baffle in the both sides of 6 mounted positions of temperature control circuit board, and the direct card of temperature control circuit board 6 is established at two baffles directness, need not extra fixed connection, and the installation is swiftly convenient and fixed effectual.

The bioelectrical physiotherapy instrument operation handle of the invention, as shown in fig. 1-7, can also be based on the technical scheme described above: the pulse generating assembly 3 comprises a threaded sleeve 302, a first electrode 303, a second electrode 304 and two insulating sheets 305, the first electrode 303 is spliced with the second electrode 304 to form a negative pressure channel 301 at the connection position, the threaded sleeve 302 is sleeved on the outer side of the whole formed by the first electrode 303 and the second electrode 304, the insulating sheets 305 are respectively clamped on the positions where the first electrode 303 and the second electrode 304 are contacted, the negative pressure channel 301 is detachably connected with the fixed frame 2, and the first electrode 303 and the second electrode 304 are electrically connected with the control switch 4. Thus, the first electrode 303 and the second electrode 304 are spliced to form a horn-shaped opening, two insulating sheets 305 are respectively arranged at the positions where the first electrode 303 and the second electrode 304 are contacted, so as to insulate the first electrode 303 and the second electrode 304, the insulating sheets 305 also seal the joint of the first electrode 303 and the second electrode 304, the outer side surfaces of the first electrode 303 and the second electrode 304 are both provided with threads, a threaded sleeve 302 is tightly sleeved on the outer sides of the first electrode 303 and the second electrode 304, so as to fix the first electrode 303 and the second electrode 304, after the first electrode 303 and the second electrode 304 are spliced, the first electrode 303 and the second electrode 304 form a negative pressure channel 301 at the central position of the formed whole, and the negative pressure channel 301 is communicated with the through hole 201 of the fixed frame 2 and is sealed; the edge positions of the outermost layer surfaces of the first electrode 303 and the second electrode 304 are chamfered, so that the whole outer side surface is in smooth transition, and the skin of a person to be massaged can not be scratched by the first electrode 303 and the second electrode 304 when the whole handle moves.

The bioelectrical physiotherapy instrument operation handle of the invention, as shown in fig. 1-7, can also be based on the technical scheme described above: the whole discoid structure that is of mount 2, through-hole 201 is seted up to mount 2 the central axis, through-hole 201 one side with first electrode 303 with the outside surface of the negative pressure passageway 301 that second electrode 304 formed passes through threaded connection, through-hole 201 opposite side is provided with air cock 202, air cock 202 with through-hole 201 intercommunication and fixed the setting are in on the mount 2. Like this, for the convenience of the fixed and installation of mount 2, mount 2 one side offsets with casing 1, 2 opposite sides of mount offset with temperature control circuit board 6, the realization is to the rigidity of mount 2, through-hole 201 one side and negative pressure channel 301 threaded connection on the mount 2, the opposite side sets up air cock 202, air cock 202 can with mount 2 integrated into one piece, also can dismantle the setting at through-hole 201 position through the screw thread mode, do not take place to interfere for the installation, temperature control circuit board 6 sets up the hole of dodging at central point, in order to avoid temperature control circuit board 6 and air cock 202 to take place to interfere. The further preferred technical scheme is as follows: the outer edge of the fixed frame 2 is provided with a wiring groove 203. Therefore, the first electrode 303, the second electrode 304, the optical bead 601 and the electric heating component 5 need to be electrically connected, so that the wiring problem is involved, in order to ensure that the wiring harnesses of each component do not interfere, the wiring grooves 203 are formed in the outer edge of the fixing frame 2 so as to facilitate wiring, the number of the wiring grooves 203 is four, the four wiring grooves 203 correspond to the wiring of the first electrode 303, the second electrode 304, the optical bead 601 and the electric heating component 5, the four wiring grooves 203 are uniformly distributed on the outer edge of the fixing frame 2, the wiring grooves 203 can be replaced by wiring holes, and the specific design mode is changed according to the actual wiring requirement.

According to the technical scheme, the scheme can be further expanded, wherein: the pulse generating assembly 3 comprises a threaded sleeve 302, a positive electrode and a negative electrode plate, wherein the positive electrode and the negative electrode plate are electrically connected with the control switch 4, a wide-mouth-shaped negative pressure channel 301 is arranged at the center of the positive electrode, the positive electrode is detachably connected with the fixing frame 2, the negative pressure channel 301 is communicated with the fixing frame 2, and the threaded sleeve 302 is sleeved on the outer side of the positive electrode. Thus, when the negative pressure pump is used, the negative plate is attached to the skin surface of a user, the wide-mouth-shaped negative pressure channel 301 is arranged at the center of the positive electrode, the negative pressure channel 301 is communicated with the fixing frame 2, and when the negative pressure pump works, negative pressure is generated in the negative pressure channel 301, so that the good attachment degree of the positive electrode and the skin is ensured, and the pricking feeling caused by the gap formed between the positive electrode and the skin is avoided; the edge position of the outermost layer surface of the positive electrode is chamfered, so that the whole outer side surface is in smooth transition, and the skin of a massaged person can not be scratched by the positive electrode when the whole handle moves.

The bioelectricity physiotherapy instrument operation handle of the invention can also be based on the technical scheme described above: the whole discoid structure that is of mount 2, through-hole 201 is seted up to 2 the central axes of mount, through-hole 201 one side with threaded connection is passed through to the outside surface of the negative pressure passageway 301 on the positive electrode, through-hole 201 opposite side is provided with air cock 202, air cock 202 with through-hole 201 intercommunication and fixed the setting are in on the mount 2. Like this, for the convenience of the fixed and installation of mount 2, mount 2 one side offsets with casing 1, 2 opposite sides of mount offset with temperature control circuit board 6, the realization is to the rigidity of mount 2, through-hole 201 one side and negative pressure channel 301 threaded connection on the mount 2, the opposite side sets up air cock 202, air cock 202 can with mount 2 integrated into one piece, also can dismantle the setting at through-hole 201 position through the screw thread mode, do not take place to interfere for the installation, temperature control circuit board 6 sets up the hole of dodging at central point, in order to avoid temperature control circuit board 6 and air cock 202 to take place to interfere.

The bioelectrical physiotherapy instrument operation handle of the invention, as shown in fig. 1-7, can also be based on the technical scheme described above: casing 1 is including preceding locking shell 101, back locking shell 102, left half shell 103 and right half shell 104, left side half shell 103 with right half shell 104 can be dismantled and be connected, 2 press from both sides of mount are established left side half shell 103 with inside the space that right half shell 104 formed, impulse generator component 3 sets up left side half shell 103 with the front end of right half shell 104, preceding locking shell 101 cover is established impulse generator component 3 outside and respectively with left half shell 103, right half shell 104 joint, back locking shell 102 screws through the screw and sets up left side half shell 103 with the end of right half shell 104. The left half shell 103 and the right half shell 104 are both in an L-shaped design, the upper parts of the left half shell 103 and the right half shell 104 are main installation areas of each component, the lower part of the left half shell 103 and the right half shell 104 is a handheld area, a control button is also arranged in the handheld area, the left half shell 103 and the right half shell 104 are connected in a clamping manner, the front locking shell 101 is clamped and arranged at the front ends of the left half shell 103 and the right half shell 104, the front ends of the left half shell 103 and the right half shell 104 are fixedly limited, the rear locking shell 102 is rotatably arranged at the tail ends of the left half shell 103 and the right half shell 104 by adopting a nut principle, the tail ends of the left half shell 103 and the right half shell 104 are fixedly limited, the shell 1 is not fixedly connected by adopting a metal standard component, the whole shell 1 is made of a plastic material, the overall structure is light in weight, the design aims to open only a negative pressure adsorption function when the pulse generation component 3 is not electrified, the whole structure is light, the skin scraping device can be adsorbed on the surface of the skin without being supported and can not fall off, and the skin scraping device can be used for scraping by opening the negative pressure and moving the handle, so that the multifunctional function of one machine is realized. The further preferred technical scheme is as follows: a sealing ring 105 is arranged between the front locking shell 101 and the pulse generating assembly 3. The sealing ring 105 can prevent foreign matters or dust from entering the handle from the gap between the front locking shell 101 and the pulse generating assembly 3, and the service life of each part in the shell 1 is influenced.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (10)

1. The utility model provides a bioelectricity physiotherapy equipment operating handle which characterized in that: including casing (1), mount (2), impulse generation subassembly (3) and control switch (4), impulse generation subassembly (3) with control switch (4) electricity is connected, mount (2) are fixed to be set up inside casing (1), impulse generation subassembly (3) are fixed to be set up the front end of casing (1), impulse generation subassembly (3) with mount (2) can be dismantled and be connected, through-hole (201) have been seted up at the middle part on mount (2), impulse generation subassembly (3) middle part is provided with negative pressure passageway (301), negative pressure passageway (301) with through-hole (201) intercommunication.

2. The bioelectrical physiotherapy instrument operation handle according to claim 1, characterized in that: still include electric heating element (5), electric heating element (5) laminating sets up on the inboard surface of pulse generation subassembly (3), electric heating element (5) with control switch (4) electricity is connected.

3. The bioelectrical physiotherapy instrument operation handle according to claim 1, characterized in that: the display device further comprises a display assembly (7) arranged on the shell.

4. The bioelectrical physiotherapy instrument operation handle according to claim 3, characterized in that: display module (7) include display screen and control panel, the control panel is fixed to be set up inside the casing, the display screen inlays to be established on the casing.

5. The bioelectrical physiotherapy instrument operation handle according to claim 4, wherein: mount (2) rear side laminating is provided with temperature control circuit board (6), temperature control circuit board (6) with control panel signal connects, fixed light pearl (601) and the temperature sensor of being provided with on temperature control circuit board (6), mount (2) are made by the printing opacity material, temperature control circuit board (6) with casing (1) internal surface can be dismantled and be connected, light pearl (601) with control switch (4) electricity is connected, temperature sensor is used for detecting the temperature information of physiotherapy position.

6. The bioelectrical physiotherapy instrument operation handle according to any one of claims 1 to 5, characterized in that: pulse generator component (3) include thread bush (302), positive electrode and negative plate, positive electrode, negative plate all with control switch (4) electricity is connected, positive electrode central point department of putting is provided with wide-mouth shape negative pressure passageway (301), the positive electrode with mount (2) can be dismantled and be connected, negative pressure passageway (301) with mount (2) are linked together, thread bush (302) cover is established the outside of positive electrode.

7. The manipulation handle of bioelectrical physiotherapy instrument according to claim 6, wherein: the whole discoid structure that is of mount (2), through-hole (201) are seted up to mount (2) the central axis, through-hole (201) one side with the outside surface of negative pressure passageway (301) on the positive electrode passes through threaded connection, through-hole (201) opposite side is provided with air cock (202), air cock (202) with through-hole (201) intercommunication and fixed the setting are in on mount (2).

8. The bioelectrical physiotherapy instrument operation handle according to any one of claims 1 to 5, characterized in that: pulse generator component (3) include thread bush (302), first electrode (303), second electrode (304) and two insulating pieces (305), first electrode (303) with second electrode (304) splice each other and form negative pressure passageway (301) at hookup location, thread bush (302) cover is established first electrode (303) with the holistic outside that second electrode (304) formed, two insulating pieces (305) press from both sides respectively and establish first electrode (303) with the position that second electrode (304) contacted, negative pressure passageway (301) with mount (2) can dismantle the connection, first electrode (303), second electrode (304) all with control switch (4) electricity is connected.

9. The bioelectrical physiotherapy instrument operation handle according to claim 8, characterized in that: the whole discoid structure that is of mount (2), through-hole (201) are seted up to mount (2) the central axis, through-hole (201) one side with first electrode (303) with the outside surface of negative pressure passageway (301) that second electrode (304) formed passes through threaded connection, through-hole (201) opposite side is provided with air cock (202), air cock (202) with through-hole (201) intercommunication and fixed the setting are in on mount (2).

10. The bioelectrical physiotherapy instrument operation handle according to any one of claims 1 to 5, characterized in that: casing (1) including preceding locking shell (101), back locking shell (102), left half shell (103) and right half shell (104), left side half shell (103) with right side half shell (104) can be dismantled and be connected, mount (2) press from both sides and establish left side half shell (103) with the space that right side half shell (104) formed is inside, pulse generation subassembly (3) set up left side half shell (103) with the front end of right side half shell (104), preceding locking shell (101) cover is established the pulse generation subassembly (3) outside and respectively with left half shell (103), right half shell (104) joint, back locking shell (102) are screwed through the screw and are set up left side half shell (103) with the end of right side half shell (104).

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