CN111408000A

CN111408000A - Painless automatic anesthesia device

Info

Publication number: CN111408000A
Application number: CN201911271358.7A
Authority: CN
Inventors: 刘建明
Original assignee: Shanghai Pulmonary Hospital
Current assignee: Shanghai Pulmonary Hospital
Priority date: 2019-12-12
Filing date: 2019-12-12
Publication date: 2020-07-14

Abstract

The invention belongs to the technical field of medical equipment, and particularly discloses a painless automatic anesthesia device, which comprises an automatic anesthesia device main body, an anesthesia box, a heart rate detector and an atomization core, wherein the left bottom of the automatic anesthesia device main body is fixedly connected with a storage box, the peripheral outer wall of the storage box is connected with the left bottom peripheral outer wall of the automatic anesthesia device main body, the right end of the storage box is fixedly connected with the anesthesia box, the left end peripheral outer wall of the anesthesia box is connected with the right end peripheral outer wall of the storage box, the anesthesia box is characterized in that medical personnel can adjust the use mode of the anesthesia box through a control console, for example, the manual adjustment use mode and the automatic adjustment use mode are adopted, the adjustment use is convenient, the heart rate detector can detect the body data of a patient when the patient inhales anesthetic, and controls the intake of the anesthetic in the patient through a single chip microcomputer to achieve the effects of, embodies the practicability of the invention and has wide development prospect in the future.

Description

Painless automatic anesthesia device

Technical Field

The invention belongs to the technical field of medical equipment, and particularly relates to a painless automatic anesthesia device.

Background

The term anesthesia (anesthesia) is derived from greek narkosis, and as the name suggests, anesthesia is numbness paralysis and intoxication is coma. Therefore, anesthesia means that a patient temporarily loses his or her feeling wholly or locally by medication or other means to perform surgical treatment for the purpose of no pain. Anesthesiology (anesthesiology) is a science that applies basic theory, clinical knowledge and techniques related to anesthesia to eliminate operation pain of patients, ensure safety of patients and create good conditions for operations. Nowadays, anesthesiology has become a special independent subject in clinical medicine, mainly including clinical anesthesiology, emergency resuscitation medicine, critical care treatment, pain diagnosis and treatment, and other related medicine and mechanism research, and is a comprehensive subject for researching anesthesia, analgesia, emergency resuscitation and critical medicine. Wherein clinical anesthesia is a major component of modern anesthesiology.

At present, current anaesthesia device, it is the anesthesia of infusion formula itself mostly, can cause strong distending pain to the patient and feel, and can't carry out automatically regulated according to patient's health at the infusion in-process, can make the patient produce serious discomfort and pain, the practical degree is relatively poor, current anaesthesia device simultaneously, it is great equipment of device itself, the work of carrying of medical personnel when using is not convenient for, thereby lead to anaesthesia device's application range itself, be not convenient for use in some special cases, there is certain limitation.

Therefore, how to design a painless automatic anesthesia device becomes a problem to be solved at present.

Disclosure of Invention

The invention aims to: in order to solve the problems of poor practicability, poor portability and certain use limitation, the intelligent treatment device for the traditional Chinese medicine acupuncture pot is provided.

The technical scheme adopted by the invention is as follows: an intelligent treatment device of a traditional Chinese medicine acupuncture pot comprises an automatic anesthesia device main body, an anesthesia box, a heart rate detector and an atomization core, wherein the left bottom of the automatic anesthesia device main body is fixedly connected with a storage box, the peripheral outer wall of the storage box is connected with the left bottom peripheral outer wall of the automatic anesthesia device main body, the right end of the storage box is fixedly connected with an anesthesia box, the left end peripheral outer wall of the anesthesia box is connected with the right end peripheral outer wall of the storage box, the top left side of the storage box is movably connected with a cover opening shaft, the peripheral outer wall of the cover opening shaft is connected with the top left side peripheral outer wall of the storage box, the top end of the cover opening shaft is fixedly connected with a top cover, the bottom left side peripheral outer wall of the top cover is connected with the peripheral outer wall of the cover opening shaft, the top right side two ends of the top cover are movably connected with top cover support legs, the, the middle top of the right end of the automatic anesthesia device main body is fixedly connected with a buckle, the left end peripheral outer wall of the buckle is connected with the right end middle top peripheral outer wall of the automatic anesthesia device main body, the middle of the right end of the anesthesia box is connected with a wiring table in an embedded mode, the left side peripheral outer wall of the wiring table is connected with the right end middle inner side inner wall of the anesthesia box, the middle of the front face of the anesthesia box is connected with a control table in an embedded mode, and the rear peripheral outer wall of the control table is connected with the front middle inner side inner wall of the anesthesia;

the left side of the top end of the anesthesia box is embedded and connected with an anesthetic adding port, the bottom peripheral outer wall of the anesthetic adding port is connected with the inner wall of the left side of the top end of the anesthesia box, the right side of the anesthetic adding port is embedded and connected with a drug outlet, the left peripheral outer wall of the drug outlet is connected with the right peripheral outer wall of the anesthetic adding port in an overlapping mode, the middle inner side of the top end of the drug outlet is embedded and connected with a catheter, the left peripheral outer wall of the catheter is connected with the middle inner wall of the top of the drug outlet, the right end of the wiring table is connected with a heart rate detector in an overlapping mode, and the left peripheral outer wall of the heart rate detector is connected with the inner wall of;

the anesthesia box comprises an anesthesia box body, a liquid pump control button, a single chip microcomputer, a storage battery, a liquid pump control button, a liquid pump control core, a single chip microcomputer, a storage battery and a power supply, wherein the anesthesia box body is fixedly connected with the bottom left end of the anesthesia box body, the peripheral outer wall of the anesthesia box body is connected with the inner wall of the bottom left end of the anesthesia box body, the inner wall of the anesthesia box body is connected with the inner wall of the bottom left end of the anesthesia box body, the liquid pump is embedded and connected in the middle of the top end of the anesthesia box body, the bottom peripheral outer wall of the liquid pump is connected with the outer wall of the bottom middle of the top end of the anesthesia box body, the peripheral outer wall of the storage battery is connected with the inner wall of the right side of the inner bottom end of the anesthesia box;

the heart rate detector is characterized in that a heart rate sensing wire is connected to the bottom of the left end of the heart rate detector in an embedded manner, the outer peripheral wall of the right end of the heart rate sensing wire is connected with the inner side wall of the bottom of the left end of the heart rate detector, a body temperature sensing wire is connected to the middle of the left end of the heart rate detector in an embedded manner, the outer peripheral wall of the right end of the body temperature sensing wire is connected with the inner side wall of the middle of the left end of the heart rate detector, a blood pressure sensing wire is connected to the top of the left end of the heart rate detector in an embedded manner, the outer peripheral wall of the right end of the blood pressure sensing wire is connected with the inner side wall of the top of the left end of;

the utility model discloses an atomizing device, including atomizing core, atomizing head, inboard inner wall of atomizing head and atomizing core, the peripheral outer wall of the peripheral fixedly connected with of atomizing core links to each other, the inside one end fixedly connected with of atomizing head atomizes cottonly, the peripheral outer wall of atomizing cottonly links to each other with the inside one end overlap joint of atomizing head, the inboard embedding in top of atomizing head is connected with a plurality of atomizing mouths, the peripheral outer wall of atomizing mouth links to each other with the inboard inner wall in top of atomizing head.

Preferably, the middle of the top end of the top cover is fixedly connected with a carrying handle, and the peripheral outer wall of the bottom end of the carrying handle is connected with the peripheral outer wall of the middle of the top end of the top cover.

Preferably, the middle inner side of the top cover is connected with a top cover groove in an embedded mode, and the peripheral outer wall of the top cover groove is connected with the middle inner side inner wall of the top cover.

Preferably, the inner sides of the two ends of the front of the storage box are connected with storage cabinets in an embedded mode, and the outer peripheral wall of the back of each storage cabinet is connected with the inner walls of the two ends of the front of the storage box.

Preferably, the two sides of the top end of the storage box are fixedly connected with equipment frames, and the peripheral outer walls of the bottom end of the equipment frames are connected with the peripheral outer walls of the two sides of the top end of the storage box.

Preferably, the left side of the inner bottom end of the anesthetic storage box is fixedly connected with a vibration motor, and the outer peripheral wall of the bottom end of the vibration motor is connected with the inner wall of the left side of the inner bottom end of the anesthetic storage box.

Preferably, the right end of the conduit is connected with a breathing mask in an overlapping manner, and the peripheral outer wall of the left end of the breathing mask is connected with the inner wall of the right end of the conduit in an overlapping manner.

Preferably, the anesthetic box comprises an anesthetic storage box on the left side of the inner bottom end, a vibrating motor on the left side of the inner bottom end of the anesthetic storage box, a liquid pump in the middle of the top end of the anesthetic storage box, an atomizing core on the top end of the liquid pump, a liquid pump control button on the top of the right end of the liquid pump, a single chip microcomputer on the top of the right side of the inner part and a storage battery on the bottom of the right side of.

Preferably, the heart rate detector is composed of a heart rate sensing wire at the bottom of the left end, a body temperature sensing wire in the middle of the left end, a blood pressure sensing wire at the top of the left end and a detector at the right end.

Preferably, the atomizing core is composed of a peripheral atomizing head, atomizing cotton at one end inside the atomizing head and an atomizing opening at the inner side of the top end of the atomizing head.

In summary, due to the adoption of the technical scheme, the invention has the beneficial effects that:

1. according to the invention, medical personnel can carry and carry the automatic anesthesia device main body through the carrying handle, and the appearance of the automatic anesthesia device main body is similar to that of the existing medical kit, so that the automatic anesthesia device main body is convenient for the medical personnel to carry and use through the carrying handle, is used for carrying and moving the automatic anesthesia device main body in some emergency special conditions, and embodies the portability of the automatic anesthesia device main body.

2. According to the invention, the heart rate detector is used for enabling medical staff to directly wear the detector on the arm of a patient, real-time detection is carried out on the body of the patient through the heart rate sensor, the body temperature sensor and the blood pressure sensor which are arranged in the detector, so that whether the body function of the patient is stable or whether the deep sleep anesthesia effect is achieved is reflected when the patient absorbs different amounts of anesthetic, data are guided into the single chip microcomputer in the anesthesia box through the heart rate sensing lead, the body temperature sensing lead and the blood pressure sensing lead, and the data are analyzed and processed through the single chip microcomputer, so that the intake of the anesthetic in the anesthesia box to the body of the patient is controlled, and the automatic anesthesia effect is achieved.

3. According to the anesthesia box, the use mode of the anesthesia box can be adjusted through the control console, for example, the manual adjustment use mode and the automatic adjustment use mode are adopted, when the manual adjustment is selected, the single chip microcomputer in the anesthesia box is in a closed state, medical personnel can directly adjust the anesthesia box through the manual adjustment control console, when the automatic mode is selected, the single chip microcomputer in the anesthesia box is started, and the liquid pump in the anesthesia box can be automatically controlled and adjusted according to body state data of a patient, which is reflected by the heart rate detector when the anesthetic is absorbed by the patient, so that the effect of adjusting the input amount of the anesthetic is achieved, and the adjustment of the medical personnel is facilitated.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic diagram of the main body of the automatic anesthesia apparatus of the present invention in a deployed configuration;

FIG. 3 is a schematic diagram of a partial cross-sectional structure of an anesthesia box of the present invention;

FIG. 4 is a simplified schematic illustration of a portion of the heart rate detector of the present invention;

FIG. 5 is a schematic diagram of a part of the atomizing core of the present invention.

The labels in the figure are: 1. automatic anaesthesia device main part, 2, the storage tank, 3, the anesthesia case, 301, the anesthetic storage box, 302, shock dynamo, 303, the liquid pump, 304, liquid pump control button, 305, the singlechip, 306, the battery, 4, the axle that uncaps, 5, the top cap, 6, the carrying handle, 7, the top cap stabilizer, 8, the buckle, 9, the terminal board, 10, the control cabinet, 11, the top cap groove, 12, the locker, 13, the equipment frame, 14, the anesthetic interpolation mouth, 15, the medicine outlet, 16, the pipe, 17, breathe in the face guard, 18, the heart rate detector, 1801, heart rate sensing wire, 1802, body temperature sensing wire, 1803, blood pressure sensing wire, 1804, the detector, 19, atomizing core, 1901, the atomizing head, 1902, the atomizing cotton, 1903, the atomizing mouth.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being 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; the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance; furthermore, unless expressly stated or limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, as they may be fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1-5, the present invention provides a technical solution: a painless automatic anesthesia device comprises an automatic anesthesia device main body 1, an anesthesia box 3, a heart rate detector 18 and an atomization core 19, wherein the left bottom of the automatic anesthesia device main body 1 is fixedly connected with a storage box 2, the outer peripheral wall of the storage box 2 is connected with the outer peripheral wall of the left bottom of the automatic anesthesia device main body 1, the right end of the storage box 2 is fixedly connected with the anesthesia box 3, the outer peripheral wall of the left end of the anesthesia box 3 is connected with the outer peripheral wall of the right end of the storage box 2, the left side of the top end of the storage box 2 is movably connected with an opening shaft 4, the outer peripheral wall of the opening shaft 4 is connected with the outer peripheral wall of the left side of the top end of the storage box 2, the top end of the opening shaft 4 is fixedly connected with a top cover 5, the outer peripheral wall of the left side of the bottom end of the top cover 5 is connected with the outer peripheral wall of the opening shaft 4, a buckle 8 is fixedly connected to the middle top of the right end of the automatic anesthesia apparatus main body 1, the left end peripheral outer wall of the buckle 8 is connected with the right end middle top peripheral outer wall of the automatic anesthesia apparatus main body 1, a wiring table 9 is connected to the middle of the right end of the anesthesia box 3 in an embedded manner, the left side peripheral outer wall of the wiring table 9 is connected with the right end middle inner side inner wall of the anesthesia box 3, a control table 10 is connected to the middle of the front side of the anesthesia box 3 in an embedded manner, and the rear peripheral outer wall of the control table 10 is connected with the front middle inner side;

an anesthetic adding port 14 is embedded and connected to the left side of the top end of the anesthetic box 3, the bottom peripheral outer wall of the anesthetic adding port 14 is connected with the inner wall of the left side of the top end of the anesthetic box 3, a medicine outlet 15 is embedded and connected to the right side of the anesthetic adding port 14, the left peripheral outer wall of the medicine outlet 15 is connected with the right peripheral outer wall of the anesthetic adding port 14 in an overlapping mode, a catheter 16 is embedded and connected to the inner side of the middle of the top end of the medicine outlet 15, the left peripheral outer wall of the catheter 16 is connected with the inner wall of the middle of the top end of the medicine outlet 15, the right end of the wiring table 9 is connected with a heart rate detector 18 in an overlapping mode, and the left peripheral outer wall of;

an anesthetic storage box 301 is fixedly connected to the bottom end of the left inside of the anesthetic box 3, the outer peripheral wall of the anesthetic storage box 301 is connected with the inner wall of the bottom end of the left inside of the anesthetic box 3, a liquid pump 303 is embedded and connected in the middle of the top end of the anesthetic storage box 301, the outer peripheral wall of the bottom end of the liquid pump 303 is connected with the outer peripheral wall of the top end of the anesthetic storage box 301, the top end of the liquid pump 303 is connected with an atomizing core 19 in a lap joint mode, the outer peripheral wall of the bottom end of the atomizing core 19 is connected with the outer peripheral wall of the top end of the liquid pump 303 in a lap joint mode, a liquid pump control button 304 is connected to the top end of the right end of the liquid pump control button 304 in a lap joint mode, a single chip microcomputer 305 is fixedly connected to the top of the right inside of the anesthetic box 3, the, the peripheral outer wall of the storage battery 306 is connected with the inner wall of the right side of the inner bottom end of the anesthesia box 3;

a heart rate sensing wire 1801 is embedded and connected to the bottom of the left end of the heart rate detector 18, a right end peripheral outer wall of the heart rate sensing wire 1801 is connected to an inner side inner wall of the bottom of the left end of the heart rate detector 18, a body temperature sensing wire 1802 is embedded and connected to the middle of the left end of the heart rate detector 18, a right end peripheral outer wall of the body temperature sensing wire 1802 is connected to an inner side inner wall of the middle of the left end of the heart rate detector 18, a blood pressure sensing wire 1803 is embedded and connected to the top of the left end of the heart rate detector 18, a right end peripheral outer wall of the blood pressure sensing wire 1803 is connected to an inner side inner wall of the top of the left end of the heart rate detector 18, a detector 1804 is fixedly connected to the right end;

a plurality of atomising heads 1901 of peripheral fixedly connected with of atomizing core 19, the inboard inner wall of atomising head 1901 links to each other with the peripheral outer wall of atomizing core 19, the cotton 1902 of inside one end fixedly connected with atomization of atomising head 1901, the peripheral outer wall of the cotton 1902 of atomization links to each other with the inside one end overlap joint of atomising head 1901, the inboard embedding in top of atomising head 1901 is connected with a plurality of atomising mouths 1903, the peripheral outer wall of atomising mouth 1903 links to each other with the inboard inner wall in top of atomising head 1901.

Preferably, the carrying handle 6 is fixedly connected to the middle of the top end of the top cover 5, the outer peripheral wall of the bottom end of the carrying handle 6 is connected with the outer peripheral wall of the middle of the top end of the top cover 5, medical workers can carry and carry the automatic anesthesia device main body 1 through the carrying handle 6, the appearance of the automatic anesthesia device main body 1 is similar to that of an existing medical kit, the automatic anesthesia device main body is convenient for the medical workers to carry and use through the carrying handle 6 and is used for carrying and moving the automatic anesthesia device main body 1 in some emergency special situations, and the portability of the automatic anesthesia device is embodied.

Preferably, the top cover groove 11 is connected to the inner side of the middle of the top cover 5 in an embedded mode, the outer peripheral wall of the top cover groove 11 is connected with the inner wall of the inner side of the middle of the top cover 5, after the top cover 5 is unfolded by medical workers, the top cover support legs 7 can be unfolded firstly to enable the top cover support legs to vertically reach the ground to support the top cover 5, then the medical workers can conveniently place auxiliary equipment and medicines required by anesthesia through the top cover groove 11 on the inner side of the top end of the medical workers, taking work during use is facilitated, the effect of a small-sized workbench is achieved, the medical workers can use under special conditions conveniently, the practicability is improved, the structure and the space of the device are effectively utilized, and the practicability of the.

Preferably, the inboard embedding in the front both ends of storage tank 2 is connected with locker 12, the peripheral outer wall in back of locker 12 links to each other with the inboard inner wall in front both ends of storage tank 2, through locker 12, can be convenient for medical personnel deposit the required equipment of some anesthesia work and medicine inside it, be convenient for medical personnel carry the work, simultaneously through the categorised baffle that sets up in locker 12, can effectively separate its inner space, be convenient for medical personnel classification work when depositing medicine and equipment, take and seek when making things convenient for medical personnel to use, can avoid equipment and medicine to put when a space simultaneously, medical personnel carry automatic anesthesia device main part 1, make the equipment cause the damage to the medicine, lead to the medicine pollution can not use.

Preferably, the equipment frame 13 is fixedly connected to two sides of the top end of the storage box 2, the peripheral outer wall of the bottom end of the equipment frame 13 is connected with the peripheral outer walls of the two sides of the top end of the storage box 2, and the equipment frame 13 can be used for facilitating medical workers to place and fix relatively sharp medical equipment and needles, facilitating the medical workers to take when in use, protecting the equipment, and meanwhile avoiding the phenomenon that the medical equipment and the needles are easily damaged when the equipment is placed at will to a certain extent, so that economic loss is caused to a certain degree, and the protection performance of the medical equipment protection device is embodied.

Preferably, the vibrating motor 302 is fixedly connected to the left side of the inner bottom of the anesthetic storage box 301, the outer peripheral wall of the bottom end of the vibrating motor 302 is connected to the inner wall of the left side of the inner bottom of the anesthetic storage box 301, medical personnel can start the vibrating motor 302 in the anesthetic storage box 301 by pressing a vibrating motor control button on the console 10, and then can drive anesthetic in the anesthetic storage box 301 to vibrate through the vibrating motor 302, so that the medical personnel can mix medicines when pouring various anesthetic medicines with different proportions into the anesthetic storage box 301 at the same time, thereby improving the use quality of the anesthetic, facilitating the medicine dispensing work of the medical personnel, effectively improving the practical degree of the automatic anesthetic device main body 1, and embodying the practicability of the invention.

Preferably, the right end of the conduit 16 is connected with a breathing mask 17 in an overlapping manner, the peripheral outer wall of the left end of the breathing mask 17 is connected with the inner wall of the right end of the conduit 16 in an overlapping manner, an inhalation type anesthesia effect can be achieved through the breathing mask 17, a patient only needs to wear the breathing mask 17, so that an atomized anesthetic enters the body through the respiratory tract of the patient, the anesthesia effect is achieved, the distending pain and discomfort of the patient caused by injection type anesthesia are avoided, and when a medical worker installs the breathing mask 17, the conduit 16 can be firstly inserted into the medicine outlet 15 through the mounting column at the left end of the conduit 16, and the conduit 16 is rotated to splice the threaded column at the periphery of the mounting column at the left end of the conduit with the threaded wall at the inner side of the medicine outlet 15, so that the effect of quickly installing the conduit 16 and the medicine outlet 15 is achieved, the medical worker can install the breathing mask 17 through the installing head at, the mounting column is quickly mounted with the mounting column at the right end of the catheter 16, and is similar to the previous mounting step, so that the medical staff can conveniently mount and use the mounting column.

Preferably, the anesthetic box 3 is composed of an anesthetic storage box 301 at the left side of the inner bottom end, a vibration motor 302 at the left side of the inner bottom end of the anesthetic storage box 301, a liquid pump 303 in the middle of the top end of the anesthetic storage box 301, an atomizing core 19 at the top end of the liquid pump 303, a liquid pump control button 304 at the top end of the right end of the liquid pump 303, a single chip microcomputer 305 at the top of the inner right side and a storage battery 306 at the inner right side end, when a medical worker wears the mounted breathing mask 17 on the face of a patient, the usage mode of the anesthetic box 3 can be adjusted through the console 10, for example, the manual adjustment usage mode and the automatic adjustment usage mode are adopted, when the manual adjustment is selected, the single chip microcomputer 305 in the anesthetic box 3 is in a closed state, the medical worker can directly adjust the anesthetic box 3 through the manual adjustment console 10 for use, when the automatic mode is selected, the single chip microcomputer in the anesthetic box 3 is started, the liquid pump 303 in the anesthesia box 3 is automatically controlled and adjusted, so that the effect of adjusting the input amount of anesthetic is achieved, and the automatic anesthesia effect is achieved.

Preferably, the heart rate detector 18 is composed of a left bottom heart rate sensing lead 1801, a left middle body temperature sensing lead 1802, a left top blood pressure sensing lead 1803 and a right detector 1804, with the heart rate detector 18, the healthcare worker can wear the detector 1804 directly to the arm of the patient, and through the heart rate sensor, the body temperature sensor and the blood pressure sensor arranged in the detector 1804, the real-time detection is carried out on the body of the patient, so as to reflect whether the body function of the patient is stable or whether the deep sleep anesthesia effect is achieved when the patient absorbs different amounts of anesthetic, and the data is led into the singlechip 305 in the anesthesia box 3 through a heart rate sensing lead 1801, a body temperature sensing lead 1802 and a blood pressure sensing lead 1803, the data are analyzed and processed through the single chip microcomputer 305, so that the intake of anesthetic in the anesthetic box 3 to the body of a patient is controlled, and the automatic anesthetic effect is achieved.

Preferably, atomizing core 19 is by outlying atomising head 1901, the cotton 1902 of atomizing of the inside one end of atomising head 1901 and the inboard mouth 1903 of atomising head 1901 top constitute jointly, at first back in the anesthetic suction of liquid pump 303 in with anesthetic storage box 301 atomizes the core 19, the cotton 1902 of atomizing of accessible inside carries out atomization treatment to anesthetic under the liquid state earlier, later can carry out the secondary atomization to anesthetic after preliminary atomizing through the mouth 1903 that atomizes that sets up on the atomising head 1901, improve atomization quality, and the atomizing principle is through changing original anesthetic volume size itself, reach the effect of atomizing anesthetic, and through a plurality of atomising heads 1901 that set up, can effectively improve atomization core 19's own atomization quality, avoid the great atomizing anesthetic of volume to make the patient produce uncomfortable sense after being inhaled by the patient.

The working principle is as follows: firstly, medical personnel can carry and carry the automatic anesthesia device main body 1 through the carrying handle 6, the appearance of the automatic anesthesia device main body 1 is similar to that of the existing medical kit, the medical personnel can carry and use the automatic anesthesia device main body through the carrying handle 6 conveniently, the automatic anesthesia device main body 1 can be carried and moved for use in some emergency special situations, the portability of the invention is embodied, then after the medical personnel unfold the top cover 5, the top cover support legs 7 can be unfolded firstly to keep the vertical direction with the ground to reach the effect of supporting the top cover 5, then the medical personnel can put some auxiliary equipment and medicines required by anesthesia conveniently through the top cover groove 11 on the inner side of the top end of the medical personnel, the taking work in use is convenient, the effect of a small-sized workbench is achieved, the medical personnel can use under some special conditions conveniently, the practicability is improved, and the structure and the space of the device are effectively utilized, the practicability of the invention is embodied;

then, through the storage cabinet 12, the medical staff can conveniently store some equipment and medicines required by anesthesia work inside the storage cabinet, the medical staff can conveniently carry the work, meanwhile, through the classification partition board arranged in the storage cabinet 12, the internal space of the storage cabinet can be effectively partitioned, the classification work of the medical staff when storing the medicines and the equipment is convenient, the medical staff can conveniently take and find the equipment when using the storage cabinet, meanwhile, the equipment and the medicines can be prevented from being placed in a space, the medical staff carries the automatic anesthesia device main body 1, the equipment can damage the medicines, the medicine is prevented from being polluted and can not be used, meanwhile, through the equipment frame 13, the medical staff can conveniently place and fix some sharp medical equipment and needles, the medical staff can conveniently take the equipment when using the storage cabinet, the effect of protecting the equipment is achieved, and meanwhile, the equipment can be prevented from being randomly placed to a certain extent, medical equipment and needles are easy to damage, so that economic loss is caused to a certain degree, and the protection performance of the invention is embodied;

then, the medical personnel can start the vibration motor 302 in the anesthetic storage box 301 by pressing the vibration motor control button on the console 10, and then can drive the anesthetic in the anesthetic storage box 301 to vibrate through the vibration motor 302, so that the medical personnel can conveniently mix the medicines when pouring various anesthetic medicines with different proportions into the anesthetic storage box 301, thereby improving the use quality of the anesthetic, facilitating the dispensing work of the medical personnel, effectively improving the practical degree of the automatic anesthesia device main body 1, and embodying the practicability of the invention;

next, through the respiratory mask 17, the inhalation anesthetic effect can be achieved, the patient only needs to wear the respiratory mask 17, so that the atomized anesthetic enters the body through the respiratory tract of the patient, thereby achieving the anesthetic effect, avoiding the distending pain and discomfort caused by the injection anesthetic to the patient, and when the medical staff installs the respiratory mask 17, the catheter 16 can be inserted with the medicine outlet 15 through the mounting column at the left end, and the catheter 16 is rotated to enable the threaded column at the periphery of the mounting column at the left end to be spliced with the threaded wall at the inner side of the medicine outlet 15, so as to achieve the effect of quickly installing the catheter 16 and the medicine outlet 15, thereby facilitating the installation of the medical staff, then, the respiratory mask 17 is quickly installed with the mounting column at the right end of the catheter 16 through the installing head at the left end, which is similar to the front installing step, thereby facilitating the installation and use of the medical staff, then, when the medical staff wears the installed respiratory mask 17 on the face of the patient, the use mode of the anesthesia box 3 can be adjusted through the control console 10, for example, two modes of manual adjustment use and automatic adjustment use are adopted, when manual adjustment is selected, the single chip microcomputer 305 in the anesthesia box 3 is in a closed state, medical personnel can directly adjust the anesthesia box 3 through the manual adjustment control console 10, when the automatic mode is selected, the single chip microcomputer 305 in the anesthesia box 3 is started, and the liquid pump 303 in the anesthesia box 3 can be automatically controlled and adjusted according to body state data of a patient, which is reflected by the heart rate detector 18 when the anesthetic is absorbed by the patient, so that the effect of adjusting the input amount of the anesthetic is achieved, and the automatic anesthetic effect is achieved;

finally, through the heart rate detector 18, the medical staff can directly wear the detector 1804 on the arm of the patient, and through the heart rate sensor, the body temperature sensor and the blood pressure sensor arranged in the detector 1804, real-time detection is carried out on the body of the patient, so as to reflect whether the body function of the patient is stable or whether the deep sleep anesthesia effect is achieved when the patient absorbs different amounts of anesthetic, the data is led into the single chip microcomputer 305 in the anesthesia box 3 through the heart rate sensing lead 1801, the body temperature sensing lead 1802 and the blood pressure sensing lead 1803, the data is analyzed and processed through the single chip microcomputer 305, so that the intake of anesthetic in the anesthesia box 3 to the body of the patient is controlled, the automatic anesthesia effect is achieved, and then after the liquid pump 303 pumps the anesthetic in the anesthetic storage box 301 into the atomizing core 19, the anesthetic in the liquid state can be atomized through the atomizing cotton 1902 inside, after can carry out the secondary atomizing to the anesthetic after preliminary atomizing through the atomizing mouth 1903 that sets up on the first 1901 of atomizing, improve the atomizing quality, and the atomizing principle is through changing original anesthetic size of itself, reach the effect of atomizing anesthetic, and through a plurality of atomizing heads 1901 that set up, can effectively improve the atomizing quality of atomizing core 19 itself, avoid the great atomizing anesthetic of volume to make the patient produce uncomfortable sense after being inhaled by the patient, this kind of painless automatic anaesthesia device's theory of operation.

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

Claims

1. The utility model provides a painless automatic anaesthesia device, includes automatic anaesthesia device main part (1), anesthesia case (3), heart rate detector (18) and atomizing core (19), its characterized in that: the left bottom of the automatic anesthesia device main body (1) is fixedly connected with a storage box (2), the peripheral outer wall of the storage box (2) is connected with the left bottom peripheral outer wall of the automatic anesthesia device main body (1), the right end of the storage box (2) is fixedly connected with an anesthesia box (3), the left end peripheral outer wall of the anesthesia box (3) is connected with the right end peripheral outer wall of the storage box (2), the top left side of the storage box (2) is movably connected with a cover opening shaft (4), the peripheral outer wall of the cover opening shaft (4) is connected with the top left side peripheral outer wall of the storage box (2), the top end of the cover opening shaft (4) is fixedly connected with a top cover (5), the bottom left side peripheral outer wall of the top cover (5) is connected with the peripheral outer wall of the cover opening shaft (4), and the top end two ends of the right side of the top cover (5) are movably connected with, the outer wall of the right side periphery of the top cover supporting leg (7) is connected with the outer walls of the two ends of the top right side of the top cover (5), the top of the middle of the right end of the automatic anesthesia device main body (1) is fixedly connected with a buckle (8), the outer wall of the left end periphery of the buckle (8) is connected with the outer wall of the right end middle top periphery of the automatic anesthesia device main body (1), a wiring table (9) is embedded and connected in the middle of the right end of the anesthesia box (3), the outer wall of the left side periphery of the wiring table (9) is connected with the inner wall of the middle of the right end of the anesthesia box (3), a control table (10) is embedded and connected in the middle of the front of the anesthesia box (3), and the outer wall of the back periphery of;

an anesthetic adding port (14) is connected to the left side of the top end of the anesthetic box (3) in an embedded mode, the outer peripheral wall of the bottom of the anesthetic adding port (14) is connected with the inner wall of the left side of the top end of the anesthetic box (3), the right side of the anesthetic adding port (14) is connected with a medicine outlet (15) in an embedded mode, the outer peripheral wall of the left side of the medicine outlet (15) is connected with the outer peripheral wall of the right side of the anesthetic adding port (14) in an overlapping mode, a guide pipe (16) is connected to the inner side of the middle of the top end of the medicine outlet (15) in an embedded mode, the outer peripheral wall of the left end of the guide pipe (16) is connected with the inner wall of the middle of the top end of the medicine outlet (15), a heart rate detector (18) is connected to the right end of the wiring table (9) in an overlapping;

the anesthetic box is characterized in that an anesthetic storage box (301) is fixedly connected to the bottom end of the left side inside the anesthetic box (3), the outer peripheral wall of the anesthetic storage box (301) is connected with the inner wall of the bottom end of the left side inside the anesthetic box (3), a liquid pump (303) is embedded and connected to the middle of the top end of the anesthetic storage box (301), the outer peripheral wall of the bottom of the liquid pump (303) is connected with the outer peripheral wall of the top end of the anesthetic storage box (301), the top end of the liquid pump (303) is connected with an atomizing core (19) in a lap joint mode, the outer peripheral wall of the bottom end of the atomizing core (19) is connected with the outer peripheral wall of the top end of the liquid pump (303) in a lap joint mode, the top of the right end of the liquid pump (303) is connected with a liquid pump control button (304) in a lap joint mode, the top of the right side inside, the peripheral outer wall of the single chip microcomputer (305) is connected with the inner wall of the top of the right side inside the anesthesia box (3), the right side of the bottom end inside the anesthesia box (3) is fixedly connected with a storage battery (306), and the peripheral outer wall of the storage battery (306) is connected with the inner wall of the right side of the bottom end inside the anesthesia box (3);

a heart rate sensing lead (1801) is embedded and connected at the bottom of the left end of the heart rate detector (18), the outer wall of the right end periphery of the heart rate sensing lead (1801) is connected with the inner wall of the bottom inner side of the left end of the heart rate detector (18), a body temperature sensing lead (1802) is embedded and connected in the middle of the left end of the heart rate detector (18), the outer wall of the right end periphery of the body temperature sensing lead (1802) is connected with the inner wall of the middle inner side of the left end of the heart rate detector (18), a blood pressure sensing lead (1803) is embedded and connected at the top of the left end of the heart rate detector (18), the outer wall of the right end periphery of the blood pressure sensing lead (1803) is connected with the inner wall of the top part of the left end of the heart rate detector (18), the right end of the heart rate detector (18) is fixedly connected with a detector (1804), the outer peripheral wall of the left end of the detector (1804) is connected with the outer peripheral wall of the right end of the heart rate detector (18);

the utility model discloses an atomizing device, including atomizing core (19), atomizing head (1901) and atomizing head (1901), the inboard inner wall of atomizing head (1901) links to each other with the peripheral outer wall of atomizing core (19), the inside one end fixedly connected with atomizing cotton (1902) of atomizing head (1901), the peripheral outer wall of atomizing cotton (1902) links to each other with the inside one end overlap joint of atomizing head (1901), the inboard embedding in top of atomizing head (1901) is connected with a plurality of atomizing mouth (1903), the peripheral outer wall of atomizing mouth (1903) links to each other with the inboard inner wall in top of atomizing head (1901).

2. A painless automatic anesthesia apparatus of claim 1, wherein: the lifting handle is characterized in that a lifting handle (6) is fixedly connected to the middle of the top end of the top cover (5), and the peripheral outer wall of the bottom end of the lifting handle (6) is connected with the peripheral outer wall of the middle of the top end of the top cover (5).

3. A painless automatic anesthesia apparatus of claim 1, wherein: the middle inner side of the top cover (5) is connected with a top cover groove (11) in an embedded mode, and the peripheral outer wall of the top cover groove (11) is connected with the middle inner side inner wall of the top cover (5).

4. A painless automatic anesthesia apparatus of claim 1, wherein: the storage cabinet is characterized in that storage cabinets (12) are embedded and connected to the inner sides of the two ends of the front face of the storage box (2), and the outer peripheral outer wall of the back face of each storage cabinet (12) is connected with the inner walls of the two ends of the front face of the storage box (2).

5. A painless automatic anesthesia apparatus of claim 1, wherein: the equipment frame (13) is fixedly connected to two sides of the top end of the storage box (2), and the peripheral outer wall of the bottom end of the equipment frame (13) is connected with the peripheral outer walls of the two sides of the top end of the storage box (2).

6. A painless automatic anesthesia apparatus of claim 1, wherein: the anesthetic box is characterized in that a vibration motor (302) is fixedly connected to the left side of the bottom end in the anesthetic box (301), and the outer peripheral wall of the bottom end of the vibration motor (302) is connected with the inner wall of the left side of the bottom end in the anesthetic box (301).

7. A painless automatic anesthesia apparatus of claim 1, wherein: the right end of the conduit (16) is connected with a breathing mask (17) in an overlapping manner, and the peripheral outer wall of the left end of the breathing mask (17) is connected with the inner wall of the inner side of the right end of the conduit (16) in an overlapping manner.

8. A painless automatic anesthesia apparatus of claim 1, wherein: the anesthetic box (3) is composed of an anesthetic storage box (301) on the left side of the bottom end of the interior, a vibrating motor (302) on the left side of the bottom end of the anesthetic storage box (301), a liquid pump (303) in the middle of the top end of the anesthetic storage box (301), an atomizing core (19) on the top end of the liquid pump (303), a liquid pump control button (304) on the top end of the right end of the liquid pump (303), a single chip microcomputer (305) on the top end of the right side of the interior and a storage battery (306) on the.

9. A painless automatic anesthesia apparatus of claim 1, wherein: the heart rate detector (18) is composed of a heart rate sensing lead (1801) at the bottom of the left end, a body temperature sensing lead (1802) in the middle of the left end, a blood pressure sensing lead (1803) at the top of the left end and a detector (1804) at the right end.

10. A painless automatic anesthesia apparatus of claim 1, wherein: the atomizing core (19) is composed of a peripheral atomizing head (1901), atomizing cotton (1902) at one end inside the atomizing head (1901) and an atomizing opening (1903) at the inner side of the top end of the atomizing head (1901).