CN216456400U - Novel artificial respirator - Google Patents

Abstract

The utility model discloses a novel artificial respirator, which is characterized by comprising a sacculus, a bottom plate and an extrusion mechanism for extruding the sacculus, wherein the sacculus is connected with a mask, a detector for monitoring respiration is arranged in the mask, the extrusion mechanism comprises an expansion link electrically connected with a controller, the expansion end of the expansion link is connected with a pressing plate, and the pressing plate is arranged on one side of the sacculus, which is back to the bottom plate. The utility model has the following beneficial effects: first-aid staff establishes the gauze mask on patient's mouth nose, through the flexible length and the flexible frequency of control telescopic link to control respiratory capacity and respiratory frequency, in order to carry out the pertinence rescue.

Description

Novel artificial respirator

Technical Field

The utility model relates to medical equipment, in particular to a novel artificial respirator.

Background

After a coma patient or a patient with cardiac arrest gets rid of foreign matters in an airway, the patient needs to immediately perform artificial respiration if the respiratory tract is unblocked by a free-hand method, so as to ensure that oxygen is supplied to the patient uninterruptedly and prevent irreversibility damage of important organs caused by oxygen deficiency. As long as the air volume of the patient is slightly larger than normal during artificial respiration, the absolute value of the oxygen content is not less than that of spontaneous respiration, so that the oxygen supply of important organs of the body can be completely ensured, and the damage of the important organs caused by oxygen deficiency can be avoided.

Artificial respiration is a common first-aid measure and also a medical rescue means for artificially helping a patient to breathe under the condition that the human body cannot breathe spontaneously or the breathing is weak. When the artificial respiration emergency resuscitator is used for emergency resuscitation, the respiratory capacity and the respiratory frequency are difficult to control, and targeted rescue is not facilitated.

SUMMERY OF THE UTILITY MODEL

In view of the defects in the prior art, the utility model aims to provide a novel artificial respirator, which can control the respiratory capacity and respiratory frequency to perform targeted rescue.

In order to achieve the purpose, the utility model provides the following technical scheme: the utility model provides a novel artificial respirator, including the support, installs sacculus, bottom plate on the support and is used for extrudeing the extrusion mechanism of sacculus, and the sacculus is connected with the gauze mask, is provided with in the gauze mask to be used for monitoring respiratory detector, and extrusion mechanism is including the telescopic link of being connected with the controller electricity, and the flexible end of telescopic link is connected with the clamp plate, and the clamp plate setting is in the sacculus one side of bottom plate dorsad.

The utility model is further configured to: still install the controller on the support, the gauze mask still is provided with and is used for monitoring the first inductor that admits air and is used for monitoring carminative second inductor, and detector, telescopic link, first inductor and second inductor all are connected with the controller electricity.

The utility model is further configured to: the sacculus is connected with the connecting pipe that is used for being connected with the gauze mask, installs first check valve on the connecting pipe, still is provided with the blast pipe on the gauze mask, and the second check valve is installed to the blast pipe, and first inductor is installed on first check valve, and the second inductor is installed on the second check valve.

The utility model is further configured to: the blast pipe still is connected with the exhaust tube, and the exhaust tube is connected with the aspiration pump, installs the suction box on the aspiration pump, and the suction box is provided with the filter screen.

The utility model is further configured to: an elastic arc-shaped plate used for being connected to the balloon is arranged on the pressing plate.

The utility model is further configured to: the sacculus is also connected with a third one-way valve.

The utility model is further configured to: the third one-way valve is provided with a third sensor for detecting the air supply amount, the first sensor is provided with a sensor for detecting the oxygen concentration, and the controller is also electrically connected with the third one-way valve and the third sensor.

In conclusion, the utility model has the following beneficial effects: first-aid staff establishes the gauze mask on patient's mouth nose, through the flexible length and the flexible frequency of control telescopic link to control respiratory capacity and respiratory frequency, in order to carry out the pertinence rescue. The telescopic link is flexible through extrusion sacculus, and the extrusion of straight line is flexible, can the accurate control air input. According to the spontaneous breathing rule of the human body detected by the detector, the breathing frequency is slowly adjusted, and the discomfort of the human body is reduced.

Drawings

FIG. 1 is a schematic view of a connection structure of a novel artificial respirator;

fig. 2 is a schematic view of a connection structure of the suction pump.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. In which like parts are designated by like reference numerals. It should be noted that the terms "front," "back," "left," "right," "upper" and "lower" used in the following description refer to directions in the drawings, and the terms "bottom" and "top," "inner" and "outer" refer to directions toward and away from, respectively, the geometric center of a particular component.

Referring to fig. 1-2, a novel artificial respirator, including support 1, install sacculus 11, controller 12 and be used for extrudeing the extrusion mechanism 2 of sacculus 11 on the support 1, sacculus 11 is connected with gauze mask 3, is provided with the detector that is used for monitoring breathing in the gauze mask 3, fixedly connected with bottom plate 13 on the support 1, extrusion mechanism 2 is including the telescopic link 21 of being connected with controller 12 electricity, the flexible end of telescopic link 21 is connected with clamp plate 22, clamp plate 22 sets up in the sacculus 11 one side of bottom plate 13 dorsad.

Through above-mentioned scheme, emergency personnel establishes gauze mask 3 cover on patient's mouth nose, through the flexible length and the flexible frequency of control telescopic link 21 to control respiratory capacity and respiratory frequency, in order to carry out the pertinence rescue. The telescopic rod 21 is telescopic, and the air input can be accurately controlled through linear telescopic extrusion by extruding the balloon 11. According to the spontaneous breathing rule of the human body detected by the detector, the breathing frequency is slowly adjusted, and the discomfort of the human body is reduced.

As a modified specific embodiment, the controller 12 is further installed on the support 1, the mask 3 is provided with a first sensor 31 for monitoring air intake and a second sensor 32 for monitoring air exhaust, and the detector, the telescopic rod 21, the first sensor 31 and the second sensor 32 are all electrically connected with the controller 12.

Through the scheme, the controller 12 sets corresponding air inflow and breathing frequency, and the controller 12 controls the extrusion amount and the extrusion frequency of the extrusion mechanism 2 for extruding the balloon 11 according to the air inflow fed back by the first inductor 31. And monitor the air displacement through second inductor 32 to ensure that waste gas can discharge smoothly after admitting air, avoid admitting air before not exhausting, guarantee can normally breathe, reduce the interference to breathing, thereby the supplementary patient resumes normally breathing.

In a modified embodiment, the balloon 11 is connected with a connecting pipe 33 for connecting with the mask 3, the connecting pipe 33 is provided with a first one-way valve 331, the mask 3 is further provided with an exhaust pipe 34, the exhaust pipe 34 is provided with a second one-way valve 341, the first sensor 31 is mounted on the first one-way valve 331, and the second sensor 32 is mounted on the second one-way valve 341.

Through the scheme, the controller 12 controls the opening and closing of the first check valve 331 and the second check valve 341, ensures the flow direction of the gas flow, and monitors the gas flowing through in the using process, so as to ensure the monitoring accuracy. The second check valve 341 is closed when admitting air, avoids air leakage, enhances air pressure, is favorable for fresh air to be inhaled smoothly, opens when exhausting to waste gas discharge ensures that breathing can be normally guided.

In a modified embodiment, the exhaust pipe 34 is further connected to an air exhaust pipe 342, the air exhaust pipe 342 is connected to an air exhaust pump 35, a suction box 351 is mounted on the air exhaust pump 35, and the suction box 351 is provided with a filter 352.

Through above-mentioned scheme, when exhausting, accelerate exhaust waste gas through aspiration pump 35, or when patient's breathing is weak even can not spontaneous breathing, play the effect that supplementary patient carried out breathing, admit air and exhaust through control, volume of ventilating and respiratory frequency are advanced in breathing that can accurate control patient completely to play accurate pertinence treatment, alleviate respiratory pressure, help patient accumulates physical power, thereby resume spontaneous breathing better.

In a modified embodiment, the pressing plate 22 is provided with an elastic arc plate 23 for connecting to the balloon 11.

Through the scheme, the elastic arc-shaped plate 23 is connected to the balloon 11, and can drive the balloon 11 to recover the shape, so that the next extrusion can be performed more quickly.

As a modified specific embodiment, a third one-way valve 14 is further connected to the balloon 11.

By the above solution, the third one-way valve 14 controls the intake of air to avoid the escape of air inside the balloon 11 to ensure the proper operation.

As a modified embodiment, a third sensor 141 for detecting the amount of supplied air is installed on the third check valve 14, the first sensor 31 is provided with a sensor for detecting the oxygen concentration, and the controller 12 is electrically connected to the third check valve 14 and the third sensor 141.

Through the scheme, the third one-way valve 14 accurately controls the air inflow amount through the third inductor 141 so as to perform targeted treatment.

The above description is only a preferred embodiment of the present invention, and the scope of the present invention is not limited to the above embodiments, and all technical solutions that belong to the idea of the present invention belong to the scope of the present invention. It should be noted that modifications and adaptations to those skilled in the art without departing from the principles of the present invention should also be considered as within the scope of the present invention.

Claims (7)

1. The utility model provides a novel artificial respirator, including support (1), characterized by: install sacculus (11), bottom plate (13) on support (1) and be used for extrudeing extrusion mechanism (2) of sacculus (11), sacculus (11) are connected with gauze mask (3), be provided with in gauze mask (3) and be used for monitoring respiratory detector, extrusion mechanism (2) are including telescopic link (21), the flexible end of telescopic link (21) is connected with clamp plate (22), clamp plate (22) set up in sacculus (11) one side of bottom plate (13) dorsad.

2. The novel artificial respirator of claim 1, wherein: still install controller (12) on support (1), gauze mask (3) still are provided with and are used for monitoring carminative second inductor (32) first inductor (31) that admit air and are used for monitoring, detector, telescopic link (21), first inductor (31) and second inductor (32) all are connected with controller (12) electricity.

3. The novel artificial respirator of claim 2, wherein: sacculus (11) are connected with connecting pipe (33) that are used for being connected with gauze mask (3), install first check valve (331) on connecting pipe (33), still be provided with blast pipe (34) on gauze mask (3), second check valve (341) are installed in blast pipe (34), install on first check valve (331) first inductor (31), install on second check valve (341) second inductor (32).

4. The novel artificial respirator of claim 3, wherein: exhaust pipe (34) still are connected with exhaust tube (342), exhaust tube (342) is connected with aspiration pump (35), install suction box (351) on aspiration pump (35), suction box (351) are provided with filter screen (352).

5. The novel artificial respirator of claim 4, wherein: the pressing plate (22) is provided with an elastic arc-shaped plate (23) which is used for being connected to the saccule (11).

6. The new artificial respirator as claimed in claim 2, wherein: the balloon (11) is also connected with a third one-way valve (14).

7. The novel artificial respirator of claim 6, wherein: the third sensor (141) used for detecting the gas amount is installed on the third one-way valve (14), the first sensor (31) is provided with a sensor used for detecting the oxygen concentration, and the controller (12) is further electrically connected with the third one-way valve (14) and the third sensor (141).

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