CN216258747U - Magnetic stimulation therapeutic instrument with headrest - Google Patents

Abstract

The utility model provides a magnetic stimulation therapeutic apparatus with a headrest, which comprises a case, a seat, a leg support and the headrest; the seat is arranged on the case and comprises a cushion and a backrest connected with the cushion in an overturning way, the leg support is connected on the case in an overturning way and is adjacent to the cushion of the seat, and the headrest is arranged on the backrest of the seat. The design of combining the magnetic stimulation equipment with the seat is adopted, so that a special seat is not needed when a patient is treated, and a headrest is designed on the seat for the patient to comfortably lie down for treatment; the magnetic stimulation treatment of the central nerve, the peripheral nerve and the head of the patient can be realized through the movable second magnetic stimulation coil racket, and the magnetic stimulation treatment of the pelvic floor muscle in a sitting position and the sacral nerve in a lying position can be realized through the built-in first magnetic stimulation coil racket; in addition, the inclination of the backrest and the cushion of the chair can be adjusted, so that the patient can conveniently adjust the sitting posture to carry out magnetic stimulation treatment.

Description

Magnetic stimulation therapeutic instrument with headrest

[ technical field ] A method for producing a semiconductor device

The utility model relates to the technical field of magnetic stimulation treatment, in particular to a magnetic stimulation treatment instrument with a headrest.

[ background of the utility model ]

The application of Magnetic Stimulation (trans Magnetic Stimulation) TMS is rapidly developed and widely applied to the field of psychology and nerve rehabilitation, along with the deepening of the exploration and application of the Magnetic Stimulation technology, the Magnetic Stimulation technology is applied to the Stimulation of sacral nerve for treating diseases such as urinary incontinence and the like, and the Stimulation of the female perineum to carry out postpartum rehabilitation becomes an application hotspot in the field of Magnetic Stimulation in recent years.

The magnetic stimulation therapeutic apparatus has the advantages that the high-resistance structures such as bones, fat tissues, skin and clothes can be penetrated by the strong magnetic field to activate the nerve muscle painlessly, and a patient is not limited by clothes and can be treated through the clothes.

However, the existing magnetic stimulation device needs to be assisted by a special seat when treating a patient, and the neck of the patient is not abutted when the patient adjusts the posture on the seat; particularly when the patient is lying down, the patient's neck needs to be supported so that the patient can be treated lying down to meet clinical treatment.

In view of the above, there is a need to provide a new magnetic stimulation treatment apparatus with a headrest to overcome the above-mentioned drawbacks.

[ Utility model ] content

The utility model aims to provide a magnetic stimulation therapeutic apparatus with a headrest, which adopts the design of combining magnetic stimulation equipment and a seat, simultaneously, the headrest is an inflatable and deflatable type headrest, so that the inflation and deflation can be carried out, the head of a patient can be supported during treatment, the comfort of the patient is improved, a special seat is not needed during the treatment of the patient, the central nerve, the peripheral nerve and the head of the patient can be treated by magnetic stimulation through a movable second magnetic stimulation coil, the pelvic floor muscle stimulation and lying sacral nerve magnetic stimulation treatment can be realized by the built-in first magnetic stimulation coil, in addition, the inclination of the backrest part and the cushion part of the seat can be adjusted, and the patient can conveniently adjust the sitting posture to carry out the magnetic stimulation treatment.

In order to achieve the above object, the present invention provides a magnetic stimulation therapeutic apparatus with a headrest, comprising a case 1, a seat 2, a leg rest 3 and a headrest 4; the seat 2 is arranged on the case 1 and comprises a seat cushion 21 and a backrest 22 connected with the seat cushion 21 in a turnover mode, the leg support 3 is connected on the case 1 in a turnover mode and is adjacent to the seat cushion 21 of the seat 2, and the headrest 4 is arranged on the backrest 22 of the seat 2.

Preferably, the headrest 4 includes a main body portion 41 and a neck attachment portion 42; the main body portion 41 is mounted on the top of the backrest 22, and the neck attaching portion 42 is mounted on the main body portion 41.

Preferably, the magnetic stimulation therapeutic apparatus with the headrest further comprises a communication module 5, a signal acquisition module 6, a control module 7 and a magnetic stimulation system 8; the control module 7 is connected between the communication module 5 and the magnetic stimulation system 8; the magnetic stimulation system 8 comprises a cooling device 81, a power factor corrector 82, a charging module 83, an energy storage element 84, a first magnetic stimulation coil flap 85, a first electronic switch group 86, a second magnetic stimulation coil flap 87 and a second electronic switch group 88; the power factor corrector 82, the charging module 83 and the energy storage element 84 are electrically connected in sequence, the first magnetic stimulation coil flap 85 is electrically connected with the negative electrode of the energy storage element 84, the first electronic switch group 86 is electrically connected between the first magnetic stimulation coil flap 85 and the positive electrode of the energy storage element 84, the second magnetic stimulation coil flap 87 is electrically connected with the negative electrode of the energy storage element 84, and the second electronic switch group 88 is electrically connected between the second magnetic stimulation coil flap 87 and the positive electrode of the energy storage element 84; control module 7, cooling device 81, power factor corrector 82, charging module 83, energy storage element 84, first magnetic stimulation coil clap 85, first electronic switch group 86 and second electronic switch group 88 all set up in machine case 1 is inside, first magnetic stimulation coil clap 85 with second magnetic stimulation coil clap 87 with the inside cooling device 81 of seat 2 is connected.

Preferably, the signal acquisition module 6 includes an acquisition unit 60, a preamplifier 61, a notch filter 62, a program control amplifier 63, a band-pass filter 64, an a/D converter 65, a single chip 66, a digital signal processor 67, an isolation transceiver, and a surge protector; the acquisition unit 60, the preamplifier 61, the notch filter 62, the program control amplifier 63, the band-pass filter 64, the A/D converter 65, the single chip microcomputer 66 and the digital signal processor 67 are electrically connected in sequence, the single chip microcomputer 66 is electrically connected with the program control amplifier 63, the isolation transceiver is electrically connected with the surge protector, and the surge protector is electrically connected between the program control amplifier 63 and the single chip microcomputer 66.

Preferably, the magnetic stimulation therapeutic apparatus with a headrest further comprises a rotary support table 10, the rotary support table 10 is rotatably connected to the case 1, the communication module 5 and the signal acquisition module 6 are installed inside the rotary support table 10, and the signal acquisition module 6 is connected to the communication module 5.

Preferably, the cooling device 81 includes a water tank 811, a flow sensor 812, a water pump 813, and an air pump 814; the water tank 811 contains cooling liquid, the flow sensor 812 is arranged in the water tank 811 and connected to the control module 7, the water pump 813 and the air pump 814 are both connected to the water tank 811, and the first magnetic stimulation coil flapper 85 and the second magnetic stimulation coil flapper 87 are both connected to the water tank 811.

Preferably, the cooling device 81 further comprises a hydraulic pressure sensor 815 and a liquid level sensor 816; the hydraulic sensor 815 is electrically connected to the control module 7, and the liquid level sensor 816 is electrically connected to the control module 7 and located in the water tank 811.

Preferably, the cooling device 81 further includes a heat dissipation fan 817, and the heat dissipation fan 817 is disposed adjacent to the water tank 811 and electrically connected to the control module 7.

Preferably, the seat cushion 21 comprises a bottom plate 211, a hard sponge plate 212, a grid cushion 213 and a seat cushion position 214; the bottom plate 211 is provided with a containing tube 2111, the hard sponge plate 212 is provided with an opening 2121, the hard sponge plate 212 is arranged on the bottom plate 211, the first magnetic stimulation coil racket 85 is contained in the containing tube 2111 and the opening 2121, the grid pad 213 covers the first magnetic stimulation coil racket 85, and the cushion position 214 wraps the hard sponge plate 212, the first magnetic stimulation coil racket 85 and the grid pad 213 and is detachably connected with the bottom plate 211.

Preferably, the seat cushion 21 further includes a fixing frame 215, the fixing frame 215 is fixed to one side of the hard sponge plate 212, and the fixing frame 215 presses the first magnetic stimulation coil pad 85 into the opening 2121.

Compared with the prior art, the magnetic stimulation therapeutic apparatus with the headrest provided by the utility model has the beneficial effects that:

1) when a patient is treated, the headrest part can move along with the movement of the head of the patient, and meanwhile, as the headrest is an inflatable and deflatable headrest, the headrest can be inflated and deflated, so that the head of the patient is supported during treatment, and the comfort of the patient is improved;

2) the design of combining the magnetic stimulation equipment with the seat is adopted, so that a special seat is not needed when a patient is treated, and a headrest is designed on the seat for the patient to comfortably lie down for treatment;

3) the magnetic stimulation treatment of the central nerve, the peripheral nerve and the head of the patient can be realized through the movable second magnetic stimulation coil racket, and the magnetic stimulation treatment of the pelvic floor muscle in a sitting position and the sacral nerve in a lying position can be realized through the built-in first magnetic stimulation coil racket;

4) in addition, the inclination of the backrest and the cushion of the chair can be adjusted, so that the patient can conveniently adjust the sitting posture to carry out magnetic stimulation treatment;

5) the cushion can be followed the magnetic stimulation therapeutic instrument that has the headrest and gone up whole dismantlement, with cushion and the magnetic stimulation therapeutic instrument detachable design that has the headrest, has simplified the change work that first magnetic stimulation coil clapped, conveniently changes first magnetic stimulation coil claps, is favorable to the producer to maintain after sale the user.

[ description of the drawings ]

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a perspective view of the magnetic stimulation treatment instrument with a headrest provided by the utility model.

Fig. 2 is an exploded view of the magnetic stimulation treatment apparatus shown in fig. 1 with a headrest.

Fig. 3 is a schematic block diagram of a partial structure of the magnetic stimulation treatment device with headrest shown in fig. 1.

Fig. 4 is a schematic block diagram of a signal acquisition module of the magnetic stimulation treatment apparatus with a headrest shown in fig. 1.

Fig. 5 is a schematic view of the cooling device of the magnetic stimulation treatment device with headrest shown in fig. 1.

Fig. 6 is an exploded view of the seat cushion of the magnetic stimulation treatment apparatus with headrest shown in fig. 1.

[ detailed description ] embodiments

In order to make the objects, technical solutions and advantageous effects of the present invention more clearly apparent, the present invention is further described in detail below with reference to the accompanying drawings and the detailed description. It should be understood that the detailed description and specific examples, while indicating the preferred embodiment of the utility model, are intended for purposes of illustration only and are not intended to limit the scope of the utility model.

It will be understood that the terms "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "inner," "outer," and the like are used in the orientation or positional relationship indicated in the drawings for ease of description and simplicity of description, and do not indicate or imply that the referenced devices or elements must be in a particular orientation, constructed and operated in a particular orientation, and are therefore not to be considered limiting.

It is also noted that, unless expressly stated or limited otherwise, the terms "mounted," "connected," "secured," "disposed," and the like are intended to be inclusive and mean, for example, that they may be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. To those of ordinary skill in the art, the above terms may be specifically defined in the present invention according to the specific circumstances.

Furthermore, the terms "first", "second", and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first", "second", may explicitly or implicitly include one or more of that feature. Further, the meaning of "a plurality" or "a plurality" means two or more unless specifically limited otherwise.

Referring to fig. 1, the present invention provides a magnetic stimulation therapeutic apparatus with a headrest, which includes a case 1, a seat 2, a leg rest 3 and a headrest 4; the seat 2 is arranged on the case 1 and comprises a seat cushion 21 and a backrest 22 connected with the seat cushion 21 in a turnover mode, the leg support 3 is connected on the case 1 in a turnover mode and is adjacent to the seat cushion 21 of the seat 2, and the headrest 4 is arranged on the backrest 22 of the seat 2. In the present embodiment, the headrest 4 is an inflatable headrest.

Referring to fig. 2 to 6, further, the headrest 4 includes a main body portion 41 and a neck attachment portion 42; the main body 41 is mounted on the top of the backrest 22, the neck attaching part 42 is mounted on the main body 41, and the neck attaching part 42 is made of a soft material.

Further, the magnetic stimulation therapeutic apparatus with the headrest further comprises a communication module 5, a signal acquisition module 6, a control module 7 and a magnetic stimulation system 8; the control module 7 is connected between the communication module 5 and the magnetic stimulation system 8 through a lead. In this embodiment, the control module 7 may be a chip.

Further, the magnetic stimulation system 8 includes a cooling device 81, a power factor corrector 82, a charging module 83, an energy storage element 84, a first magnetic stimulation coil flap 85, a first electronic switch set 86, a second magnetic stimulation coil flap 87, and a second electronic switch set 88; the power factor corrector 82, the charging module 83 and the energy storage element 84 are electrically connected in sequence, the first magnetic stimulation coil flap 85 is electrically connected with the negative electrode of the energy storage element 84, the first electronic switch group 86 is electrically connected between the first magnetic stimulation coil flap 85 and the positive electrode of the energy storage element 84, the second magnetic stimulation coil flap 87 is electrically connected with the negative electrode of the energy storage element 84, and the second electronic switch group 88 is electrically connected between the second magnetic stimulation coil flap 87 and the positive electrode of the energy storage element 84; control module 7, cooling device 81, power factor corrector 82, charging module 83, energy storage element 84, first magnetic stimulation coil clap 85, first electronic switch group 86 and second electronic switch group 88 all set up in machine case 1 is inside, first magnetic stimulation coil clap 85 with second magnetic stimulation coil clap 87 through solenoid 100 with the inside cooling device 81 of seat 2 is connected.

It should be noted that, in this embodiment, the power factor corrector 82 is configured to convert the voltage of AC220V into a voltage of DC360V, the cooling device 81 is configured to reduce the temperature of the first magnetic stimulation coil flap 85 and the second magnetic stimulation coil flap 87, the charging module 83 is configured to convert the direct current of DC360V into a pulse voltage to charge the energy storage element 84, and the energy storage element 84 is a pulse capacitor.

In use, the pfc 82 is connected to an AC220V external power source and converts the voltage of AC220V into a voltage of DC360V, and the charging module 83 converts the DC voltage into a continuously output high-voltage pulse voltage to charge the energy storage element 84;

the notebook computer 200 is in communication connection with the communication module 5, when the control module 7 receives a magnetic stimulation instruction signal sent by the notebook computer 200 through the communication module 5, the control module 7 sends the magnetic stimulation command signal to the first electronic switch group 86 and/or the second electronic switch group 88, the signal acquisition module 6 acquires myoelectric signal information of a human body and uploads the myoelectric signal information to the notebook computer 200, at the moment, the first electronic switch group 86 and/or the second electronic switch group 88 are/is switched on, the stored energy of the energy storage element 84 is instantaneously released to the first magnetic stimulation coil flap 85 and/or the second magnetic stimulation coil flap 87 through the first electronic switch group 86 and/or the second electronic switch group 88 to generate a magnetic field for magnetic stimulation, the cooling device 81 reduces the temperature of the first magnetic stimulation coil paddle 85 and/or the second magnetic stimulation coil paddle 87.

Further, the signal acquisition module 6 includes an acquisition unit 60, a preamplifier 61, a notch filter 62, a program control amplifier 63, a band-pass filter 64, an a/D converter 65, a single chip 66, a digital signal processor 67, an isolation transceiver, and a surge protector; the acquisition unit 60, the preamplifier 61, the notch filter 62, the program control amplifier 63, the band-pass filter 64, the A/D converter 65, the single chip microcomputer 66 and the digital signal processor 67 are electrically connected in sequence, the single chip microcomputer 66 is electrically connected with the program control amplifier 63, the isolation transceiver is electrically connected with the surge protector, the surge protector is electrically connected between the program control amplifier 63 and the single chip microcomputer 66, and the isolation transceiver and the surge protector are integrated together.

In the present embodiment, the preamplifier 61 has an isolation and buffering function; the notch filter 62 is used for filtering a 50Hz power frequency signal in the alternating current; the program control amplifier 63 can realize a program control gain of 1-8000, the a/D converter 65 is configured to convert a signal output by the band-pass filter 64 into a digital signal, and transmit the digital signal to the digital signal processor 67, the digital signal processor 67 transmits the converted signal to the control module 7 after receiving the converted signal, and the single chip microcomputer 66 is LPC11C14 in model number; the type of the isolation transceiver is TCAN 334.

When the magnetic stimulation therapeutic apparatus with the headrest outputs a magnetic stimulation command signal, the acquisition unit 60 of the acquisition module 6 receives and acquires a waveform after receiving the command signal for acquiring the waveform, the preamplifier 61 receives and amplifies the command signal for acquiring the waveform, the notch filter 62 receives and filters the amplified command signal for acquiring the waveform, the program control amplifier 63 receives and program-controls and amplifies the filtered command signal for acquiring the waveform, the band-pass filter 64 receives and filters the amplified command signal for acquiring the waveform, the a/D converter 65 converts the command signal for acquiring the waveform filtered by the band-pass filter 64 into a digital quantity and transmits the digital quantity to the single chip 66, the single chip microcomputer 66 sends an instruction to the digital signal processor 67, so that the digital signal processor 67 starts to collect digital quantity received by the single chip microcomputer 66 and sends the digital quantity to the control module 7, the control module 7 sends the digital quantity to the notebook computer 200 through the communication module 5, and the display screen of the notebook computer 200 displays the waveform of the magnetic field.

Further, the cooling device 81 includes a water tank 811, a flow sensor 812, a water pump 813, and an air pump 814; the water tank 811 contains cooling liquid, the flow sensor 812 is arranged in the water tank 811 and connected with the control module 7 through a lead, the water pump 813 and the air pump 814 are both connected to the water tank 811, and the first magnetic stimulation coil flapper 85 and the second magnetic stimulation coil flapper 87 are both connected with the water tank 811 through a pipeline 100.

When the control module 7 receives a magnetic stimulation instruction signal sent by the notebook computer 200 through the communication module 5, an operator sends an instruction signal for starting the water pump 813 and the air pump 814 to the control module 7 through the notebook computer 200 to start the water pump 813, the cooling liquid in the water tank 811 enters the water pump 813 under the action of the water pump 813 and then enters the first magnetic stimulation coil flapper 85 and/or the second magnetic stimulation coil flapper 87 to reduce the temperature of the first magnetic stimulation coil flapper 85 and/or the second magnetic stimulation coil flapper 87, the cooling liquid flows back into the water tank 811 through the flow sensor 812, the flow sensor 812 detects the flow of the water and uploads the detected flow information to the control module 7, and the display screen of the notebook computer 200 displays the flow information to monitor the circulating flowing state of the cooling liquid.

When the water pump 813 is started and the flow sensor 812 cannot detect the flow of the cooling liquid, an operator can send instruction signals for stopping the operation of the water pump 813 and stopping the magnetic stimulation of the first magnetic stimulation coil flap 85 and the second magnetic stimulation coil flap 87 to the control module 7 through the notebook computer 200; when the first magnetic stimulation coil flap 85 and the second magnetic stimulation coil flap 87 need to be replaced or the maintenance is carried out, an operator can send a command signal for discharging the cooling liquid through the notebook computer 200, and at the moment, the air pump 814 starts to discharge the cooling liquid remained in the first magnetic stimulation coil flap 85 and the second magnetic stimulation coil flap 87 into the water return tank 811.

Further, the cooling device 81 further comprises a hydraulic pressure sensor 815 and a liquid level sensor 816; the hydraulic sensor 815 is electrically connected to the control module 7, the liquid level sensor 816 is electrically connected to the control module 7 and is located in the water tank 811, the hydraulic sensor 815 is configured to detect a pressure of the cooling fluid and upload information on the detected pressure of the cooling fluid to the control module 7, and the liquid level sensor 816 is configured to detect a liquid level in the water tank 811 and upload information on the detected liquid level to the control module 7.

Further, the cooling device 81 further includes a heat dissipation fan 817, the heat dissipation fan 817 is disposed adjacent to the water tank 811 and electrically connected to the control module 7, and the rotation speeds of the water pump 813, the air pump 814 and the heat dissipation fan 817 can be adjusted by the control module 7. In the present embodiment, the operating voltages of the water pump 813, the air pump 814 and the heat radiation fan 817 are DC 12V.

When the magnetic stimulation treatment is needed to be carried out on the pelvic floor of a patient, the patient sits on the cushion and then starts the magnetic stimulation treatment instrument with the headrest to carry out treatment, the first magnetic stimulation coil beats the perineum of the patient to carry out magnetic stimulation so that the perineum generates nerve impulse, and finally the nerve impulse reaches smooth muscles and striated muscles at the bottom of the pelvic cavity which are innervated, so that the smooth muscles and the striated muscles at the bottom of the pelvic cavity are contracted, the postpartum urinary control capability of a female is enhanced, and the postpartum urinary incontinence of a primipula is reduced;

meanwhile, the backrest can be turned over to adjust the inclination between the backrest part and the cushion and/or the leg support can be turned over to adjust the angle between the leg support and the cushion, so that a patient can conveniently adjust the sitting posture to carry out magnetic stimulation treatment.

Further, the seat cushion 21 comprises a bottom plate 211, a hard sponge plate 212, a grid cushion 213 and a seat cushion position 214; a containing tube 2111 is formed on the bottom plate 211, an opening 2121 corresponding to the first magnetic stimulation coil racket 85 is formed in the hard sponge plate 212, the hard sponge plate 212 is installed on the bottom plate 211, the first magnetic stimulation coil racket 85 is contained in the containing tube 2111 and the opening 2121, the grid pad 213 covers the first magnetic stimulation coil racket 85, and the cushion position 214 wraps the hard sponge plate 212, the first magnetic stimulation coil racket 85 and the grid pad 213 and is detachably connected with the bottom plate 211. In this embodiment, the cushion portion 214 is detachably connected to the bottom plate 211 by a zipper, and the accommodating tube 2111 has a hollow cylindrical shape.

Further, the seat cushion 21 further includes a fixing frame 215, the fixing frame 215 is fixed to one side of the hard sponge plate 212, and the fixing frame 215 presses the first magnetic stimulation coil flap 85 into the opening 2121, so as to prevent the first magnetic stimulation coil flap 85 from being displaced.

Further, the accommodating barrel 2111 is formed to protrude at the center of the bottom plate 211 and to be positioned on the top surface of the bottom plate 211.

Further, a magic tape 2112 is arranged on the bottom surface of the bottom plate 211.

During the use, cushion 21 can be followed the magnetic stimulation therapeutic instrument that has the headrest and gone up whole dismantlement, with cushion 21 and the magnetic stimulation therapeutic instrument detachable design that has the headrest, has simplified the change work that first magnetic stimulation coil clapped 85, conveniently changes first magnetic stimulation coil clapped 85, is favorable to the producer to maintain after sale the user.

Further, the magnetic stimulation system 8 further includes a power filter 89, the power filter 89 is electrically connected to the power factor corrector 82, and the power filter 89 is electrically connected to an external power source of AC 220V.

Further, the first electronic switch set 86 includes a first reverse blocking triode thyristor 861 and a second reverse blocking triode 862, the second electronic switch set 88 includes a third reverse blocking triode thyristor 881 and a fourth reverse blocking triode 882, the power filter 89 is electrically connected to the first end of the pfc 82, the second end of the pfc 82 is electrically connected to the first end of the charging module 83, the second end of the charging module 83 is electrically connected to the energy storage element 84,

the positive electrode of the energy storage element 84 is electrically connected to the positive electrode of the first reverse blocking triode thyristor 861 of the first electronic switch group 861, the negative electrode of the first reverse blocking triode thyristor 861 is electrically connected to the first end of the first magnetic stimulation coil paddle 85 and the positive electrode of the second reverse blocking triode thyristor 862 of the first electronic switch group 86, the negative electrode of the second reverse blocking triode thyristor 862 of the first electronic switch group 86 is electrically connected to the positive electrode of the energy storage element 64, the second end of the first magnetic stimulation coil paddle 85 is electrically connected to the negative electrode of the energy storage element 84, and the control electrodes of the first reverse blocking triode thyristor 861 and the second reverse blocking triode thyristor 862 of the first electronic switch group 86 are connected to the control module 7 through wires;

the positive pole of the energy storage element 64 is electrically connected to the positive pole of the third reverse blocking triode thyristor 881 of the second electronic switch group 88, the negative pole of the third reverse blocking triode thyristor 881 is electrically connected to the first end of the second magnetic stimulation coil racket 87 and the positive pole of the fourth reverse blocking triode thyristor 882 of the second electronic switch group 88, the negative pole of the fourth reverse blocking triode thyristor 882 of the second electronic switch group 88 is electrically connected to the positive pole of the energy storage element 84, the second end of the second magnetic stimulation coil racket 87 is electrically connected to the negative pole of the energy storage element 84, and the control poles of the third reverse blocking triode thyristor 881 and the fourth reverse blocking triode thyristor 882 of the second electronic switch group 88 are connected to the control module 7 through wires.

When the control module 7 receives a magnetic stimulation instruction signal issued by the notebook computer through the communication module 5, the control module 7 sends the magnetic stimulation instruction signal to the first electronic switch group 86 through the control pole, the acquisition unit 60 of the signal acquisition module 6 acquires myoelectric signal information of a human body and uploads the myoelectric signal information to the notebook computer 200, at this time, the first reverse blocking triode thyristor of the first electronic switch group 86 is conducted 861, the second reverse blocking triode thyristor 862 is not conducted, the stored energy of the energy storage element 84 is instantaneously released to the first magnetic stimulation coil flap 85, and the first magnetic stimulation coil flap 85 generates a forward magnetic field;

when the first reverse blocking triode thyristor 861 of the first electronic switch group 86 is not turned on and the second reverse blocking triode thyristor 862 is turned on, the stored energy in the first magnetic stimulation coil flap 85 is released to the energy storage element 84, and the first magnetic stimulation coil flap 85 generates a reverse magnetic field;

similarly, when the control module 7 receives a magnetic stimulation instruction signal sent by the notebook computer 200 through the communication module 7, the control module 7 sends the magnetic stimulation instruction signal to the second electronic switch group 88 through the control electrode, the acquisition unit 60 of the signal acquisition module 6 acquires electromyographic signal information of a human body and uploads the electromyographic signal information to the notebook computer 200, at this time, the third reverse blocking triode thyristor 881 of the second electronic switch group 88 is conducted, the fourth reverse blocking triode thyristor is not conducted 882, the stored energy of the energy storage element 84 is instantaneously released to the second magnetic stimulation coil racket 87, the second magnetic stimulation coil racket 87 generates a forward magnetic field, the stored energy of the energy storage element 84 is instantaneously released to the second magnetic stimulation coil racket 87, and the second magnetic stimulation coil racket 87 generates a forward magnetic field;

when the third reverse blocking triode thyristor 881 and the fourth reverse blocking triode thyristor 882 of the second electronic switch group 88 are turned off, the stored energy of the second magnetic stimulation coil bat 87 is released to the energy storage element 84, and the second magnetic stimulation coil bat 87 generates a reverse magnetic field.

Further, the magnetic stimulation therapeutic apparatus with a headrest further comprises an angle-adjustable bracket 9, the angle-adjustable bracket 9 is mounted on the main body portion 41 of the headrest 4, and the second magnetic stimulation coil flap 87 is connected with the water tank 811 of the cooling device 81 in the seat 2 through a pipeline and detachably connected with the angle-adjustable bracket 9.

When needing to carry out the magnetic stimulation treatment to patient's head, the patient sits the cushion 21 restarts the magnetic stimulation treatment instrument that has the headrest and treats, adjusts angle of adjustable angle's support 9 or direct movement second magnetic stimulation coil claps 87, makes second magnetic stimulation coil claps 87 carries out the magnetic stimulation to patient's head.

Further, the magnetic stimulation therapeutic apparatus with a headrest further comprises a rotary support table 10, the rotary support table 10 is rotatably connected to the case 1, the communication module 5 and the signal acquisition module 6 are installed inside the rotary support table 10, and the signal acquisition module 6 is connected to the communication module 5.

Further, the rotary support platform 10 includes a rotary arm 101 and a support platform 102 connected to one end of the rotary arm 101, the other end of the rotary arm 101 is rotatably connected to the case 1, a channel for a wire of the magnetic stimulation therapeutic apparatus with a headrest to pass through is formed inside the rotary arm 101, the communication module 5 is installed inside the rotary support platform 10, and the signal acquisition module 6 is installed inside the support platform 102 of the rotary support platform 10 and is connected to the communication module 5 through the wire.

Further, one side of the support platform 102 is provided with a wire connection port 1021 for connecting with a wire; the edge of the top surface of the support platform 102 is raised to form a flange 1022, and the flange 1022 can prevent the laptop 200 placed on the top surface of the support platform 102 from easily sliding down to the ground and being broken.

Further, the magnetic stimulation therapeutic apparatus with headrest still includes temperature monitoring module 13, temperature monitoring module 13 include the temperature controller and with temperature controller electric connection's temperature sensor, the temperature controller set up in the machine case 10, temperature sensor set up in be used for detecting in the water tank 811 the temperature of cooling liquid in the water tank 811.

The utility model is not limited solely to that described in the specification and embodiments, and additional advantages and modifications will readily occur to those skilled in the art, so that the utility model is not limited to the specific details, representative apparatus, and examples shown and described herein, without departing from the spirit and scope of the general concept as defined by the appended claims and their equivalents.

Claims (10)

1. A magnetic stimulation therapeutic apparatus with a headrest is characterized by comprising a case (1), a seat (2), a leg support (3) and a headrest (4); seat (2) install in on quick-witted case (1) and including cushion (21) and with back (22) that cushion (21) upset is connected, leg hold in the palm (3) upset connect in on quick-witted case (1) and with cushion (21) adjacent the setting of seat (2), headrest (4) install in on back (22) of seat (2).

2. The magnetic stimulation treatment apparatus with a headrest according to claim 1, characterized in that the headrest (4) comprises a main body portion (41) and a neck attachment portion (42); the main body part (41) is mounted on the top of the backrest (22), and the neck attaching part (42) is mounted on the main body part (41).

3. The magnetic stimulation treatment apparatus with a headrest according to claim 1, characterized in that the magnetic stimulation treatment apparatus with a headrest further comprises a communication module (5), a signal acquisition module (6), a control module (7) and a magnetic stimulation system (8); the control module (7) is connected between the communication module (5) and the magnetic stimulation system (8), and the magnetic stimulation system (8) comprises a cooling device (81), a power factor corrector (82), a charging module (83), an energy storage element (84), a first magnetic stimulation coil flap (85), a first electronic switch group (86), a second magnetic stimulation coil flap (87) and a second electronic switch group (88); the power factor corrector (82), the charging module (83) and the energy storage element (84) are electrically connected in sequence, the first magnetic stimulation coil racket (85) is electrically connected with the negative electrode of the energy storage element (84), the first electronic switch group (86) is electrically connected between the first magnetic stimulation coil racket (85) and the positive electrode of the energy storage element (84), the second magnetic stimulation coil racket (87) is electrically connected with the negative electrode of the energy storage element (84), and the second electronic switch group (88) is electrically connected between the second magnetic stimulation coil racket (87) and the positive electrode of the energy storage element (84); control module (7), cooling device (81), power factor corrector (82), module of charging (83), energy storage element (84), first magnetic stimulation coil clap (85), first electronic switch group (86) and second electronic switch group (88) all set up in quick-witted case (1) is inside, first magnetic stimulation coil claps (85) with second magnetic stimulation coil claps (87) with seat (2) inside cooling device (81) are connected.

4. A magnetic stimulation treatment instrument with a headrest according to claim 3 characterized in that the signal acquisition module (6) comprises an acquisition unit (60), a preamplifier (61), a notch filter (62), a program controlled amplifier (63), a band pass filter (64), an a/D converter (65), a single chip (66), a digital signal processor (67), an isolation transceiver and a surge protector; the system comprises a collecting unit (60), a preamplifier (61), a notch filter (62), a program-controlled amplifier (63), a band-pass filter (64), an A/D converter (65), a single chip microcomputer (66) and a digital signal processor (67), wherein the single chip microcomputer (66) is electrically connected with the program-controlled amplifier (63), the isolation transceiver is electrically connected with a surge protector, and the surge protector is electrically connected between the program-controlled amplifier (63) and the single chip microcomputer (66).

5. The magnetic stimulation treatment instrument with a headrest according to claim 3, characterized in that the magnetic stimulation treatment instrument with a headrest further comprises a rotary support platform (10), the rotary support platform (10) is rotatably connected to the case (1), the communication module (5) and the signal acquisition module (6) are installed inside the rotary support platform (10), and the signal acquisition module (6) is connected with the communication module (5).

6. A magnetic stimulation treatment apparatus having a headrest according to claim 3 characterized in that said cooling means (81) comprises a water tank (811), a flow sensor (812), a water pump (813) and an air pump (814); the cooling liquid is contained in the water tank (811), the flow sensor (812) is arranged in the water tank (811) and connected with the control module (7), the water pump (813) and the air pump (814) are connected to the water tank (811), and the first magnetic stimulation coil racket (85) and the second magnetic stimulation coil racket (87) are connected with the water tank (811).

7. The magnetic stimulation treatment apparatus with a headrest according to claim 6, characterized in that the cooling device (81) further comprises a hydraulic pressure sensor (815) and a liquid level sensor (816); the hydraulic sensor (815) is electrically connected with the control module (7), and the liquid level sensor (816) is electrically connected with the control module (7) and is positioned in the water tank (811).

8. A magnetic stimulation treatment apparatus having a headrest according to claim 6, characterized in that the cooling means (81) further comprises a radiator fan (817), the radiator fan (817) being arranged adjacent to the water tank (811) and being electrically connected to the control module (7).

9. A magnetic stimulation treatment instrument with a headrest according to claim 3 characterized in that the seat cushion (21) comprises a bottom plate (211), a hard sponge plate (212), a mesh pad (213) and a seat cushion position (214); be formed with on bottom plate (211) and hold a section of thick bamboo (2111), opening (2121) have been seted up on stereoplasm sponge board (212), stereoplasm sponge board (212) install in on bottom plate (211), first magnetic stimulation coil claps (85) accept in hold a section of thick bamboo (2111) and opening (2121), net pad (213) cover in on first magnetic stimulation coil claps (85), cushion position (214) parcel in on stereoplasm sponge board (212), first magnetic stimulation coil clap (85) and net pad (213) and with bottom plate (211) can dismantle the connection.

10. The magnetic stimulation treatment instrument with the headrest according to claim 9, characterized in that the seat cushion (21) further comprises a fixing frame (215), the fixing frame (215) is fixed on one side of the hard sponge plate (212), and the fixing frame (215) presses the first magnetic stimulation coil flapper (85) into the opening (2121).

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