CN206837238U - A kind of transcranial magnetic stimulation excitation device based on Internet of Things - Google Patents

Abstract

The utility model discloses a kind of transcranial magnetic stimulation excitation device based on Internet of Things, including cabinet and base, four corners of the bottom of cabinet bulk are respectively fixed with Universal self-locking wheel, and control panel is installed on a side of cabinet, the singlechip controller of installation is located at the side of high-voltage pulse electric source generator inside the cabinet, and it is provided with display screen controlling switch on a side of the display screen set at the top of cabinet, the base is located at the side of cabinet, and the seat of base top fixation is located at the side of hydraulic pump, cushion is installed on the seat, and pressure sensor is provided with the top of cushion, the head-shield that the top of the hydraulically extensible bar of connection is fixed by fastener at the top of the hydraulic pump is located at the surface of seat.The signal value that pressure sensor, touch sensor and temperature sensor detect is passed to singlechip controller by the utility model by the internet of things module of setting, but when each orientation has detected pressure value.

Description

A kind of transcranial magnetic stimulation excitation device based on Internet of Things

Technical field

Medical apparatus and instruments technical field is the utility model is related to, specially a kind of transcranial magnetic stimulation based on Internet of Things swashs Send out equipment.

Background technology

Transcranial magnetic stimulation technology is a kind of painless and noninvasive green treatment method, and magnetic signal can with undamped pass through cranium Bone and stimulate cerebral nerve, the stimulation of brains is not limited in practical application, peripheral nerve muscle can equally stimulate, because It is " Neural stem cell " that this all cries it now.With the development of technology, the transcranial magnetic stimulation (rTMS) with continuously adjustabe repetitive stimulation Occur, and increasing accreditation is obtained in clinical mental disease, sacred disease and rehabilitation field.It mainly passes through different frequencies To reach therapeutic purposes, high frequency (>1Hz) mainly excited effect, low frequency (≤1Hz) are then the effects suppressed.Because its is painless, Non-wound physical characteristic, realize that mankind's dream all the time-virtually damage brain explores brain function and higher cognitive work( Energy.With PET, FMRI, MEG and being referred to as " brain of 21st century four science and technology "

At present, existing transcranial magnetic stimulation equipment forms strong pulsed magnetic field by coil discharge and high current by coil, So as to produce Induced magnetic field, and then the purpose stimulated, but great immediate current can make line caused by coil discharge The temperature of circle constantly rises, and easily burns out coil, and existing transcranial magnetic stimulation equipment is typically all and directly controlled in addition, and can not Realize remote control.

Utility model content

The purpose of this utility model is to provide a kind of transcranial magnetic stimulation excitation device based on Internet of Things, above-mentioned to solve The problem of being proposed in background technology, possessed beneficial effect are：The equipment is passed pressure by the internet of things module of setting The signal value that sensor, touch sensor and temperature sensor detect passes to singlechip controller, but each orientation detects To when having pressure value, singlechip controller automatically controls hydraulic pump works.

To achieve the above object, the utility model provides following technical scheme：A kind of transcranial magnetic stimulation based on Internet of Things Excitation device, including cabinet and base, four corners of the bottom of cabinet bulk are respectively fixed with Universal self-locking wheel, and cabinet Control panel is installed, the singlechip controller installed inside the cabinet is located at high-voltage pulse electric source generator on one side Side, and cabinet at the top of set display screen a side on be provided with display screen controlling switch, the base is located at cabinet The side of body, and the seat of base top fixation is located at the side of hydraulic pump, and cushion, and the top of cushion are provided with the seat Portion is provided with pressure sensor, the head-shield position that the top of the hydraulically extensible bar of connection is fixed by fastener at the top of the hydraulic pump In the surface of seat, the input of the hydraulic pump, the output end of touch sensor and temperature sensor and mixed-media network modules mixed-media connects Connect, the input of the output end of the mixed-media network modules mixed-media and singlechip controller connects, the output end of the singlechip controller with Display screen, pressure sensor connect with the input of high-voltage pulse electric source generator, the high-voltage pulse electric source generator it is defeated Go out end to be connected with the input of magnetic stimulating coil.

Preferably, the touch sensor is arranged on the inner tip of head-shield.

Preferably, the magnetic stimulating coil is located on the madial wall of head-shield.

Preferably, the temperature sensor is electrically connected with magnetic stimulating coil.

Preferably, the singlechip controller, high-voltage pulse electric source generator, hydraulic pump, pressure sensor, touch sensing Device, temperature sensor and magnetic stimulating coil are electrically connected with control panel.

Preferably, the display screen is electrically connected with display screen controlling switch.

Preferably, the singlechip controller is AT types.

Preferably, the mixed-media network modules mixed-media is to be based on ICP/IP protocol.

Preferably, the mixed-media network modules mixed-media uses GPRS network or GSM network.

Compared with prior art, the beneficial effects of the utility model are：The equipment will by the internet of things module of setting The signal value that pressure sensor, touch sensor and temperature sensor detect passes to singlechip controller, but each orientation When having detected pressure value, singlechip controller automatically controls hydraulic pump works, drives head-shield to decline by hydraulically extensible bar, When touch sensor contacts with human body head, singlechip controller then controls hydraulic pump to be stopped, while temperature sensor The temperature of detection magnetic stimulating coil in real time, when temperature is too high, singlechip controller automatically controls high-voltage pulse electric source generator It is stopped, so as to avoid burning out coil, also achieves remote control.

Brief description of the drawings

Fig. 1 is structural representation of the present utility model；

Fig. 2 is rearview of the present utility model；

Fig. 3 is the structural representation of the utility model cushion；

Fig. 4 is theory diagram of the present utility model.

In figure：1- singlechip controllers；2- cabinets；3- display screens；4- display screen controlling switches；5- head-shields；6- hydraulic pressure is stretched Contracting bar；7- control panels；8- seats；9- cushions；10- bases；11- high-voltage pulse electric source generators；12- Universal self-locking wheels；13- Hydraulic pump；14- pressure sensors；15- mixed-media network modules mixed-medias；16- touch sensors；17- temperature sensors；18- magnetic stimulating coils.

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the embodiment of the utility model is carried out Clearly and completely describing, it is clear that described embodiment is only the utility model part of the embodiment, rather than whole Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not under the premise of creative work is made The every other embodiment obtained, belong to the scope of the utility model protection.

Refer to Fig. 1-4, a kind of embodiment provided by the utility model：A kind of transcranial magnetic stimulation based on Internet of Things excites Equipment, including cabinet 2 and base 10, four corners of the bottom of cabinet 2 are respectively fixed with Universal self-locking wheel 12, and cabinet 2 Control panel 7 is installed, the singlechip controller 1 of the inside of cabinet 2 installation is located at high-voltage pulse electric source generator on one side 11 side, and display screen controlling switch 4 is provided with a side of the display screen 3 of the top of cabinet 2 setting, base 10 is located at The side of cabinet 2, and seat 8 fixed at the top of base 10 is located at the side of hydraulic pump 13, cushion 9 is provided with seat 8, and sit The top of pad 9 is provided with pressure sensor 14, and the top of the hydraulically extensible bar 6 of the top of hydraulic pump 13 connection is fixed by fastener Head-shield 5 be located at the surface of seat 8, hydraulic pump 13, the output end of touch sensor 16 and temperature sensor 17 and network mould The input connection of block 15, the output end of mixed-media network modules mixed-media 15 are connected with the input of singlechip controller 1, singlechip controller 1 Output end be connected with the input of display screen 3, pressure sensor 14 and high-voltage pulse electric source generator 11, high-voltage pulse power source The output end of generator 11 is connected with the input of magnetic stimulating coil 18.

Touch sensor 16 is arranged on the inner tip of head-shield 5；Magnetic stimulating coil 18 is located on the madial wall of head-shield 5；Temperature Degree sensor 17 is electrically connected with magnetic stimulating coil 18；Singlechip controller 1, high-voltage pulse electric source generator 11, hydraulic pump 13, Pressure sensor 14, touch sensor 16, temperature sensor 17 and magnetic stimulating coil 18 are electrically connected with control panel 7；It is aobvious Display screen 3 is electrically connected with display screen controlling switch 4；Singlechip controller 1 is AT types；Mixed-media network modules mixed-media 15 is assisted based on TCP/IP View；Mixed-media network modules mixed-media 15 uses GPRS network or GSM network.

Operation principle：In use, switching on power, the starting switch on control panel 7 is opened, opens display screen controlling switch 4, when taking when on the cushion 9 on seat 8, pressure sensor 14 can detect a signal value, and pass through mixed-media network modules mixed-media Signal value is passed to singlechip controller 1 by 15, and singlechip controller 1 then automatically controls hydraulic pump 13 and started working, and passes through liquid Press pump 13, which works, is pressed into the hydraulic oil in hydraulic cylinder in hydraulically extensible bar 6, so as to drive hydraulically extensible bar 6 flexible, and then band Dynamic head-shield 5 moves down, when the touch sensor 16 of the inner tip of head-shield 5 contacts with human body head, the meeting of touch sensor 16 1 one signals of singlechip controller are passed to, singlechip controller 1 then controls hydraulic pump 13 to be stopped, so that head-shield 5 stops Only decline, then, worked by high-voltage pulse electric source generator 11 and produce high-voltage pulse signal, and the high-voltage pulse signal is carried Magnetic stimulating coil 18 is supplied, magnetic stimulating coil 18 obtains producing alternate pulsed magnetic field after high-voltage pulse signal, so as to people Brain stimulated, while temperature sensor 17 monitors the temperature value of magnetic stimulating coil 18, and the temperature value that will be measured in real time Singlechip controller 1 is passed to, when temperature is too high, singlechip controller 1 automatically controls high-voltage pulse electric source generator 11 and stopped Only work, so as to avoid burning out coil, in therapeutic process, every monitoring data is shown to display screen 3 by singlechip controller 1 On, facilitate medical personnel to check.

It is obvious to a person skilled in the art that the utility model is not limited to the details of above-mentioned one exemplary embodiment, and And in the case of without departing substantially from spirit or essential attributes of the present utility model, it can realize that this practicality is new in other specific forms Type.Therefore, no matter from the point of view of which point, embodiment all should be regarded as exemplary, and is nonrestrictive, this practicality is new The scope of type limits by appended claims rather than described above, it is intended that the equivalency fallen in claim is contained All changes in justice and scope are included in the utility model.Any reference in claim should not be considered as limitation Involved claim.

Claims (9)

1. a kind of transcranial magnetic stimulation excitation device based on Internet of Things, including cabinet (2) and base (10), it is characterised in that：Institute Four corners for stating cabinet (2) bottom are respectively fixed with Universal self-locking wheel (12), and are provided with a side of cabinet (2) Control panel (7), the singlechip controller (1) of the internal installation of the cabinet (2) are located at high-voltage pulse electric source generator (11) Side, and it is provided with display screen controlling switch (4), the base on a side of the display screen (3) set at the top of cabinet (2) (10) it is located at the side of cabinet (2), and seat (8) fixed at the top of base (10) is located at the side of hydraulic pump (13), the seat Cushion (9) is installed on chair (8), and pressure sensor (14) is provided with the top of cushion (9), is connected at the top of the hydraulic pump (13) The head-shield (5) that the top of the hydraulically extensible bar (6) connect is fixed by fastener is located at the surface of seat (8), the hydraulic pump (13), the output end of touch sensor (16) and temperature sensor (17) is connected with the input of mixed-media network modules mixed-media (15), the net The output end of network module (15) is connected with the input of singlechip controller (1), the output end of the singlechip controller (1) with Display screen (3), pressure sensor (14) connect with the input of high-voltage pulse electric source generator (11), the high-voltage pulse power source The output end of generator (11) is connected with the input of magnetic stimulating coil (18).

A kind of 2. transcranial magnetic stimulation excitation device based on Internet of Things according to claim 1, it is characterised in that：It is described to touch Touch the inner tip that sensor (16) is arranged on head-shield (5).

A kind of 3. transcranial magnetic stimulation excitation device based on Internet of Things according to claim 1, it is characterised in that：The magnetic Stimulating coil (18) is located on the madial wall of head-shield (5).

A kind of 4. transcranial magnetic stimulation excitation device based on Internet of Things according to claim 1, it is characterised in that：The temperature Sensor (17) is spent to be electrically connected with magnetic stimulating coil (18).

A kind of 5. transcranial magnetic stimulation excitation device based on Internet of Things according to claim 1, it is characterised in that：The list Piece machine controller (1), high-voltage pulse electric source generator (11), hydraulic pump (13), pressure sensor (14), touch sensor (16), temperature sensor (17) and magnetic stimulating coil (18) are electrically connected with control panel (7).

A kind of 6. transcranial magnetic stimulation excitation device based on Internet of Things according to claim 1, it is characterised in that：It is described aobvious Display screen (3) is electrically connected with display screen controlling switch (4).

A kind of 7. transcranial magnetic stimulation excitation device based on Internet of Things according to claim 1, it is characterised in that：The list Piece machine controller (1) is AT types.

A kind of 8. transcranial magnetic stimulation excitation device based on Internet of Things according to claim 1, it is characterised in that：The net Network module (15) is to be based on ICP/IP protocol.

A kind of 9. transcranial magnetic stimulation excitation device based on Internet of Things according to claim 1, it is characterised in that：The net Network module (15) uses GPRS network or GSM network.