CN216091756U - Simple transfer respirator device with monitoring interface - Google Patents

Abstract

The utility model discloses a simple transfer respirator device with a monitoring interface, which comprises a monitoring device body and a simple respirator arranged on the monitoring device body, wherein the monitoring device comprises a display screen and a control box, a plurality of signal ends are arranged on the control box, a test instrument is connected onto the signal ends, the display screen is electrically connected with the test instrument, the display screen is used for displaying signals sent by the test instrument, so that the signals sent by the test instrument can be displayed on the display screen, and the ventilation volume and the frequency of the simple respirator can be adjusted according to the monitoring condition by monitoring vital signs in real time in the transfer process, so that a clinician can make an accurate judgment on the condition of an illness at any time, and the condition of the illness can be timely detected so as to avoid delaying the optimal treatment opportunity of treatment.

Description

Simple transfer respirator device with monitoring interface

Technical Field

The utility model relates to the technical field of respirator devices, in particular to a simple transfer respirator device with a monitoring interface.

Background

Nearly 60 million people in China have sudden cardiac death every year, the problem that the patients are transported after resuscitation success or general anesthesia operation is solved, the lung ventilation volume is guaranteed to be particularly important in the transportation process, but the patients needing transportation or temporary first aid in large hospitals cannot rely on large equipment and instruments, the traditional method is to use a simple leather ball pinching breathing device, the simple breathing machine is simple in structure, the lung ventilation volume cannot be guaranteed in the transportation process, and the vital signs cannot be detected, so that the generated problems are not easy to find, and serious consequences are caused.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a simple transfer respirator device with a monitoring interface, which comprises a simple respirator and a monitoring device, wherein the monitoring device combines a display screen and a testing instrument, and can display acquired data on the screen through analog-to-digital converted signals in the transfer process, so that the monitoring function in the transfer process is realized.

In order to achieve the purpose, the utility model provides the following technical scheme: the utility model provides a simple and easy transportation breathing machine device with control interface, includes the guardianship device body, still including installing the simple and easy breathing machine on the monitoring device body, the guardianship device includes display screen and control box, be equipped with a plurality of signal ends on the control box, be connected with the test instrument on the signal end, the display screen with the test instrument electricity is connected, and the signal that the test instrument sent can show on the display screen.

Preferably, simple and easy breathing machine includes the gasbag mechanism, the gasbag mechanism includes air inlet and gas outlet, just air inlet and gas outlet communicate with each other, and oxygen can get into from the air inlet, from the gas outlet exhalation.

Preferably, the control box is further provided with a fixing frame, a miniature oxygen bottle is fixed on the fixing frame, and the miniature oxygen bottle is communicated with the simple respirator.

Preferably, simple and easy breathing machine includes gasbag mechanism and face guard, the both ends of gasbag mechanism are equipped with air inlet and gas outlet, just air inlet and gas outlet communicate with each other, the face guard with the gas outlet is linked together, miniature oxygen cylinder is linked together with the air inlet, and oxygen gets into gasbag mechanism rethread gas outlet by the air inlet and gets into the face guard and provide oxygen for patient.

Preferably, the air bag mechanism further comprises a transparent plastic shell and a flexible air bag, the transparent plastic shell is arranged outside the flexible air bag and used for protecting the flexible air bag, openings at two ends of the transparent plastic shell are connected with the air inlet and the air outlet, and two ends of the flexible air bag are communicated with the air inlet and the air outlet.

Preferably, simple and easy breathing machine still includes lever mechanism, lever mechanism is used for extrudeing flexible gasbag, can guarantee even oxygen ventilation to it is more laborsaving because of lever principle.

Preferably, the lever mechanism comprises a pressing plate, and the pressing plate is arranged inside an interlayer of the transparent plastic shell and the flexible air bag and used for moving inside the interlayer.

Preferably, lever mechanism still includes manual lever and movable rod, still be equipped with the through-hole on the gasbag mechanism, the one end of movable rod is passed the through-hole with the clamp plate links to each other, and the other end links to each other with manual lever, during the use, prizes the movable rod through manual lever to drive the clamp plate and be reciprocating motion, even extrusion flexible gasbag.

Preferably, the spring is arranged in the flexible air bag, the flexible air bag is often compressed due to long-term storage of the simple respirator, the possibility of breakage is high due to the fact that the bag wall is in a deformed state for a long time, the spring is arranged in the flexible air bag, the air bag can be restored, the original shape is kept, and the service life of the flexible air bag is prolonged.

Preferably, be equipped with first signal end, second signal end and third signal end on the control box, be used for connecting the sphygmomanometer respectively, heart rate tester and oxyhemoglobin saturation measuring apparatu, can monitor patient's blood pressure, heart rate and oxyhemoglobin saturation in the transit to show on the screen.

Preferably, the air inlet and the air outlet are both provided with one-way valves, the air inlet can only be fed out, the air outlet can only be fed out, air in the lung of the patient is prevented from being sucked backwards when the flexible air bag is restored, and the air outlet and a connecting channel of the mask are provided with air outlets for exhausting air exhaled by the patient.

Compared with the prior art, the utility model has the beneficial effects that:

the monitoring mechanism is arranged in the respirator device and comprises a display screen and a control box, three signal ends are arranged on the control box and are respectively used for being connected with a sphygmomanometer, a heart rate tester and a blood oxygen saturation measuring instrument, the blood pressure, the heart rate and the blood oxygen saturation of a patient can be monitored in the transportation process and displayed on the screen, signals sent by the tester can be displayed on the display screen by electrically connecting the tester and the display screen, vital signs can be monitored in real time in the transportation process to help clinicians to accurately judge the state of an illness at any time, and the state of the illness can be detected in time so as to avoid delaying the optimal treatment opportunity of treatment.

According to the utility model, the manual lever capable of being used for extruding the air bag is arranged, the manual lever is held to contract the air bag to assist in air suction once, the manual lever air bag is released to automatically recover, so that the air bag is refilled with oxygen through the air inlet, uniform oxygen ventilation is ensured, and the lever principle is more labor-saving.

The transparent plastic shell is arranged outside the flexible air bag, so that the flexible air bag can be protected from being broken due to collision.

According to the utility model, the spring is arranged in the flexible air bag, so that the air bag is restored to keep the original shape, and the service life of the flexible air bag is prolonged.

Drawings

FIG. 1 is a schematic structural diagram of a simple transshipment ventilator device with a monitoring interface according to the present invention;

FIG. 2 is a schematic structural diagram of a simple ventilator with a monitoring interface in a non-pressed state in a simple transfer ventilator device according to the present invention;

fig. 3 is a schematic structural diagram of a simple respirator with a monitor interface for a pressing state in the simple transportation respirator device according to the present invention.

In the figure: 1. a simple respirator; 101. a face mask; 102. an air inlet; 103. an air outlet; 104. a transparent plastic housing; 105. a flexible bladder; 106. a spring; 107. pressing a plate; 108. a through hole; 109. a movable rod; 110. a manual lever; 111. an exhaust port; 2. a monitoring device body; 3. a display screen; 4. a control box; 401. a first signal terminal; 402. a second signal terminal; 403. a third signal terminal; 5. a micro oxygen cylinder; 6. a fixing frame.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1, the first embodiment of the simple transfer ventilator device with a monitoring interface provided by the present invention includes a monitoring device body 2, and further includes a simple ventilator 1 installed on the monitoring device body, the monitoring device includes a display screen 3 and a control box 4, a first signal end 401, a second signal end 402 and a third signal end 403 are provided on the control box 4, and are respectively electrically connected to a sphygmomanometer, a heart rate tester, a blood oxygen saturation tester and other testing instruments, a fixing frame 6 is further installed on the control box 4, and a micro oxygen bottle 5 is installed on the fixing frame 6. In transit, will transport the patient and fix the pipeline of installing at the bedside, tie up the sphygmomanometer sleeve area, connect heart rate tester and oxyhemoglobin saturation measuring apparatu, then connect simple and easy breathing machine 1 and miniature oxygen cylinder 5, utilize simple and easy breathing machine 1 help first aid patient cardiopulmonary resuscitation, can monitor patient's blood pressure simultaneously, heart rate and oxyhemoglobin saturation, and show on the screen, can be in transit real-time supervision vital sign help clinician makes accurate judgement to the state of an illness at any time, in time adjust the oxygen ventilation volume and the frequency of ventilating of breathing machine, can in time detect the best treatment opportunity of the state of an illness in order to avoid delaying the treatment. And because the breathing machine is the simple and easy breathing machine 1 of manual, do not need to insert the electricity, do not need parameter proofreading, do not need professional training and professional to maintain and maintain, and this method is safe, simple, convenient, can also real-time monitoring patient's physical sign.

As shown in fig. 2 and fig. 3, a second embodiment of the simple transshipment respirator apparatus with a monitoring interface according to the present invention is different from the first embodiment in that the simple transshipment respirator 1 includes an air bag mechanism and a mask 101, an air inlet 102 and an air outlet 103 are disposed at two ends of the air bag mechanism, the air inlet 102 is communicated with the air outlet 103, the mask 101 is communicated with the air outlet 103, the micro oxygen cylinder 5 is communicated with the air inlet 102, one-way valves are disposed at the air inlet 102 and the air outlet 103, and an air outlet 111 is disposed on a connecting channel between the air outlet 103 and the mask 101. The air bag mechanism further comprises a transparent plastic shell 104 and a flexible air bag 105, wherein the transparent plastic shell 104 is arranged outside the flexible air bag 105 and used for protecting the flexible air bag 105, openings at two ends of the transparent plastic shell 104 are connected with the air inlet 102 and the air outlet 103, and two ends of the flexible air bag 105 are communicated with the air inlet 102 and the air outlet 103. In addition, simple and easy breathing machine 1 still includes lever mechanism, lever mechanism is used for extrudeing flexible gasbag 105, lever mechanism includes manual lever 110, movable rod 109 and clamp plate 107, clamp plate 107 sets up transparent plastic shell 104 with inside the intermediate layer of flexible gasbag 105, the one end of movable rod 109 is passed through the through-hole 108 with the clamp plate 107 links to each other, and the other end links to each other with manual lever 110, the inside spring 106 that is equipped with of flexible gasbag 105.

Specifically, press manual lever 110 when helping patient to do the supplementary inspiration, movable rod 109 moves at through-hole 108 downwards under the prizing of manual lever 110 to drive clamp plate 107 and do the downstream extrusion flexible gasbag 105, because air inlet 102 is the check valve, oxygen only can not advance, therefore the inside oxygen of flexible gasbag 105 can get into face guard 101 and then provide oxygen for patient by gas outlet 103, gaseous from gas vent 111 discharge when patient exhales, because gas outlet 103 is that the check valve gas only can not advance, therefore the gas of patient's exhalation can not get into inside the gasbag. The lever principle may make the process of compression of the flexible bladder 105 more labor-saving and may ensure uniform oxygen ventilation. When the lever is released, the pressure plate 107 moves upwards, the flexible air bag 105 sucks oxygen back from the air inlet 102 to restore and is filled with oxygen again, the spring 106 arranged inside the flexible air bag 105 can help the air bag to restore and keep the original shape, the transparent plastic shell 104 outside the flexible air bag 105 can also protect the flexible air bag 105 from being collided and damaged, and the spring 106 and the transparent plastic shell 104 can prolong the service life of the flexible air bag 105.

The working principle is as follows:

in use, the mask 101 is fastened to the nose and mouth of a patient, the patient is helped to inhale by pressing the manual lever 110, the movable rod 109 moves up and down in the through hole 108 under the prying action of the manual lever 110, thereby driving the pressure plate 107 to move downwards to squeeze the flexible air bag 105, so that oxygen in the flexible air bag 105 enters the mask 101 through the air outlet 103 to provide oxygen for the patient, and after one inhalation, the patient breathes spontaneously, the gas exhaled by the patient is exhausted from the exhaust port 111, and at the same time, the lever is released, the pressing plate 107 moves the flexible air bag 105 upwards to recover, since the negative pressure oxygen inside the flexible air bag 105 is re-filled in from the air inlet 102, thereby helping the cardio-pulmonary resuscitation of the patient, simultaneously displaying the signals of the blood pressure, the heart rate and the blood oxygen saturation of the patient on the display screen 3 through the signal terminal, the patient's condition can be monitored in real time, and the ventilation volume and frequency of the simple respirator 1 can be adjusted according to the monitoring condition. It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the utility model 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.

Claims (10)

1. The utility model provides a simple and easy transportation breathing machine device with monitor interface, includes guardianship device body (2), its characterized in that: still including installing simple and easy breathing machine (1) on guardianship device body (2), the guardianship device includes display screen (3) and control box (4), be equipped with a plurality of signal ends on control box (4), the signal end is connected with test instrument, display screen (3) with the test instrument electricity is connected, display screen (3) are used for showing the signal that is sent by test instrument.

2. The easy transport ventilator device with monitoring interface of claim 1, wherein: the control box (4) is further provided with a fixing frame (6), a miniature oxygen bottle (5) is fixed on the fixing frame (6), and the miniature oxygen bottle (5) is communicated with the simple breathing machine (1).

3. The easy transport ventilator device with monitoring interface of claim 2, wherein: simple and easy breathing machine (1) is including gasbag mechanism and face guard (101), the both ends of gasbag mechanism are equipped with air inlet (102) and gas outlet (103), just air inlet (102) and gas outlet (103) communicate with each other, face guard (101) with gas outlet (103) are linked together, miniature oxygen cylinder (5) are linked together with air inlet (102).

4. The easy transport ventilator device with monitoring interface of claim 3, wherein: the air bag mechanism comprises a transparent plastic shell (104) and a flexible air bag (105), wherein the transparent plastic shell (104) is arranged outside the flexible air bag (105) and used for protecting the flexible air bag (105), openings at two ends of the transparent plastic shell (104) are connected with the air inlet (102) and the air outlet (103), and two ends of the flexible air bag (105) are communicated with the air inlet (102) and the air outlet (103).

5. The easy transport ventilator device with monitoring interface of claim 4, wherein: the simple respirator (1) further comprises a lever mechanism, and the lever mechanism is used for extruding the flexible air bag (105).

6. The easy transport ventilator device with monitoring interface of claim 5, wherein: the lever mechanism comprises a pressure plate (107), and the pressure plate (107) is arranged in the interlayer of the transparent plastic shell (104) and the flexible air bag (105).

7. The easy transport ventilator device with monitoring interface of claim 6, wherein: the lever mechanism further comprises a manual lever (110) and a movable rod (109), a through hole (108) is further formed in the air bag mechanism, one end of the movable rod (109) penetrates through the through hole (108) to be connected with the pressing plate (107), and the other end of the movable rod is connected with the manual lever (110).

8. The easy transport ventilator device with monitoring interface of claim 7, wherein: and a spring (106) is arranged inside the flexible air bag (105).

9. The easy transport ventilator device with monitoring interface of claim 8, wherein: and a first signal end (401), a second signal end (402) and a third signal end (403) are arranged on the control box (4) and are respectively used for connecting a sphygmomanometer, a heart rate tester and a blood oxygen saturation measuring instrument.

10. The easy transport ventilator device with monitoring interface of claim 3, wherein: one-way valves are arranged at the air inlet (102) and the air outlet (103), and an air outlet (111) is arranged on a connecting channel between the air outlet (103) and the mask (101).

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