CN112190428A

CN112190428A - General anesthesia is clinical with bed of ventilating

Info

Publication number: CN112190428A
Application number: CN202011056662.2A
Authority: CN
Inventors: 贺建东
Original assignee: Shanxi Bethune Hospital of Shanxi Academy Of Medical Sciences
Current assignee: Shanxi Bethune Hospital of Shanxi Academy Of Medical Sciences
Priority date: 2020-09-29
Filing date: 2020-09-29
Publication date: 2021-01-08

Abstract

The invention provides a clinical aeration bed for general anesthesia, which combines respiratory anesthesia needing to be performed in a closed manner with an adjustable operation space, can realize sealed anesthesia of a first anesthesia space and a second anesthesia space during an operation and flexible transformation of the operation space in a first sealed sterilization space, and a doctor can adjust the position of the operation space according to the actual operation required position of a patient. The change of the volume of the inflatable elastic flexible bag can be realized by controlling the inflation quantity of the inflatable elastic flexible bag in the inflatable area through the computer system, the body position of a human body can be changed by the corresponding inflatable area in a rugged state, and the body position adjustment through the inflatable area is more accurate and intelligent and more comfortable for the patient compared with the adjustment in the prior art.

Description

General anesthesia is clinical with bed of ventilating

Technical Field

The invention belongs to the field of medical equipment, relates to a clinical aeration bed in the technical field of medical equipment, and more particularly relates to a clinical aeration bed for general anesthesia.

Background

The anesthetic is inhaled through the respiratory tract, injected into the body through veins or muscles, and generates the inhibition of the central nervous system, and the clinical manifestations of the anesthetic are that the mind disappears, the general pain and the sense is lost, the anesthetic is forgotten, the reflex is inhibited and the skeletal muscle is relaxed, so the anesthetic is called general anesthesia. The degree of inhibition of the central nervous system is related to the concentration of the drug in the blood and can be controlled and regulated. This inhibition is completely reversible, and the patient's mind and various reflexes gradually recover as the drug is metabolized or eliminated from the body. After general anesthesia is performed on a patient, various preoperative physical examinations of the patient are sometimes required to be performed again, and the patient is usually unconscious and cannot be matched with a doctor for detection during operation, so that a general anesthesia clinical ventilation bed is required to be arranged.

Application No. CN20141053409.9 discloses a simple and easy novel anesthesia machine for experiment, uses the anesthesia principle of breathing to anaesthetize the animal, makes anesthetic volatilize in getting into the anesthesia bottle with gas drainage through mechanical circuit and has solved the problem of anaesthetizing the animal in the experiment. However, because the integral anesthesia induction box is used for placing the animal in the anesthesia induction box, the anesthesia box is separated from the outside, and experimenters cannot operate the animal in the anesthesia process.

Application number is CN 201210561935.8's application document discloses a multi-functional internal medicine inspection bed, the notch has been seted up on the bed board, be provided with the lifing arm in the notch, through the height of adjusting the lifing arm, it has made things convenient for follow-up detection to make patient's buttock rise, but it only can adjust the bed body and then adjust the human body position of the activity of being not convenient for through the lifing arm, it detects also only that conventional detection such as some heights can not cooperate some operations to detect the human body with inspection instrument together, therefore the use when the operation of inconvenient.

The existing anesthesia machine and the existing operation bed in the market have respective defects, the detection and the position adjustment of the operation bed are inconvenient, the anesthesia machine is usually complex in use, a vacuum sterile environment can not be provided for an operation while patients are anesthetized, meanwhile, the anesthesia machine and the operation bed can not be combined for use, convenience is provided for general anesthesia operation, bacterial infection during the operation can be caused, meanwhile, the body of the patient is inconvenient to move after general anesthesia, and the problem that the detection is inconvenient or the breathing is not smooth can not be caused by conscious use is also urgently needed to be solved.

Disclosure of Invention

The invention overcomes the defects and provides a general anesthesia clinical ventilation bed, which is divided into a plurality of inflatable areas, a computer system can realize the change of different body positions of a patient through the on-off control of an inflation valve, meanwhile, sliding rails are also arranged at the two ends of the ventilation bed, the sliding rails and a sliding rail at the top of the center of a bed body form a same group to adjust double lifting sealing curtains, an anesthesia gas detector and an air suction port are also arranged between the double sealing curtains, and the anesthesia gas detector and the air suction port are sucked away in time when the anesthesia gas overflows to avoid the interference of a doctor; meanwhile, a vacuum sealing space is formed between the double lifting sealing curtains and the bed body, so that the infection of bacteria can be prevented.

A general anesthesia clinical aeration bed comprises a bed body, first slide rails arranged on two long sides of the bed body, and a first sealing wall and a second sealing wall which are arranged on two short sides of the bed body, and is characterized in that a second slide rail is further arranged between the first sealing wall and the second sealing wall of the bed body, a first sealing curtain is connected with the first slide rails, the second slide rails, the first sealing wall and the second sealing wall on the two sides in a sealing manner to form a first sealing sterilization space, a first slide block and a second slide block are arranged on the second slide rail, a first sliding sealing curtain is connected on the first slide block in a sealing manner, a second sliding sealing curtain is connected on the second slide block in a sealing manner, the first sliding sealing curtain and the first sealing wall form a first anesthesia space, the second sliding sealing curtain and the second sealing wall form a second anesthesia space, and anesthesia gas aeration valves are arranged in the first anesthesia space and the second anesthesia space, the anesthetic gas vent valve is connected with the anesthesia machine and provides respiratory anesthetic for the patient.

The first sliding sealing curtain and the second sliding sealing curtain are telescopic folding curtains, so that a first anesthesia space formed by the first sliding sealing curtain and the first sealing wall and a second anesthesia space formed by the second sliding sealing curtain and the second sealing wall are both spaces with adjustable sizes.

The first sealed sterile space is divided into three parts by the first anesthesia space and the second anesthesia space, an operation space is formed by removing the middle part of the first anesthesia space and the second anesthesia space from the first sealed sterile space, the first sealed curtain on the operation space is a transparent and visible sealed curtain, and a doctor can stretch a hand into the operation space to perform operation on a patient in the operation space.

The anesthesia gas detector and the inhalation valve are further arranged in the operation space, the anesthesia gas detector can feed signals back to the computer system, the inhalation valve can be opened after the computer system receives the alarm of the anesthesia gas detector, and the anesthesia gas in the middle part is removed to prevent interference to doctors.

The computer system is electrically connected with the anesthetic gas vent valve, gas concentration monitors are further arranged in the first anesthetic space and the second anesthetic space, and the gas concentration monitors can detect the concentration of anesthetic gas in the first anesthetic space and the second anesthetic space; the computer system controls the flow of the anesthetic gas by controlling the ventilation time of the ventilation valve, determines the specific anesthetic time, the concentration of the anesthetic gas and selects the type of the anesthetic gas according to the physical parameters of the patient and the operation requirements input by a doctor, and controls the opening and closing of the anesthetic gas ventilation valve according to a predetermined scheme during the operation.

The first anesthesia space, the second anesthesia space and the operation space are all closed spaces, are not in contact with the outside air, and can be independently provided with corresponding sterile ventilation systems, the sterile ventilation systems are opened in the three spaces before the operation is started, the sterilization operation is carried out on the air in the sterile ventilation systems, and the operation pollution is further avoided.

The computer system can control the on-off work of the inflation valve according to the selected body position, and the total amount of gas in the inflatable elastic telescopic bag is controlled by adjusting the on-off time of the inflation valve and the deflation valve to adjust the body position of the patient.

In order to ensure the sealing performance of the first sliding sealing curtain and the second sliding sealing curtain in the sliding process, the first sliding sealing curtain and the second sliding sealing curtain are further connected with a plurality of sliding blocks on the first sliding rails on two sides of the bed body in a sealing mode respectively.

Wherein, the inflatable area is at least 15, can guarantee that the position of patient's four limbs and trunk and head is simply adjusted.

Wherein the inflatable regions are regular quadrilateral regions or polygonal regions.

Wherein the inflatable region may also be an irregular quadrilateral region or a circular or elliptical region.

Wherein, the plurality of inflatable regions are arranged next to each other.

Wherein, the inflatable regions are arranged at intervals.

The invention has the beneficial effects that:

(1) the ventilation bed for general anesthesia clinic combines the respiratory anesthesia needing to be performed in a closed way with the adjustable operation space, so that the sealed anesthesia of the first anesthesia space and the second anesthesia space during the operation can be realized, the flexible transformation of the operation space in the first sealed sterilization space can also be realized, a doctor can adjust the position of the operation space according to the actual operation required position of a patient, meanwhile, due to the existence of the first sealed sterilization space, the operation process can be aseptic, and the doctor can operate only by depending on the hand extending into the first sealed sterilization space to avoid wound bacterial infection.

(2) The general anesthesia clinical ventilation bed can be automatically carried out when the body position of a patient needs to be changed, the change of the volume of the inflatable elastic telescopic bag is realized by controlling the inflating quantity of the inflatable elastic telescopic bag in the inflatable area through the computer system, the body position of the human body is changed in the uneven state of the corresponding inflatable area, and meanwhile, the body position adjustment through the inflatable area is more accurate and intelligent compared with the adjustment in the prior art and is more comfortable for the patient.

Drawings

FIG. 1 is a schematic view of the overall structure of a clinical ventilated bed for general anesthesia according to the present invention;

FIG. 2 is a schematic view showing a local enlargement of the bed body of the clinical aeration bed for general anesthesia.

Detailed Description

The present invention will be described in detail with reference to fig. 1-2.

Example 1

A clinical aeration bed for general anesthesia comprises a bed body 1, first slide rails 2 arranged on two long sides of the bed body 1, and first seal walls 3 and second seal walls 4 arranged on two short sides of the bed body 1, and is characterized in that a second slide rail 5 is further arranged between the first seal wall 3 and the second seal wall 4 of the bed body 1, a first seal curtain 7 is connected with the first slide rails 2 and the second slide rails 5 on the two sides in a sealing manner, the first seal wall 3 and the second seal wall 4 form a first sealed sterilization space, an arm extending part 6 is further arranged on the first sealed sterilization space, a first slide block 501 and a second slide block 502 are arranged on the second slide rail 5, a first sliding seal 501curtain 1 is connected on the first slide block 501 in a sealing manner, a second sliding seal curtain 5021 is connected on the second slide block 502 in a sealing manner, and the first sliding seal curtain 5011 and the first seal wall 3 form a first anesthesia space 701, the second sliding sealing curtain 5021 and the second sealing wall 4 form a second anesthesia space 702, anesthesia gas vent valves 8 are arranged in the first anesthesia space 701 and the second anesthesia space 702, and the anesthesia gas vent valves 8 are connected with the anesthesia machine to provide respiratory anesthesia medicaments for patients.

The first sliding sealing curtain 5011 and the second sliding sealing curtain 5021 are both retractable and foldable curtains, so that the first anesthesia space 701 formed by the first sliding sealing curtain 5011 and the first sealing wall 3 and the second anesthesia space 702 formed by the second sliding sealing curtain 5021 and the second sealing wall 4 are both spaces with adjustable sizes.

The first sealed sterile space is divided into three parts by the first anesthetic space 701 and the second anesthetic space 702, an operation space 703 is formed by removing the middle part of the first anesthetic space 701 and the second anesthetic space 702 from the first sealed sterile space, the first sealing curtain 7 on the operation space 703 is a transparent and visible sealing curtain, and a doctor can insert a hand into the operation space 703 to perform an operation on a patient in the operation space 703.

An anesthetic gas detector 9 and an inhalation valve 10 are further arranged in the operation space 703, the anesthetic gas detector 9 can feed back signals to a computer system, the inhalation valve 10 can be opened after the computer system receives an alarm of the anesthetic gas detector 9, and anesthetic gas in the middle is removed to prevent interference to doctors.

The computer system is electrically connected with the anesthetic gas vent valve 8, and gas concentration monitors are further arranged in the first anesthetic space 701 and the second anesthetic space 702 and can detect the concentration of anesthetic gas in the first anesthetic space 701 and the second anesthetic space 702; the computer system controls the flow of the anesthetic gas by controlling the ventilation time of the ventilation valve 8, the computer system determines the specific anesthetic time, the concentration of the anesthetic gas and the selection of the type of the anesthetic gas according to the physical parameters of the patient and the operation requirements input by a doctor, and the computer system controls the opening and closing of the anesthetic gas ventilation valve 8 according to a predetermined scheme during the operation.

The first anesthesia space 701, the second anesthesia space 702 and the operation space 703 are all closed spaces, are not in contact with the outside air, and can be independently provided with corresponding sterile ventilation systems, and the sterile ventilation systems are opened in the three spaces before the operation is started to perform sterilization operation on the air in the three spaces, so that the operation pollution is further avoided.

Wherein the aeration bed comprises a plurality of inflatable areas 101 to form the bed body 1, each inflatable area 101 is provided with an inflatable elastic telescopic bag 1011, a special inflation pipeline, an inflation valve and a deflation valve, the inflatable elastic telescopic bag 1011 is connected with the special inflation pipeline through the inflation valve, the other end of the special inflation pipeline is connected with an air source, the computer system controls the work of the inflation valve and the deflation valve in a unified way, a doctor can set the body position required by the patient during the operation or the preoperative examination by selecting the existing body position module or a self-defined mode, at the moment, the computer system can control the opening and closing work of the inflation valve according to the selected body position, the total amount of gas in the inflatable elastic telescopic bag 1011 is controlled by adjusting the opening time of the inflation valve and the deflation valve, so as to adjust the body position of the patient.

In order to ensure the sealing performance of the first sliding sealing curtain 5011 and the second sliding sealing curtain 5021 in the sliding process, the first sliding sealing curtain 5011 and the second sliding sealing curtain 5021 are further in sealing connection with a plurality of sliders on the first sliding rails 2 on two sides of the bed body 1 respectively.

Wherein, the number of the inflatable areas 101 is at least 15, which can ensure the simple adjustment of the body positions of the limbs, trunk and head of the patient.

Wherein the inflatable region 101 is a regular quadrilateral region or a polygonal region.

Wherein, the inflatable region 101 can also be an irregular quadrilateral region or a circular or elliptical region.

Wherein the several inflatable regions 101 are disposed next to each other.

Wherein, the plurality of inflatable regions 101 are arranged at intervals.

The invention relates to a general anesthesia clinical ventilation bed, which is divided into a plurality of inflatable areas, a computer system can realize the change of different body positions of a patient through the on-off control of an inflation valve, meanwhile, sliding rails are also arranged at the two ends of the ventilation bed, the sliding rails and a sliding rail at the top of the center of a bed body form a same group to adjust double lifting sealing curtains, an anesthesia gas detector and an air suction port are also arranged between the double sealing curtains, and the anesthesia gas detector and the air suction port are sucked away in time when the anesthesia gas overflows to avoid the interference of a doctor; meanwhile, a vacuum sealing space is formed between the double lifting sealing curtains and the bed body, so that the infection of bacteria can be prevented.

The ventilation bed for general anesthesia clinic combines the respiratory anesthesia needing to be performed in a closed way with the adjustable operation space, so that the sealed anesthesia of the first anesthesia space and the second anesthesia space during the operation can be realized, the flexible transformation of the operation space in the first sealed sterilization space can also be realized, a doctor can adjust the position of the operation space according to the actual operation required position of a patient, meanwhile, due to the existence of the first sealed sterilization space, the operation process can be aseptic, and the doctor can operate only by depending on the hand extending into the first sealed sterilization space to avoid wound bacterial infection. The general anesthesia clinical ventilation bed can be automatically carried out when the body position of a patient needs to be changed, the change of the volume of the inflatable elastic telescopic bag is realized by controlling the inflating quantity of the inflatable elastic telescopic bag in the inflatable area through the computer system, the body position of the human body is changed in the uneven state of the corresponding inflatable area, and meanwhile, the body position adjustment through the inflatable area is more accurate and intelligent compared with the adjustment in the prior art and is more comfortable for the patient.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.

Claims

1. A clinical aeration bed for general anesthesia comprises a bed body 1, first slide rails 2 arranged on two long sides of the bed body 1, and first seal walls 3 and second seal walls 4 arranged on two short sides of the bed body 1, and is characterized in that a second slide rail 5 is further arranged between the first seal wall 3 and the second seal wall 4 of the bed body 1, a first seal curtain 7 is connected with the first slide rails 2 and the second slide rails 5 on the two sides in a sealing manner, the first seal wall 3 and the second seal wall 4 form a first sealed sterilization space, an arm extending part 6 is further arranged on the first sealed sterilization space, a first slide block 501 and a second slide block 502 are arranged on the second slide rail 5, a first sliding seal 501curtain 1 is connected on the first slide block 501 in a sealing manner, a second sliding seal curtain 5021 is connected on the second slide block 502 in a sealing manner, and the first sliding seal curtain 5011 and the first seal wall 3 form a first anesthesia space 701, the second sliding sealing curtain 5021 and the second sealing wall 4 form a second anesthesia space 702, anesthesia gas vent valves 8 are arranged in the first anesthesia space 701 and the second anesthesia space 702, and the anesthesia gas vent valves 8 are connected with the anesthesia machine to provide respiratory anesthesia medicaments for patients.

2. A general anesthetic clinical ventilating bed according to claim 1, wherein the first sliding curtain 5011 and the second sliding curtain 5021 are both retractable and foldable curtains, so that the first sliding curtain 5011 and the first sealing wall 3 form a first anesthetic space 701 and the second sliding curtain 5021 and the second sealing wall 4 form a second anesthetic space 702, which can be adjusted in size.

3. A clinical ventilation bed for general anesthesia according to claim 2, wherein said first sealed sterile space is divided into three parts by said first anesthetic space 701 and said second anesthetic space 702, an operation space 703 is formed in said first sealed sterile space except for a middle part of said first anesthetic space 701 and said second anesthetic space 702, said first sealing curtain 7 on said operation space 703 is a transparent and visible sealing curtain, and a surgeon can insert his hand into said operation space 703 to perform a surgical operation on a patient in said operation space 703.

4. The clinical aeration bed for general anesthesia according to claim 2, wherein said aeration bed 1 is composed of several inflatable regions 101, each of said inflatable regions 101 is provided with an inflatable flexible bag 1011, a dedicated inflation tube 1011, an inflation valve and a deflation valve, said inflatable flexible bag 1011 is connected to said dedicated inflation tube through said inflation valve, the other end of said dedicated inflation tube is connected to the air source, said computer system controls the operation of said inflation valve and deflation valve in a unified manner, the physician can set the position of the patient required for the operation or preoperative examination by selecting the existing position module or custom mode, at this time, the computer system can control the opening and closing operation of said inflation valve according to the selected position, and control the total amount of air in said inflatable flexible bag 1011 by adjusting the opening time of said inflation valve and deflation valve, the posture of the patient can be adjusted.

5. The clinical aeration bed for general anesthesia according to claim 2, wherein the first sliding sealing curtain 5011 and the second sliding sealing curtain 5021 are further connected with a plurality of sliders on the first sliding rail 2 at both sides of the bed body 1 in a sealing manner.

6. A clinical ventilated bed for general anesthesia according to claim 4, wherein said inflatable regions 101 are at least 15.

7. A clinical ventilated bed for general anesthesia according to claim 4, wherein said inflatable region 101 is a regular quadrilateral region or a polygonal region.

8. A clinical ventilated bed for general anesthesia according to claim 4, wherein said inflatable region 101 can also be an irregular quadrilateral region or a circular or elliptical region.

9. A clinical ventilated bed for general anesthesia according to claim 4, wherein said plurality of inflatable regions 101 are disposed in close proximity to each other.

10. A clinical ventilation bed for general anesthesia according to claim 4, wherein said plurality of inflatable regions 101 are spaced apart from each other.