CN217612499U - Electric shock treatment equipment - Google Patents

Abstract

The utility model discloses an electric shock treatment device, which comprises a movable trolley, a display, an uninterrupted power supply, a host and an electric shock treatment instrument; a matrix keyboard is embedded on the table board of the trolley and is electrically connected with the host; the display is arranged on the trolley and is electrically connected with the host and the uninterrupted power supply; the uninterruptible power supply, the host and the electric shock therapeutic apparatus are all placed on the trolley, and the uninterruptible power supply is electrically connected with the host and the electric shock therapeutic apparatus; the electric shock therapeutic apparatus and the trolley are designed and used integrally, and the electric shock therapeutic apparatus can be carried by only pushing the trolley so as to carry out stimulation treatment on patients in different places; the matrix keyboard on the trolley and the matched mouse are used for inputting the photoelectric signals to the main control board through the host, the main control board can output information state signals to the upper computer to realize man-machine interaction, and patients or doctors can observe treatment states in real time through the upper computer.

Description

Electric shock treatment equipment

Technical Field

The utility model relates to an electroshock treatment technical field especially relates to an electroshock treatment facility.

Background

Non-tic electroshock artificially induces seizures by releasing current to the brain, to see if psychotic symptoms can be controlled and alleviated. In the case of ineffective medication, many mental patients artificially produce epileptic seizures by non-tic electroconvulsive shock, and the original psychotic symptoms gradually alleviate or even disappear after the epilepsy is artificially terminated.

The non-twitch treatment is a controllable transient current stimulation which causes extensive discharge of cerebral cortex cells, thereby changing the physiological function of the cerebral cells and achieving the effect of adjusting the dysfunction of the cerebral cells. Has good effect on patients with serious depression and suicide tendency. Present shock therapy apparatus on the market needs to stimulate the treatment to the patient in different places at present, leads to shock therapy apparatus often to need the transport, and it is inconvenient to use, and the function singleness.

In view of the above, there is a need to provide a novel electric shock treatment device to overcome the above-mentioned drawbacks.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an electric shock treatment equipment adopts the integral type design to use electric shock therapeutic instrument and platform truck, only needs to promote the platform truck alright carry the electric shock therapeutic instrument so that carry out amazing treatment to the patient in different places.

In order to achieve the purpose, the utility model provides an electric shock treatment device, which comprises a movable trolley, a display, an uninterruptible power supply, a host and an electric shock treatment instrument; a matrix keyboard is embedded on the table top of the trolley, a placing area is arranged on the table top of the trolley, and the matrix keyboard is electrically connected with the host;

the display is arranged on the trolley and is electrically connected with the host and the uninterrupted power supply;

uninterrupted power source, host computer and electric shock therapeutic instrument all place in on the platform truck, just uninterrupted power source with host computer and electric shock therapeutic instrument electric connection.

Preferably, a storage basket is arranged on the trolley.

Preferably, the electric shock treatment equipment further comprises a printer, and the printer is electrically connected with the uninterruptible power supply and the host.

Preferably, an upper tray and a lower tray are arranged on the lifting support beam of the trolley, the upper tray and the lower tray are arranged in parallel at intervals, the host computer is placed on the lower tray, and the printer is placed on the upper tray.

Preferably, the electric shock therapeutic apparatus comprises a power filter, a charger, a main control board, a communication board and an acquisition board; the power filter, the charger, the main control board, the communication board and the collection board are electrically connected in sequence, a chip is arranged on the main control board and connected with the detection probe and the treatment electrode, and the host machine is electrically connected with the collection board through the communication board.

Preferably, a buzzer and a breathing lamp are arranged on the main control panel.

Preferably, the electric shock therapeutic apparatus further comprises a capacitor plate, wherein a capacitor is arranged on the capacitor plate and electrically connected with the charger and the main control plate.

Preferably, the electric shock therapy apparatus further comprises an impedance detection element, and the impedance detection element is electrically connected with the main control board.

Preferably, the electric shock therapeutic apparatus further comprises a detection input connector and a treatment output connector, wherein the detection input connector and the treatment output connector are both arranged on the main control board and electrically connected with the main control board, the detection probe is electrically connected with the detection input connector, and the treatment electrode is electrically connected with the treatment output connector.

Preferably, the electric shock therapeutic apparatus comprises a casing, and the power filter, the charger, the main control panel, the communication panel, the capacitor panel, the impedance detection element, the detection input connector and the treatment output connector are all accommodated in the casing.

Compared with the prior art, beneficial effect lies in: 1) Adopt the integral type design to use electric shock therapeutic instrument and platform truck, only need promote the platform truck alright carry the electric shock therapeutic instrument so that to stimulate the treatment to the patient in different places.

2) The matrix keyboard on the trolley and the mouse matched with the matrix keyboard are used for inputting a photocurrent signal to the main control panel through the host, the main control panel receives the photocurrent signal to send an instruction to the charger, the treatment electrode and the impedance detection element, the main control panel can output an information state signal to the upper computer to realize man-machine interaction, a patient or a doctor can observe a treatment state in real time through the upper computer, and the use is convenient.

Drawings

Fig. 1 is a perspective view of the electric shock therapy apparatus provided by the present invention.

Fig. 2 is a perspective view of a trolley of the electric shock treatment apparatus shown in fig. 1.

Fig. 3 is an exploded view of the electric shock therapy apparatus of the control system of the electric shock therapy apparatus of fig. 1.

Fig. 4 is a schematic circuit connection diagram of the constant current feedback control one-way module and the H-bridge control circuit module of the electric shock therapy apparatus of the control system of the electric shock therapy apparatus shown in fig. 1.

Reference numerals: 1. a trolley; 2. a display; 3. an uninterruptible power supply; 4. a host; 5. an electrical shock therapy apparatus; 10. a table top; 101. a matrix keyboard; 102. a storage basket; 11. lifting the support beam; 111. an upper tray; 112. a lower tray; 12. a chassis; 121. a universal wheel; 50. a power supply filter; 51. a charger; 52. a main control board; 53. a communication board; 54. collecting a plate; 521. a breathing lamp; 55. a capacitive plate; 551. a capacitor; 56. an impedance detection element; 57. detecting an input connector; 58. a treatment output connector; 59. a housing; 6. the constant current feedback control single-path module; 61. a digital-to-analog conversion element; 62. an amplifier; 63. a first MOS transistor; 7. an H-bridge control circuit module; 71. a second MOS transistor; 72. a third MOS transistor; 73. a fourth MOS transistor; 74. a fifth MOS transistor; 8. a printer.

Detailed Description

In order to make the objects, technical solutions and advantageous technical effects of the present invention more clearly understood, the present invention is further described in detail with reference to the accompanying drawings and the following detailed description. It should be understood that the detailed description and specific examples, while indicating the present invention, are given by way of illustration only and not by way of limitation.

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 convenience in describing the present invention and simplicity in description, and do not indicate or imply that the device or element so 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.

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 to implicitly indicate the number of technical features indicated. Thus, a feature defined as "first", "second", may explicitly or implicitly include one or more of that feature. In addition, the meaning of "plurality" or "a number" refers to two or more, unless specifically limited otherwise.

Referring to fig. 1 to 2, the present invention provides an electric shock therapy apparatus, which includes a movable trolley 1, a display 2, an uninterruptible power supply 3, a host 4 and an electric shock therapy apparatus 5; a matrix keyboard 101 is embedded on the table top 10 of the trolley 1, a placing area for placing the electroshock therapeutic apparatus 5 is arranged on the table top of the trolley 1, and the matrix keyboard 101 is electrically connected with the host 4 so that a doctor can give an instruction to the host 4 through the matrix keyboard to realize man-machine interaction;

the display 2 is arranged on the trolley 1 and is electrically connected with the host 4 and the uninterrupted power supply 3;

uninterrupted power source 3, host computer 4 and electric shock therapeutic instrument 5 all place in on the platform truck 1, just uninterrupted power source 3 with host computer 4 and electric shock therapeutic instrument 5 electric connection.

Further, a storage basket 102 is arranged on the trolley 1, and the storage basket 102 is located on one side of the table top 10.

Further, an upper tray 111 and a lower tray 112 are provided on the lifting support beam 11 of the cart 1, and the upper tray 111 and the lower tray 112 are arranged in parallel at an interval.

Further, universal wheels 121 are mounted on the chassis 12 of the trolley 1 for the user to push the trolley 1 for the stimulation therapy device 5.

Further, the electric shock treatment equipment still includes printer 8, printer 8 with uninterrupted power source 3 and host computer 4 electric connection.

Further, the host computer 4 is placed on the lower tray 112, and the printer 8 is placed on the upper tray 111.

Referring to fig. 3 to 4 together, further, the electric shock therapeutic apparatus 5 includes a power filter 50, a charger 51, a main control board 52, a communication board 53 and a collecting board 54; power filter 50, charger 51, main control board 52, communication board 53 and collection board 54 be electric connection in proper order, be provided with the chip on the main control board 52 and be connected with the treatment electrode that is used for the detection probe that detects human brain and output current, host computer 4 through communication board 53 with collection board 54 electric connection, host computer 4 to communication board 53 assigns the instruction and receives the data collection of collection board 54. It should be noted that the model of the chip of the main control board 52 is STM32F103C6.

Further, a buzzer is disposed on the main control board 52.

Further, a breathing lamp 521 is further disposed on the main control board 52.

Further, the electric shock therapeutic apparatus 5 further comprises a capacitor plate 55, wherein the capacitor plate 55 is provided with a plurality of capacitors 551 and is electrically connected with the charger and the main control board 52, and the capacitors 551 on the capacitor plate 55 are used for storing electric energy of the charger 51. When the charger 51 is charging, the charger 51 raises the 12V dc voltage to 100-600V, and the capacitors 551 on the capacitor plate 55 store energy, so the main control board 52 sends out an instruction to stop discharging.

Further, the electric shock therapeutic apparatus 5 further includes an impedance detection element 56, and the impedance detection element 56 is electrically connected to the main control board 52 and is used for detecting a contact condition between a treatment electrode of the electric shock therapeutic apparatus and the patient. It should be noted that the model of the impedance measuring element is AD5933YRSZ.

When the electric shock therapeutic apparatus is used for treating a patient, the main control board 52 detects and judges the contact condition of the therapeutic electrode of the electric shock therapeutic apparatus detected by the impedance detection element 56 and the patient by receiving and reading the resistance value of the impedance detection element 56, if the contact between the therapeutic electrode of the electric shock therapeutic apparatus 5 and the patient is good and the impedance value detected by the impedance detection element 56 is within the preset range of the main control board 52, the main control board 52 receives the impedance detection information of the impedance detection element 56 and then sends an instruction to enable the charger 51 to provide the voltage increased to 100-600V for the therapeutic electrode of the electric shock therapeutic apparatus 5 to output current to stimulate and treat the patient, and meanwhile, the buzzer 521 sends a prompt tone;

when the electric shock treatment equipment finishes treatment, the charger 51 is turned off to stop charging, and the treatment electrode releases the charge of the capacitor 551;

if the impedance value detected by the impedance detecting element 56 is not within the preset range of the main control board 52, the breathing lamp 521 on the main control board 52 flashes red to prompt the patient or the doctor, sends the impedance value information to the chip on the main control board 52, transmits the impedance value information to the host 4, and displays the impedance value information through the display 2 so that the patient or the doctor can adjust the parameters in real time, thereby facilitating the subsequent stimulation treatment.

Further, the electric shock therapeutic apparatus 5 further comprises a detection input connector 57 and a therapy output connector 58, the detection input connector 57 and the therapy output connector 58 are both installed on the main control board 52 and electrically connected to the main control board 52, the detection probe is electrically connected to the detection input connector 57 through a wire harness, and the therapy electrode is electrically connected to the therapy output connector 58 through a wire harness.

When the upper computer (the computer formed by the host 4 and the display 2) is connected with the main control board 52, the upper computer inputs an optical current signal to the main control board 52 through the host 4, and the main control board 52 receives the optical current signal to send an instruction to the charger 51, the treatment electrode and the impedance detection element 56.

When the host 4 sends an instruction to the main control board 52 to enable the therapeutic electrode of the electric shock therapeutic apparatus 5 to output current to stimulate and treat a patient, the main control board 52 outputs an information state signal to the upper computer to realize man-machine interaction, so that the patient or a doctor can observe a treatment state in real time through the upper computer.

Further, the electric shock therapeutic apparatus 5 comprises a housing 59, and the power filter 50, the charger 51, the main control board 52, the communication board 53, the capacitor board 55, the impedance detection element 56, the detection input connector 57 and the treatment output connector 58 are all accommodated in the housing 59.

Further, the control system of the electric shock treatment device further comprises a constant current feedback control circuit module 6 and an H-bridge control circuit module 7, wherein the constant current feedback control module is electrically connected with the main control board 52; the H-bridge control circuit module 7 is electrically connected with the main control board 52 and the constant current feedback control module 6.

Further, the constant current feedback control circuit module 6 includes a digital-to-analog conversion element 61, an amplifier 62, a first MOS transistor 63, a resistor R1, and a resistor R2; the first end of the digital-to-analog conversion element 61 is electrically connected to the chip on the main control board 52, the second end of the digital-to-analog conversion element 61 is electrically connected to the positive input end of the amplifier 62, the negative input end of the amplifier 62 is electrically connected to the first end of the resistor R1, the second end of the resistor R1 is electrically connected to the first end of the resistor R2 and the source S of the first MOS transistor 63, the second end of the resistor R2 is grounded, the output end of the amplifier 62 is electrically connected to the gate G of the first MOS transistor 63, and the drain D of the first MOS transistor 63 is electrically connected to the H-bridge control circuit module 7. In this embodiment, the digital-to-analog conversion element 61 is a DAC chip with a model number of DAC7611.

Further, the H-bridge control circuit module 7 includes a resistor R3, a resistor R4, a resistor R5, a second MOS transistor 71, a third MOS transistor 72, a fourth MOS transistor 73, and a fifth MOS transistor 74; a first end of the resistor R3 is electrically connected to the chip on the main control board 52 through a wire, a second end of the resistor R3 is electrically connected to the gate G of the second MOS transistor 71, and the source S of the second MOS transistor 71 is electrically connected to the drain D of the first MOS transistor 63;

the first end of the resistor R3 is further electrically connected to the gate G of the third MOS transistor 72, the source S of the third MOS transistor 72 is electrically connected to the source S of the fourth MOS transistor 73, the drain D of the third MOS transistor 72 is electrically connected to the drain D of the fifth MOS transistor 74, the gate G of the fourth MOS transistor 73 is electrically connected to the gate G of the fifth MOS transistor 74 through the resistor R4, the drain D of the fourth MOS transistor 73 is electrically connected to the drain D of the second MOS transistor 71, and the source S of the fifth MOS transistor 74 is electrically connected to the drain D of the first MOS transistor 63; a first end of the resistor R5 is electrically connected to the drain D of the second MOS transistor 71 and the drain D of the fourth MOS transistor 73, and a second end of the resistor R5 is electrically connected to the drain D of the third MOS transistor 72 and the drain D of the fourth MOS transistor 73.

When the current of the resistor R2 is greater than the current value (0.9A) set by the chip of the main control board 52, the first MOS transistor is turned off, and when the current of the resistor R12 is less than the current (0.9A) set by the main control board 52, the first MOS transistor 63 is turned on, so that the constant current feedback control circuit module 6 can provide stable current to alternately change the current directions of the second MOS transistor 71 and the third MOS transistor 72 of the H-bridge control circuit module 7 or change the current directions of the fourth MOS transistor 73 and the fifth MOS transistor 74 to generate a positive-negative bidirectional rectangular wave.

The present invention is not limited to what has been described in the specification and embodiments, and additional advantages and modifications will readily occur to those skilled in the art, such that the invention 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. An electric shock treatment device is characterized by comprising a movable trolley (1), a display (2), an uninterruptible power supply (3), a host (4) and an electric shock treatment device (5); a matrix keyboard (101) is embedded on the table board (10) of the trolley (1), a placing area is arranged on the table board of the trolley (1), and the matrix keyboard (101) is electrically connected with the host (4);

the display (2) is arranged on the trolley (1) and is electrically connected with the host (4) and the uninterrupted power supply (3);

uninterrupted power source (3), host computer (4) and electric shock therapeutic instrument (5) all place in on platform truck (1), just uninterrupted power source (3) with host computer (4) and electric shock therapeutic instrument (5) electric connection.

2. The electroshock therapy device according to claim 1, characterized in that a storage basket (102) is provided on said trolley (1).

3. The electroshock therapy device according to claim 1, further comprising a printer (8), said printer (8) being electrically connected to said uninterruptible power supply (3) and to a host (4).

4. The electroshock therapy device according to claim 3, wherein an upper tray (111) and a lower tray (112) are provided on the lifting support beam (11) of the trolley (1), the upper tray (111) and the lower tray (112) are arranged in parallel at a spacing, the host (4) is placed on the lower tray (112), and the printer (8) is placed on the upper tray (111).

5. The electroshock therapy device of claim 1, wherein said electroshock therapy device (5) comprises a power filter (50), a charger (51), a main control board (52), a communication board (53) and a collection board (54); the power filter (50), the charger (51), the main control board (52), the communication board (53) and the acquisition board (54) are electrically connected in sequence, a chip is arranged on the main control board (52) and connected with a detection probe and a treatment electrode, and the host (4) is electrically connected with the acquisition board (54) through the communication board (53).

6. The electroshock therapy device of claim 5, wherein a buzzer and a breathing lamp (521) are provided on the main control board (52).

7. The electroshock therapy device of claim 6, wherein the electroshock therapy device (5) further comprises a capacitor plate (55), and the capacitor plate (55) is provided with a capacitor (551) and is electrically connected with the charger and the main control board (52).

8. The electrical shock therapy apparatus of claim 7, wherein the electrical shock therapy apparatus (5) further comprises an impedance detection element (56), the impedance detection element (56) being electrically connected to the main control board (52).

9. The electroshock therapy device of claim 8, wherein the electroshock therapy device (5) further comprises a detection input connector (57) and a therapy output connector (58), the detection input connector (57) and the therapy output connector (58) are both mounted on the main control board (52) and electrically connected with the main control board (52), a detection probe is electrically connected with the detection input connector (57), and a therapy electrode is electrically connected with the therapy output connector (58).

10. The electroshock therapy device of claim 9, wherein the electroshock therapy device (5) comprises a housing (59), and the power filter (50), the charger (51), the main control board (52), the communication board (53), the capacitor board (55), the impedance detection element (56), the detection input connector (57), and the therapy output connector (58) are all housed within the housing (59).

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