CN211383286U

CN211383286U - Artificial airway air bag pressure continuous monitoring auxiliary tool

Info

Publication number: CN211383286U
Application number: CN201821126022.2U
Authority: CN
Inventors: 张剑剑; 潘爱红; 李业桂; 吴旭峰; 胡小鸥
Original assignee: Individual
Current assignee: Individual
Priority date: 2018-07-12
Filing date: 2018-07-12
Publication date: 2020-09-01
Anticipated expiration: 2028-07-12

Abstract

The utility model relates to an artificial airway gasbag pressure continuous monitoring auxiliary tool, which comprises a three-way pipe, wherein the three-way pipe comprises a first pipe orifice, a second pipe orifice and a third pipe orifice, a switching valve is arranged on the three-way pipe, the switching valve rotates and respectively adjusts the first pipe orifice and the third pipe orifice as well as the second pipe orifice and the third pipe orifice, the first pipe orifice is communicated with a gas inlet of a gas pressure measuring meter, the third pipe orifice is communicated with a joint of a gasbag, the second pipe orifice is communicated with a gas pressure adding and reducing mechanism, when the auxiliary tool is actually used, the first pipe orifice and the gas inlet of the gas pressure measuring meter are connected into a whole, the third pipe orifice is communicated with the joint of the gasbag, the pressure of the gasbag can be continuously and real-timely measured by the gas pressure measuring meter, a caregiver only needs to keep track whether the reading of the gas pressure measuring meter is in a reasonable range value or not in real time, when the auxiliary tool is actually used, the pressure value of the air bag can be continuously and dynamically monitored, and the problem that the pressure is too high or too low due to the fact that the air bag cannot be continuously monitored in actual monitoring can be avoided.

Description

Artificial airway air bag pressure continuous monitoring auxiliary tool

Technical Field

The utility model belongs to the technical field of the medical instrument technique and specifically relates to an utensil is assisted in continuous monitoring of artifical air flue gasbag pressure.

Background

Include autogenous cutting and two kinds of modes of air flue intubate among the practical clinical application of artifical air flue to ensure that severe patients respiratory tract is unobstructed, can cooperate the breathing machine to breathe and support the treatment. After the artificial air passage is established, the air bag of the artificial air passage needs to be inflated and pressurized, and the purpose of inflation and pressurization is to perform a fixing function after the artificial air passage is placed; in practical clinical application, the pressure change of the air bag can generate great influence on a human body, and the specific expression is as follows: when the pressure of the air bag is overlarge, the mechanical system of the mucous membrane of the air passage is easy to damage, and a series of complications can be generated when the pressure is serious, so that the mechanical ventilation effect is influenced; when the pressure of the air bag is too small, the tightness of the air bag on the air passage is limited, so that secretion generated by a human body enters the air pipe through the air passage, complications such as ventilator-associated pneumonia are caused, the condition of a patient is aggravated and even death is caused very easily, meanwhile, air leakage can be caused due to small pressure of the air bag, the ventilation effect of the ventilator is influenced, and in practical clinical application, the pressure value of the air bag is always ensured to be 25-30 cmH2O according to relevant literature suggestions.

In order to solve the technical problem, in the prior art, a joint for monitoring the pressure of the air bag is reserved on the air bag, and a nursing staff utilizes a medical gas pressure monitoring meter to monitor at intervals so as to ensure that the gas pressure in the air bag is within a reasonable pressure value range, the monitoring on the pressure of the air bag can not be continuously and effectively monitored, and the workload of the nursing staff is greatly increased. Simultaneously when actual operation, gas pressure monitoring table and joint plug in-process, the gasbag produces gas leakage very easily, consequently causes the preceding pressure value of gas pressure monitoring table to be in reasonable scope value, and in fact because the lower state of atmospheric pressure that gas leakage leads to, consequently can produce to cause comparatively serious potential safety hazard to the patient, repeated going on is interrupted pressure monitoring and also is easily produced certain damage to gasbag pressure joint, can lead to gasbag pressure monitoring joint damage and lead to gas leakage when serious.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a: the utility model provides an utensil is assisted in continuous monitoring of artifical air flue gasbag pressure can last effectual monitoring gasbag's pressure, avoids the gasbag can not last the monitoring and the too high or too low problem of pressure that leads to producing in actual monitoring.

The utility model provides a solve technical problem and adopt following technical scheme:

the utility model provides an utensil is assisted in continuous monitoring of artifical air flue gasbag pressure, includes the three-way pipe, the three-way pipe contains first, second, third mouth of pipe, set up the switching valve on the three-way pipe, the switching valve rotates and adjusts first mouth of pipe and third mouth of pipe and second mouth of pipe and third mouth of pipe intercommunication respectively, first mouth of pipe communicates with the gas inlet of gas pressure meter, the third mouth of pipe communicates with the joint of gasbag, the second mouth of pipe adds and subtracts mechanism intercommunication with atmospheric pressure.

The utility model discloses still there is following technical characteristic:

the first pipe orifice and the third pipe orifice are arranged at two ends of the three-way pipe, and the second pipe orifice is perpendicular to the three-way pipe.

The switching valve comprises a rotating handle, a first support handle, a second support handle and a third support handle are arranged on the rotating handle, the first support handle and the third support handle are located on the same straight line, the second support handle is perpendicular to the connecting line of the first support handle and the third support handle, the first pipe orifice and the third pipe orifice are in a communicated state, the first support handle and the third support handle correspond to the first pipe orifice and the third pipe orifice in a directional consistent mode respectively, and the second pipe orifice and the third pipe orifice are in a communicated state, the third support handle corresponds to the second pipe orifice and the third pipe orifice in a directional consistent mode respectively.

The gas pressure measuring meter comprises a pipe body, wherein one end of the pipe body is provided with a plug which forms a plug-in fit with a first pipe orifice, a piston plate is arranged in the pipe body, one side of the plate surface of the piston plate is provided with a pressure indicating rod, the pressure indicating rod is parallel to the pipe body, one end of the pressure indicating rod extends out of the other end pipe orifice of the pipe body, a spring is sleeved on the pressure indicating rod, and two ends of the spring are respectively abutted against the other end pipe orifice of the piston plate and the other end pipe.

The pressure indicating rod is characterized in that a pressure scale mark is arranged on the rod body of the other end pipe orifice of the pressure indicating rod extending out of the pipe body, the pressure scale mark is arranged at intervals along the length direction of the pressure indicating rod, the pressure scale mark divides the length direction of the pressure indicating rod into three rod sections, the three rod sections are respectively coated with red, green and yellow, and the color of the middle rod section is green

Compared with the prior art, the beneficial effects of the utility model are embodied in: when the auxiliary tool is actually used, the first pipe orifice and the gas inlet of the gas pressure measuring meter are connected into a whole, the third pipe orifice is communicated with the joint of the air bag, the gas pressure measuring meter can be kept beside a patient, the pressure of the air bag can be continuously measured in real time by using the gas pressure measuring meter, a caregiver only needs to pay attention to whether the reading of the gas pressure measuring meter is within a reasonable range value in real time, when the reading is too low (high), the switching valve is rotated to enable the second pipe orifice to be communicated with the third pipe orifice, gas is led into (pumped out) of the air bag to supplement (reduce) the gas into the air bag, the switching valve is rotated again to enable the first pipe orifice to be communicated with the gas inlet of the gas pressure measuring meter and the third pipe orifice to be communicated with the joint of the air bag, by observing whether the reading of the gas pressure measuring meter is within the reasonable range value, when the auxiliary tool is actually, the dynamic adjustment of the pressure of the air bag can be realized, the pressure value of the air bag can be continuously and dynamically monitored, and the problem of high or low pressure in the prior art can be avoided.

Drawings

FIG. 1 is a schematic structural diagram of a tee;

FIG. 2 is a schematic diagram of a gas pressure gauge;

FIG. 3 is a cross-sectional view of a gas pressure gauge;

fig. 4 and 5 are schematic diagrams of two using states of the auxiliary tool for continuously monitoring the pressure of the artificial airway air bag.

Detailed Description

Referring to fig. 1 to 5, the structural features of the auxiliary tool for continuously monitoring the pressure of the artificial airway air bag are detailed as follows:

an auxiliary tool for continuously monitoring the pressure of an artificial airway air bag comprises a three-way pipe 10, wherein the three-way pipe 10 comprises a first pipe orifice 11, a second pipe orifice 11, a third pipe orifice 12 and a third pipe orifice 13, a switching valve is arranged on the three-way pipe 10, the switching valve rotates and respectively adjusts the first pipe orifice 11 and the third pipe orifice 13 as well as the second pipe orifice 12 and the third pipe orifice 13 to be communicated, the first pipe orifice 11 is communicated with a gas inlet of a gas pressure meter 20, the third pipe orifice 13 is communicated with a joint of the air bag, and the second pipe orifice 12 is communicated with a gas pressure increasing and decreasing mechanism;

referring to fig. 1 to 3, in actual use, the auxiliary device is formed by connecting the first pipe orifice 11 and the gas inlet of the gas pressure gauge 20, connecting the third pipe orifice 13 and the joint of the airbag, the gas pressure measuring meter 20 can be left beside the patient, the pressure of the air bag can be continuously measured in real time by using the gas pressure measuring meter 20, the nursing staff only needs to keep track of whether the reading of the gas pressure measuring meter is in a reasonable range value in real time, when the reading is too low, the switching valve is rotated to communicate the second pipe orifice 121 with the third pipe orifice 13, air is introduced into the air bag by using the air pressure increasing and reducing mechanism, the air pressure increasing and reducing mechanism can select a needle cylinder, therefore, air is supplied to the air bag, the switching valve is rotated again, so that the first pipe orifice 11 is communicated with the gas inlet of the gas pressure measuring meter 20, and the third pipe orifice 13 is communicated with the joint of the air bag, and whether the reading of the gas pressure measuring meter 20 is in a reasonable range value or not is observed;

similarly, when the reading is too high, the switching valve is rotated to enable the second pipe orifice 121 to be communicated with the third pipe orifice 13, a part of gas is pumped out by using the needle cylinder, so that the pressure of the air bag is reduced, the switching valve is rotated again to enable the first pipe orifice 11 to be communicated with the gas inlet of the gas pressure measuring meter 20 and the third pipe orifice 13 to be communicated with the joint of the air bag, and whether the reading of the gas pressure measuring meter 20 is within a reasonable range value or not is observed;

the adjustment may continue in multiple steps until the reading of gas pressure gauge 20 is within a reasonable range of values;

this assistive device can realize the gasbag pressure dynamic adjustment when in actual use, can last dynamic monitoring gasbag pressure value size to can avoid the problem that the pressure among the prior art is high or low.

As a preferred embodiment of the present invention, as shown in fig. 1, 4 and 5, the first and

third pipe orifices

11 and 13 are disposed at two ends of the three-way pipe 10, and the second pipe orifice 12 is perpendicular to the three-way pipe 10;

in order to facilitate actual adjustment and observation operations, the switching valve comprises a rotating handle 14 protruding out of the pipe body of the three-way pipe 10, the rotating handle 14 is provided with a first support handle 141, a second support handle 142 and a third support handle 143, wherein the first support handle 141 and the third support handle 143 are positioned on the same straight line, the second support handle 142 is perpendicular to the connecting line of the first support handle 141 and the third support handle 143, the first pipe orifice 11 and the third pipe orifice 13 are in a communicated state, the first support handle 141 and the third support handle 143 respectively point to the same direction as the first pipe orifice 11 and the third pipe orifice 13, and the second pipe orifice 12 and the third pipe orifice 13 are in a communicated state, the third support handle 143 and the second support handle 142 respectively point to the same direction as the second pipe orifice 12 and the third pipe orifice 13;

the valve core of the switching valve 14 is provided with a T-shaped channel, when the rotating handle 14 rotates, the positions corresponding to the first, second and third supports 141, 142 and 143 can realize the conduction to the T-shaped channel of the valve core, so as to realize the above operation structure.

Referring to fig. 2, in order to facilitate the reading of the pressure, the gas pressure measuring meter 20 includes a pipe body 21, one end of the pipe body 21 is provided with a plug 22 which forms an insertion fit with the first pipe orifice 11, a piston plate 23 is arranged in the pipe body 21, a side plate surface of the piston plate 23 is provided with a pressure indicating rod 24, the pressure indicating rod 24 is parallel to the pipe body 21, one end of the pressure indicating rod 24 extends out of the other pipe orifice of the pipe body 21, the pressure indicating rod 24 is sleeved with a spring 25, and two ends of the spring 25 respectively abut against the piston plate 23 and the other pipe orifice of the pipe body 21;

the above-mentioned gas pressure makes spring 25 compression deformation and piston plate 23 slide along body 21 to make pressure indication rod 24 stretch out the other end mouth of pipe of body 21, set up the pressure reading along the length direction interval of pressure indication rod 24, thereby conveniently realize reading the pressure.

In order to facilitate the observation of the pressure of the air bag by the nursing staff, a plurality of pressure scale marks are arranged on the rod body of the pipe orifice at the other end of the pressure indicating rod 24, which extends out of the pipe body 21, at intervals along the length direction of the pressure indicating rod 24, the pressure scale marks divide the length direction of the pressure indicating rod 24 into three rod sections, the three rod sections are respectively coated with red, green and yellow, and the color of the middle rod section is green;

nursing staff's accessible is observed pressure indication pole 24 and is stretched out the colour of the orificial pole body of the other end of body 21 and can be judged whether reasonable of gasbag, it is yellow to stretch out the end when pressure indication pole 24, then it is lower to explain gasbag pressure, need carry out the tonifying qi according to above-mentioned operation, it is green to stretch out the orificial pole body colour of the other end of body 21 when pressure indication pole 24, it is suitable to explain gasbag pressure, it is red to stretch out the orificial pole body colour of the other end of body 21 when pressure indication pole 24, then it is too big to explain the pressure of gasbag, need reduce the pressure of gasbag to suitable within range according to above-mentioned operation, therefore this structure is very convenient effective when actual operation.

In a word, the auxiliary tool can dynamically adjust the pressure of the air bag, continuously and dynamically monitor the pressure value of the air bag, avoid the problem of high or low pressure in the prior art and reduce the working strength of nursing staff.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. The utility model provides an utensil is assisted in continuous monitoring of artificial airway gasbag pressure which characterized in that: the three-way pipe comprises a three-way pipe (10), wherein the three-way pipe (10) comprises a first pipe orifice, a second pipe orifice and a third pipe orifice (11, 12 and 13), a switching valve is arranged on the three-way pipe (10), the switching valve rotates and respectively adjusts the first pipe orifice (11) and the third pipe orifice (13) as well as the second pipe orifice (12) and the third pipe orifice (13) to be communicated, the first pipe orifice (11) is communicated with a gas inlet of a gas pressure meter (20), the third pipe orifice (13) is communicated with a joint of an air bag, and the second pipe orifice (12) is communicated with a gas pressure increasing and decreasing mechanism;

the first pipe orifice and the third pipe orifice (11 and 13) are arranged at two ends of the three-way pipe (10), and the second pipe orifice (12) is vertical to the three-way pipe (10);

the artificial airway air bag pressure continuous monitoring assistive device is characterized in that: the switching valve comprises a rotating handle (14) and a pipe body of the three-way pipe (10) in a protruding mode, a first support handle, a second support handle and a third support handle (141, 142 and 143) are arranged on the rotating handle (14), the first support handle and the third support handle (141 and 143) are located on the same straight line, the second support handle (142) is perpendicular to the connecting line of the first support handle and the third support handle (141 and 143), the first pipe orifice (11) and the third pipe orifice (13) are in a communicated state, the first support handle (141) and the third support handle (143) respectively correspond to the first pipe orifice (11) and the third pipe orifice (13) in a direction consistent mode, and the second pipe orifice (12) and the third pipe orifice (13) are in a communicated state, the third support handle (143) and the second support handle (142) respectively correspond to the second pipe orifice (12) and the third pipe orifice (13) in a direction consistent mode.

2. The artificial airway balloon pressure continuous monitoring aid of claim 1, wherein: gas pressure meter (20) includes body (21), the one end of body (21) is provided with constitutes grafting complex plug (22) with first mouth of pipe (11), be provided with piston plate (23) in body (21), one side face of piston plate (23) is provided with pressure indication pole (24), the other end mouth of pipe that body (21) were stretched out to pressure indication pole (24) and body (21) parallel and one end, the cover is equipped with spring (25) on pressure indication pole (24), the both ends of spring (25) lean on with the other end mouth of pipe of piston plate (23) and body (21) respectively and lean on.

3. The artificial airway balloon pressure continuous monitoring aid of claim 2, wherein: the pressure indicating rod is characterized in that pressure scale marks are arranged on a rod body of a pipe orifice at the other end, extending out of the pipe body (21), of the pressure indicating rod (24), the pressure scale marks are arranged at intervals along the length direction of the pressure indicating rod (24), the pressure scale marks divide the length direction of the pressure indicating rod (24) into three rod sections, the three rod sections are respectively coated with red, green and yellow, and the color of the middle rod section is green, namely the position of a normal range scale value.