CN216676697U - Non-contact intermediate frequency directional medicine penetrating device - Google Patents

Non-contact intermediate frequency directional medicine penetrating device Download PDF

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CN216676697U
CN216676697U CN202122229682.1U CN202122229682U CN216676697U CN 216676697 U CN216676697 U CN 216676697U CN 202122229682 U CN202122229682 U CN 202122229682U CN 216676697 U CN216676697 U CN 216676697U
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bearing
face
groove
tank
embedded
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彭辉
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Henan Chuannuotang Medical Equipment Co ltd
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Henan Chuannuotang Medical Equipment Co ltd
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Abstract

The utility model relates to a directional penetrating medicine device of non-contact intermediate frequency, including bearing the base, the protection end cover, the control chamber, quiet binding post, move binding post, insulating tray, the pulse electrode, the medicament hold up tank, intermediate frequency pulse generation circuit and master control circuit, the protection end cover cladding is at the terminal surface before bearing the base, the medicament hold up tank inlays in the cell body of bearing the terminal surface before the base, establish the guiding hole in medicament hold up tank and the protection end cover, insulating tray inlays in the guiding hole of medicament hold up tank, insulating tray cladding is at pulse electrode rear end face, the terminal surface is located protection end cover front end face off before the pulse electrode, the control chamber inlays in the cell body of bearing base rear end face, intermediate frequency pulse generation circuit and master control circuit all inlay in the control intracavity. The novel medicine effective component exerting efficiency can be effectively realized, the absorption utilization rate of a human body to the effective component of the medicine is improved, and the defects of high-temperature deterioration and the like of the medicine caused by uneven distribution of the medicine can be effectively prevented.

Description

Non-contact intermediate frequency directional medicine penetrating device
Technical Field
The utility model relates to a non-contact intermediate frequency directional medicine penetrating device, belonging to the technical field of physiotherapy massage equipment.
Background
At present, in physiotherapy health care and some disease treatments through drug penetration treatment, auxiliary treatment operation needs to be carried out by means of drug-oriented drug penetration treatment equipment, aiming at the requirement, a plurality of drug penetration devices are currently developed, for example, a low-frequency ultrasonic targeted drug penetration device with the patent application number of 2019202013381 can meet the use requirement, but the device has a complex structure, poor use flexibility and high operation difficulty on one hand, and on the other hand, the comprehensive utilization rate of active ingredients of the drugs is low in operation, so that the biological activity of the tissues of the focus parts of a human body cannot be effectively improved and the excitation capacity of the active ingredients of the drugs is low, and the current devices are difficult to effectively meet the use requirement to different degrees.
Therefore, in order to solve this problem, it is urgently required to develop a directional drug delivery device to meet the needs of practical use.
Disclosure of Invention
In order to solve the deficiency in the prior art, the utility model provides a directional penetrating medicine device of non-contact intermediate frequency, this novel simple structure, the flexible operation is convenient, the commonality is good, and integrate and the modularization degree is high, can effectively satisfy the hot compress of each position medicine of human body, the needs of pulse therapy operation, simultaneously in the use, can effectual medicine active ingredient performance efficiency with improve the human body and to medicine active ingredient absorption utilization ratio, and can effectively prevent medicine defects such as deterioration because of distributing unevenly that the medicine high temperature that leads to, thereby very big improvement the efficiency and the reliability of medicine infiltration operation.
In order to achieve the purpose, the utility model is realized by the following technical scheme:
a non-contact type intermediate frequency directional medicine permeation device comprises a bearing base, a protective end cover, a control cavity, a static connecting terminal, a movable connecting terminal, a bearing spring, an insulating tray, a pulse electrode, a medicine storage tank, an intermediate frequency pulse generation circuit and a main control circuit, wherein the bearing base is of an I-shaped groove structure in axial section, the insulating tray and the medicine storage tank are of U-shaped cylindrical groove structures in axial section, the protective end cover is covered on the front end face of the bearing base and forms a closed cavity structure with the groove body on the front end face of the bearing base, the medicine storage tank is embedded in the groove body on the front end face of the bearing base, the bottom of the medicine storage tank is abutted against the bottom of the groove through the bearing spring, the medicine storage tank is coaxially distributed with the bearing base and the bearing spring and is in sliding connection with the side wall of the groove body on the front end face of the bearing base, guide holes coaxially distributed with the medicine storage tank and the protective end cover are arranged in the medicine storage tank and the protective end cover, the insulating tray is embedded in a guide hole of the medicament storage tank and is connected with the guide hole in a sliding way, the insulating tray covers the rear end face of the pulse electrode, the rear end face of the insulating tray is connected with the tank bottom through a bearing spring, the front end face of the pulse electrode is positioned outside the front end face of the protective end cover through the guide hole of the protective end cover and is connected with the guide hole in a coaxial sliding way, the static wiring terminal is embedded in the tank bottom of the tank body on the rear end face of the bearing base and is respectively and electrically connected with the pulse electrode and the medicament storage tank through a lead, the control cavity is a closed cavity structure which is coaxially distributed with the bearing base and is embedded in the tank body on the rear end face of the bearing base and is connected with the tank wall in a sliding way, at least two movable wiring terminals are embedded in the bottom of the control cavity, the other movable wiring terminals are positioned on the upper end face of the control cavity, the intermediate frequency pulse generating circuit and the main control circuit are both embedded in the control cavity and are respectively and electrically connected with the movable wiring terminals, and the movable wiring terminal positioned at the bottom of the control cavity is electrically connected with the static wiring terminal.
Furthermore, the medicament storage tank comprises a bearing groove, elastic sheets, compression springs, an ultrasonic oscillation mechanism, a far infrared irradiation heating device, a temperature sensor, a pressing plate, a flexible protective layer and an auxiliary connecting terminal, wherein the bearing groove is of a U-shaped groove-shaped structure in axial section, the pressing plate is embedded in the front end face of the bearing groove, is coaxially distributed with the bearing groove and is in sliding connection with the side walls of the bearing groove, the pressing plate is connected with the bottom of the bearing groove through at least two compression springs, at least one layer of flexible protective layer is coated on the outer surface of the pressing plate, a plurality of through holes with the aperture of 0.1-1 mm are uniformly distributed on the pressing plate and the flexible protective layer, at least two elastic sheets are uniformly distributed around the axis of the bearing groove and are connected with the side walls of the bearing groove, the elastic sheets are positioned above the bottom of the bearing groove by 0-20 mm, the axis of the elastic sheets and the bottom of the bearing groove form an included angle of 0-60 degrees, and the length of the elastic sheets is 10-60 percent of the radius of the bearing groove, the width is 3-20 millimeters, far infrared irradiation heating device is at least two, inlays in the bearing groove lateral wall internal surface of shell fragment top and encircles the bearing groove axis equipartition, just far infrared irradiation heating device axis intersects and is 30-90 contained angles with the bearing groove axis, and nodical being located bearing groove top 5 millimeters at least departments, temperature sensor, ultrasonic oscillation mechanism and supplementary binding post all are connected with bearing groove bottom surface, just supplementary binding post respectively with ultrasonic oscillation mechanism, far infrared irradiation heating device, temperature sensor and quiet binding post electrical connection.
Further, bearing groove lateral surface equipartition a plurality of with bearing groove axis parallel distribution's heat dissipation fin, the direction spout is established to the bearing base slot body lateral wall that the heat dissipation fin corresponds, and the heat dissipation fin inlays in the direction spout and through direction spout and bearing base sliding connection, bearing the base lateral wall and establishing a plurality of heat dissipation holes in addition, and the louvre is located position between the adjacent two heat dissipation fins.
Furthermore, the pulse electrode comprises a conductive rubber column and metal electrode plates, the conductive rubber column is of a cylindrical structure, the rear end of the conductive rubber column is embedded in the insulating tray and is coaxially distributed in the insulating tray, at least two metal electrode plates are of plate-shaped structures with rectangular cross sections, the metal electrode plates are coated on the outer side face of the conductive rubber column and are embedded in the insulating tray, the metal electrode plates are mutually connected in parallel and are electrically connected with the static connecting terminal through a lead, and the front end face of the conductive rubber column is of any one of a conical structure and a spherical crown structure.
Furthermore, through threaded connection between control chamber and the side wall of bearing base rear end face side, and establish an insulating seal ring with the coaxial distribution of control chamber between control chamber and tank bottom, insulating seal ring up end offsets with the terminal surface under the control chamber, offsets through at least one belleville spring between terminal surface and the tank bottom of bearing base rear end face cell body down.
Furthermore, the main control circuit comprises a driving circuit based on an industrial single chip microcomputer, an operation interface and an emergency power supply are additionally arranged on the main control circuit, the operation interface is embedded in the upper end face of the control cavity, the emergency power supply is embedded in the control cavity, and the operation interface and the emergency power supply are electrically connected with the driving circuit based on the industrial single chip microcomputer.
This novel simple structure, the flexible operation is convenient, and the commonality is good, and integrate with the modularization degree high, can effectively satisfy the needs of each position medicine hot compress of human body, impulse therapy operation, simultaneously in the use, can effectual medicine active ingredient performance efficiency with improve the human body and to medicine active ingredient absorption utilization ratio to can effectively prevent medicine defect such as deterioration because of the medicine high temperature that the uneven distribution leads to, thereby very big improvement the efficiency and the reliability of medicine infiltration operation.
Drawings
The present invention will be described in detail with reference to the accompanying drawings and specific embodiments;
fig. 1 is a schematic diagram of the novel structure.
Detailed Description
In order to make the technical means, creation features, achievement purposes and effects of the novel implementation easy to construct, the novel implementation is further explained below by combining with specific embodiments.
As shown in figure 1, a non-contact type intermediate frequency directional drug permeation device comprises a bearing base 1, a protective end cover 2, a control cavity 3, a static connecting terminal 4, a movable connecting terminal 5, a bearing spring 6, an insulating tray 7, a pulse electrode 8, a drug storage tank 9, an intermediate frequency pulse generating circuit 10 and a main control circuit 11, wherein the bearing base 1 is of an I-shaped groove structure in axial section, the insulating tray 7 and the drug storage tank 9 are of a U-shaped cylindrical groove structure in axial section, the protective end cover 2 covers the front end face of the bearing base 1 and forms a closed cavity structure with a groove body on the front end face of the bearing base 1, the drug storage tank 9 is embedded in the groove body on the front end face of the bearing base 1, the bottom of the drug storage tank abuts against the bottom of the groove through the bearing spring 6, the drug storage tank 9 is coaxially distributed with the bearing base 1 and the bearing spring 6 and is in sliding connection with the side wall of the groove body on the front end face of the bearing base 1, the medicament storage tank 9 and the protective end cover 2 are internally provided with guide holes 12 which are coaxially distributed with the medicament storage tank 9, an insulating tray 7 is embedded in the guide holes 12 of the medicament storage tank 9 and is connected with the guide holes 12 in a sliding way, the insulating tray 7 covers the rear end face of the pulse electrode 8, the rear end face of the insulating tray 7 is connected with the tank bottom through a bearing spring 6, the front end face of the pulse electrode 8 is positioned outside the front end face of the protective end cover 2 through the guide holes 12 of the protective end cover 2 and is coaxially and slidably connected with the guide holes 12, a static wiring terminal 4 is embedded in the tank bottom of the tank body on the rear end face of the bearing base 1 and is respectively and electrically connected with the pulse electrode 8 and the medicament storage tank 9 through leads, the control cavity 3 is a closed cavity structure which is coaxially distributed with the bearing base 1, is embedded in the tank body on the rear end face of the bearing base 1 and is slidably connected with the tank wall, at least two movable wiring terminals 5 are embedded in the bottom of the control cavity 3, the other one is located on the upper end surface of the control cavity 3, the intermediate frequency pulse generating circuit 10 and the main control circuit 11 are embedded in the control cavity 3 and are respectively electrically connected with the movable wiring terminals 5, and the movable wiring terminals 5 located at the bottom of the control cavity 3 are electrically connected with the static wiring terminals 4.
It is important to explain that the medicament storage tank 9 includes a bearing tank 91, an elastic sheet 92, a pressure spring 93, an ultrasonic oscillation mechanism 94, a far infrared radiation heating device 95, a temperature sensor 96, a pressure plate 97, a flexible protective layer 98 and an auxiliary connection terminal 90, the bearing tank 91 is of a U-shaped groove-shaped structure in axial section, the pressure plate 97 is embedded in the front end surface of the bearing tank 91, is coaxially distributed with the bearing tank 91 and is slidably connected with the side wall of the bearing tank 91, the pressure plate 97 is connected with the bottom of the bearing tank 91 through at least two pressure springs 93, the outer surface of the pressure plate 97 is coated with at least one flexible protective layer 98, a plurality of through holes 901 with the aperture of 0.1-1 mm are uniformly distributed on the pressure plate 97 and the flexible protective layer 98, at least two elastic sheets 92 are uniformly distributed around the axis of the bearing tank 91 and are connected with the side wall of the bearing tank 91, the elastic sheets 92 are located 0-20 mm above the bottom of the bearing tank 91, the axis of the elastic sheet 92 and the bottom of the bearing groove 91 form an included angle of 0-60 degrees, the length of the elastic sheet 92 is 10% -60% of the radius of the bearing groove 91, the width of the elastic sheet 92 is 3-20 mm, at least two far infrared irradiation heating devices 95 are embedded on the inner surface of the side wall of the bearing groove 91 above the elastic sheet 92 and uniformly distributed around the axis of the bearing groove 91, the axes of the far infrared irradiation heating devices 95 intersect with the axis of the bearing groove 91 and form an included angle of 30-90 degrees, the intersection point is located at least 5 mm above the bearing groove 91, the temperature sensor 96, the ultrasonic oscillation mechanism 94 and the auxiliary wiring terminal 90 are all connected with the outer surface of the bottom of the bearing groove 91, and the auxiliary wiring terminal 90 is electrically connected with the ultrasonic oscillation mechanism 94, the far infrared irradiation heating device 95, the temperature sensor 96 and the static wiring terminal 4 respectively.
Further preferably, a plurality of heat dissipation fins 902 distributed in parallel with the axis of the bearing groove 91 are uniformly distributed on the outer side surface of the bearing groove 91, a guide chute 903 is formed in the side wall of the body of the bearing base 1 corresponding to the heat dissipation fins 902, the heat dissipation fins 902 are embedded in the guide chute 903 and are in sliding connection with the bearing base 1 through the guide chute 903, a plurality of heat dissipation holes 904 are additionally formed in the side wall of the bearing base 1, and the heat dissipation holes 904 are located between the two adjacent heat dissipation fins 902.
Meanwhile, the pulse electrode 8 includes a conductive rubber column 81 and metal electrode plates 82, the conductive rubber column 81 is of a cylindrical structure, the rear end of the conductive rubber column 81 is embedded in the insulating tray 7 and is coaxially distributed in the insulating tray 7, at least two of the metal electrode plates 82 are both of a plate-shaped structure with a rectangular cross section, the metal electrode plates 82 are coated on the outer side surface of the conductive rubber column 81 and are embedded in the insulating tray 7, the metal electrode plates 82 are mutually connected in parallel and are electrically connected with the static connection terminal 4 through a lead, and the front end surface of the conductive rubber column 81 is of any one of a conical structure and a spherical crown structure.
In this embodiment, pass through threaded connection between control chamber 3 and the side wall of bearing base 1 rear end face side, and establish an insulating seal ring 13 with the coaxial distribution of control chamber 3 between control chamber 3 and tank bottom, insulating seal ring 13 up end offsets with the lower terminal surface in control chamber 3, and the lower terminal surface offsets through at least one belleville spring 14 with the tank bottom of bearing base 1 rear end face cell body.
In this embodiment, the main control circuit 11 includes a driving circuit based on an industrial single chip, and the main control circuit is additionally provided with an operation interface 111 and an emergency power supply 112, the operation interface 111 is embedded in the upper end surface of the control cavity 3, the emergency power supply 112 is embedded in the control cavity 3, and the operation interface 111 and the emergency power supply 112 are both electrically connected to the driving circuit based on the industrial single chip.
This is novel in concrete implementation, at first assembles this neotype base, protection end cover, control chamber, quiet binding post, moving binding post, bearing spring, insulating tray, pulse electrode, medicament hold up tank, intermediate frequency pulse generating circuit and master control circuit that bear that constitutes, accomplishes this novel assembly.
In the operation of the novel controller, on one hand, the novel control cavity is electrically connected with an external power circuit through a movable connecting terminal, and the novel controller is charged by a main control circuit while providing driving electric energy for the novel controller; on the other hand, the medicament is added into the bearing groove of the medicament storage groove and is coated on the upper end surface of the elastic sheet, the medicament is coated and positioned through the pressing plate, the protective end cover is pressed on the surface of the skin of a human body, and the pulse electrode is abutted against the appointed part of the human body, so that novel prefabrication can be completed;
when the medicine penetration treatment operation is performed, firstly, an intermediate frequency pulse generating circuit generates intermediate frequency pulse current, and the pulse current stimulates the skin, subcutaneous deep tissue and acupuncture points of the human body through the pulse electrode, so that the physiological activity of cells of the human body is improved; the far infrared radiation heating device is used for carrying out far infrared radiation heating operation on the medicine, the purpose of medicine permeation guiding operation is achieved, the generated medicine steam component directly acts on human skin under the guiding of the bearing base and the protective end cover, and the living activity of the human skin is improved through stimulation operation living activity of medium-frequency pulses, so that the operation efficiency of the human skin for absorbing the medicine effective component is increased, and the efficiency of medicine permeation treatment operation is improved.
In addition, when the medicament storage tank is in operation, on one hand, the medicament temperature is detected through the temperature sensor, the phenomenon of medicament deterioration caused by overhigh temperature is prevented, and the medicament activity is adjusted and improved through accurately controlling the temperature; on the other hand, the ultrasonic oscillation mechanism and the pressing plate operate intermittently, the purpose of stirring the medicine is achieved through mechanical vibration, and the situation that the medicine is heated unevenly to influence the utilization rate of effective ingredients of the medicine is prevented from occurring.
This novel simple structure, the flexible operation is convenient, and the commonality is good, and integrate with the modularization degree high, can effectively satisfy the needs of each position medicine hot compress of human body, impulse therapy operation, simultaneously in the use, can effectual medicine active ingredient performance efficiency with improve the human body and to medicine active ingredient absorption utilization ratio to can effectively prevent medicine defect such as deterioration because of the medicine high temperature that the uneven distribution leads to, thereby very big improvement the efficiency and the reliability of medicine infiltration operation.
The foregoing shows and describes the basic principles and principal features of the present novel form, together with the advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are intended to illustrate the principles of the utility model, but rather that various changes and modifications may be made without departing from the spirit and scope of the utility model, which is intended to be covered by the appended claims. The scope of the present novel claims is defined by the appended claims and equivalents thereof.

Claims (6)

1. A non-contact type intermediate frequency directional medicine penetrating device is characterized by comprising a bearing base, a protective end cover, a control cavity, a static connecting terminal, a movable connecting terminal, a bearing spring, an insulating tray, a pulse electrode, a medicine storage tank, an intermediate frequency pulse generating circuit and a main control circuit, wherein the bearing base is of an I-shaped groove-shaped structure in axial section, the insulating tray and the medicine storage tank are of a U-shaped cylindrical groove-shaped structure in axial section, the protective end cover covers the front end face of the bearing base and forms a closed cavity structure with a groove body on the front end face of the bearing base, the medicine storage tank is embedded in the groove body on the front end face of the bearing base, the bottom of the medicine storage tank is abutted against the bottom of the groove body through the bearing spring, the medicine storage tank is coaxially distributed with the bearing base and the bearing spring and is in sliding connection with the side wall of the groove body on the front end face of the bearing base, the medicament storage tank and the protective end cover are internally provided with guide holes coaxially distributed with the medicament storage tank, the insulating tray is embedded in the guide holes of the medicament storage tank and is connected with the guide holes in a sliding manner, the insulating tray covers the rear end face of the pulse electrode, the rear end face of the insulating tray is connected with the tank bottom through a bearing spring, the front end face of the pulse electrode is positioned outside the front end face of the protective end cover through the guide holes of the protective end cover and is coaxially and slidably connected with the guide holes, the static wiring terminal is embedded in the tank bottom of a tank body on the rear end face of the bearing base and is respectively electrically connected with the pulse electrode and the medicament storage tank through leads, the control cavity is a closed cavity structure coaxially distributed with the bearing base, is embedded in the tank body on the rear end face of the bearing base and is slidably connected with the tank wall, at least two movable wiring terminals are embedded at the bottom of the control cavity, and the other one is positioned on the upper end face of the control cavity, the intermediate frequency pulse generating circuit and the main control circuit are embedded in the control cavity and are respectively electrically connected with the movable wiring terminals, and the movable wiring terminals positioned at the bottom of the control cavity are electrically connected with the static wiring terminals.
2. The non-contact intermediate frequency directional drug-penetrating device according to claim 1, characterized in that: the medicament storage tank comprises a bearing groove, a spring plate, a pressure spring, an ultrasonic oscillation mechanism, a far infrared irradiation heating device, a temperature sensor, a pressure plate, a flexible protective layer and an auxiliary connecting terminal, wherein the bearing groove is of a U-shaped groove-shaped structure in the axial cross section, the pressure plate is embedded in the front end face of the bearing groove, is coaxially distributed with the bearing groove and is in sliding connection with the side wall of the bearing groove, the pressure plate is connected with the bottom of the bearing groove through at least two pressure springs, at least one layer of flexible protective layer is coated on the outer surface of the pressure plate, a plurality of through holes with the pore diameter of 0.1-1 mm are uniformly distributed on the pressure plate and the flexible protective layer, at least two spring plates are uniformly distributed around the axis of the bearing groove and are connected with the side wall of the bearing groove, the spring plates are located 0-20 mm above the bottom of the bearing groove, the axis of the spring plates and the bottom of the bearing groove are in an included angle of 0-60 degrees, and the length of the spring plates is 10-60 percent of the radius of the bearing groove, the width is 3-20 millimeters, far infrared irradiation heating device is two at least, inlays in the bearing groove lateral wall internal surface of shell fragment top and encircles the bearing groove axis equipartition, just far infrared irradiation heating device axis intersects and is 30-90 contained angles with the bearing groove axis, and the nodical at least 5 millimeters departments that lie in the bearing groove top, temperature sensor, ultrasonic oscillation mechanism and auxiliary wiring terminal all are connected with bearing groove bottom surface, just auxiliary wiring terminal respectively with ultrasonic oscillation mechanism, far infrared irradiation heating device, temperature sensor and static wiring terminal electrical connection.
3. The non-contact intermediate frequency directional drug permeation device according to claim 2, wherein: bearing groove lateral surface equipartition a plurality of and bearing groove axis parallel distribution's heat dissipation fin, the direction spout is established to the bearing base cell body lateral wall that the heat dissipation fin corresponds, and the heat dissipation fin inlays in the direction spout and through direction spout and bearing base sliding connection, bear the base lateral wall and establish a plurality of heat dissipation holes in addition, and the louvre is located position between the adjacent two heat dissipation fins.
4. The non-contact intermediate frequency directional drug-penetrating device according to claim 1, characterized in that: the pulse electrode comprises a conductive rubber column and metal electrode plates, wherein the conductive rubber column is of a cylindrical structure, the rear end of the conductive rubber column is embedded in the insulating tray and is coaxially distributed in the insulating tray, at least two metal electrode plates are of a plate-shaped structure with a rectangular cross section, the metal electrode plates are coated on the outer side surface of the conductive rubber column and embedded in the insulating tray, the metal electrode plates are mutually connected in parallel and are electrically connected with the static wiring terminal through a lead, and the front end surface of the conductive rubber column is of any one of a conical structure and a spherical crown structure.
5. The non-contact intermediate frequency directional drug-penetrating device according to claim 1, characterized in that: the control chamber with bear through threaded connection between the base rear end face lateral wall, and establish an insulating seal ring with the coaxial distribution of control chamber between control chamber and tank bottom, insulating seal ring up end offsets with the terminal surface under the control chamber, offsets through at least one belleville spring between terminal surface and the tank bottom of bearing base rear end face cell body down.
6. The non-contact intermediate frequency directional drug-penetrating device according to claim 1, characterized in that: the main control circuit comprises a driving circuit based on an industrial single chip microcomputer, an operation interface and an emergency power supply are additionally arranged on the main control circuit, the operation interface is embedded in the upper end face of the control cavity, the emergency power supply is embedded in the control cavity, and the operation interface and the emergency power supply are electrically connected with the driving circuit based on the industrial single chip microcomputer.
CN202122229682.1U 2021-09-14 2021-09-14 Non-contact intermediate frequency directional medicine penetrating device Active CN216676697U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202122229682.1U CN216676697U (en) 2021-09-14 2021-09-14 Non-contact intermediate frequency directional medicine penetrating device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202122229682.1U CN216676697U (en) 2021-09-14 2021-09-14 Non-contact intermediate frequency directional medicine penetrating device

Publications (1)

Publication Number Publication Date
CN216676697U true CN216676697U (en) 2022-06-07

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