CN205411866U - Rescuing breathing apparatus - Google Patents

Abstract

The embodiment of the utility model discloses a respiratory device for rescue, which includes an oxygen supply device, a mask and a monitoring device for automatically monitoring carotid pulse. The oxygen supply device includes an air intake pump and a control system for adjusting the intake frequency; the mask is fixed On the patient's face, covering the patient's mouth and nasal cavity; during rescue, turn on the oxygen supply device, and the air intake pump will automatically blow up the patient through the air outlet catheter; at the same time, fix the resistance strain gauge on the patient's carotid artery, and the medical staff can The chest compression operation is performed independently on the patient, and the carotid pulse information monitored by the pressure sensor body is transmitted to the control system. The control system compares the carotid pulse information with the preset value, and adjusts the air delivery of the intake pump according to the comparison result. Frequency; one person can quickly perform chest compression and artificial respiration at the same time, without the need for medical staff and patients to perform artificial respiration, which shortens the rescue time and improves the rescue efficiency.

Description

breathing apparatus for rescue

technical field

The utility model relates to the field of medical equipment, in particular to a respiratory device for rescue.

Background technique

When rescuing heart patients in medical clinics, establishing timely and effective artificial respiration is the key to cardiopulmonary resuscitation. During the emergency rescue process, the related artificial respiration device has a relatively single function, and two people are required to assist in the operation of external chest heart compression and artificial respiration at the same time, and one person cannot operate independently at the same time, resulting in prolonged rescue time.

Utility model content

The purpose of this utility model is to provide a breathing device for rescue to solve the above problems.

In order to solve the above-mentioned technical problems, the technical solution adopted by the embodiment of the utility model is, a breathing device for rescue, including an oxygen supply device, a mask and a monitoring device for automatically monitoring carotid pulse, the oxygen supply device includes an air intake pump and a regulator The control system of air intake frequency; the air intake pump is connected with the control system; the outlet of the air intake pump is connected with the mask through the air outlet conduit, and the inner surface and edge of the mask are provided with a sterilized non-woven fabric layer; the The monitoring device includes a pressure sensor main body and a resistance strain gauge with an adhesive sheet, and the resistance strain gauge is connected to the pressure sensor main body; the carotid pulse information monitored by the pressure sensor main body is transmitted to the control system.

Preferably, the oxygen supply device includes a storage battery, a casing, a hollow top cover and a base, the top cover and the base are detachably connected to the casing; the air intake pump is connected to the storage battery, so The air intake pump, storage battery and control system are all located in the housing.

As a preference, an activated carbon bag is provided inside the top cover, the upper surface of the top cover is a hollowed out surface, and the lower surface is provided with an opening for fixing the air intake duct, one end of the air intake duct is located in the top cover, and the other end is connected to the intake air duct. The inlet of the air pump is connected; the base is provided with an activated carbon bag, and the upper surface and the side surface of the base are respectively provided with openings for fixing the air outlet duct.

Preferably, the air outlet conduit is divided into a first section of the air outlet conduit and a second section of the air outlet conduit, one end of the first section of the air outlet conduit is connected to the outlet of the intake pump, and the other end is located in the base; one end of the second section of the air outlet conduit Located in the base, the other end is connected with the mask.

Preferably, the main body of the pressure sensor is also provided with a display screen showing the number of heart compressions and an indicator light indicating whether the rescue is effective.

Preferably, a power switch for opening and closing the oxygen supply device is provided on the outer surface of the housing.

Preferably, the two sides of the mask are provided with elastic cords for fixing the mask.

Preferably, the main body of the pressure sensor is fixed on the fixed foot.

Compared with the related technology, the beneficial effect of the embodiment of the utility model is that a breathing device for rescue provided by the embodiment of the utility model includes an oxygen supply device, a face mask and a monitoring device for automatically monitoring the carotid pulse. The device includes an air intake pump and a control system to adjust the intake air frequency; the mask is fixed on the patient's face to cover the patient's mouth and nasal cavity; when performing rescue, the oxygen supply device is turned on, the air intake pump inhales, and the patient is automatically healed through the air outlet catheter. Blow up operation; at the same time, the resistance strain gauge is fixed on the carotid artery of the patient, and the medical staff can perform chest compression operation on the patient alone, and the carotid artery pulse information monitored by the main body of the pressure sensor is transmitted to the control system. The carotid pulse information is compared with the preset value, and the air delivery frequency of the intake pump is adjusted according to the comparison result; one person can quickly perform chest compression and artificial respiration at the same time, without the need for artificial respiration between the medical staff and the patient, shortening the The rescue time improves the rescue efficiency; the sterilized non-woven fabric layer is set on the mask, which can not only purify the air entering the patient, but also absorb and purify the gas exhaled by the patient, avoiding cross infection.

Description of drawings

In order to more clearly illustrate the specific implementation of the utility model or the technical solutions in the prior art, the accompanying drawings that need to be used in the description of the specific implementation or the prior art will be briefly introduced below. Obviously, the following descriptions The accompanying drawings are some implementations of the utility model, and those skilled in the art can also obtain other drawings according to these drawings without any creative work.

Fig. 1 is a structural schematic diagram of an embodiment of the utility model.

Fig. 2 is a schematic diagram of a monitoring device according to an embodiment of the present invention.

Among them: oxygen supply device 1, intake pump 11, battery 12, control system 13, air outlet duct 14, housing 15, top cover 16, base 17, intake duct 18, opening 19, power switch 20, mask 2, none Woven cloth layer 21, elastic fixed soft rope 22, monitoring device 3, pressure sensor main body 31, adhesive sheet 32, resistance strain gauge 33, display screen 34, indicator light 35, fixed tripod 4.

detailed description

The technical solutions of the utility model will be clearly and completely described below in conjunction with the accompanying drawings. Apparently, the described embodiments are part of the embodiments of the utility model, but not all of them. Based on the embodiments of the present utility model, all other embodiments obtained by persons of ordinary skill in the art without making creative efforts belong to the scope of protection of the present utility model.

When rescuing heart patients in medical clinics, establishing timely and effective artificial respiration is the key to cardiopulmonary resuscitation. In the emergency rescue process, what is needed is to race against time. The related artificial respiration device has a single function. Two people are needed to assist in the operation of external chest heart compression and artificial respiration at the same time. One person cannot operate independently at the same time. Delay the rescue time.

The utility model will be described in further detail below through specific embodiments in conjunction with the accompanying drawings.

A kind of breathing apparatus for rescue, with reference to accompanying drawing 1 and accompanying drawing 2, comprise oxygen supply device 1, face shield 2 and the monitoring device 3 of automatic monitoring carotid pulse, described oxygen supply device 1 comprises intake pump 11 and adjusts intake frequency The control system 13; the air intake pump 11 is connected with the control system 13; the outlet of the air intake pump 11 is connected with the mask 2 through the air outlet conduit 14, and the inner surface and the edge of the mask 2 are provided with sterilized nonwoven cloth layer 21; the monitoring device 3 includes a pressure sensor main body 31, a strain gauge 33 with an adhesive sheet 32, and the strain gauge 33 is connected to the pressure sensor main body 31; the pressure sensor main body 31 monitors The carotid pulse information is transmitted to the control system 13.

When performing rescue, the mask 2 is fixed on the patient's face to cover the patient's oral cavity and nasal cavity; the air intake pump 11 is turned on to automatically deliver air to the patient, and at the same time, the resistance strain gauge 33 is fixed on the patient's carotid artery, so that the medical staff can treat the patient alone. The patient performs a chest compression operation; the carotid pulse information monitored by the pressure sensor main body 31 is transmitted to the control system 13, and the control system 13 compares the monitored carotid pulse information with a preset value, and adjusts according to the comparison result. The air delivery frequency of the air intake pump 11; in the air delivery gap of the air intake pump 11, when the carotid pulse information monitored by the control system 13 is greater than the preset value, reduce the air delivery frequency of the air intake pump 11; when the control system 13 When the monitored carotid pulse information is less than the preset value, increase the air delivery frequency of the air intake pump 11, and set the preset value in the control system according to the conventional pulse beat frequency to 70-90 beats/min; Performing chest compression and breathing operations does not require artificial respiration between the medical personnel themselves and the patient, which shortens the rescue time and improves the rescue efficiency; a sterilized non-woven fabric layer 21 is set on the mask 2, which can not only protect the patient's air Purification can also absorb and purify the gas exhaled by the patient, avoiding cross-infection; and the non-woven fabric layer 21 improves the softness of the mask 2, which can avoid discomfort or damage to the patient's face. The rescue breathing device has a simple structure, is easy to carry, and can also be used for outdoor first aid.

Further, the oxygen supply device 1 includes a battery 12, a casing 15, a hollow top cover 16 and a base 17, and the top cover 16 and the base 17 are detachably connected to the casing 15; The air pump 11 is connected to the battery 12 ; the intake pump 11 , battery 12 and control system 13 are all located in the housing 15 . The detachable connection is convenient for regular cleaning, maintenance or maintenance of the oxygen supply device 1, which can effectively ensure the cleanliness of the oxygen supply device 1; and when one of the components fails, only one of the components can be repaired or replaced. Cost savings.

Further, the top cover 16 and the base 17 are respectively equipped with activated carbon packs, the upper surface of the top cover 16 is a hollow surface, and the lower surface is provided with an opening 19 for fixing the air intake duct 18, and the air intake duct 18 One end is located in the top cover 16, and the other end is connected with the inlet of the intake pump 11; the upper surface and the side surface of the base 17 are respectively provided with openings 19 for fixing the air outlet conduit 14; the top cover 16 and the base 17 can be Disassemble and replace the activated carbon bag regularly. The activated carbon bag can filter the air to prevent dust particles and germs from entering the patient's body and ensure the safety of the patient.

Further, the air outlet duct 14 is divided into a first section air outlet duct and a second section air outlet duct, one end of the first section air outlet duct is connected to the outlet of the intake pump 11, and the other end is located in the base 17; the second section air outlet One end of the conduit is located in the base 17 , and the other end is connected to the mask 2 . Further purify the air input into the patient's body to avoid air dust and other aggravation of the patient's condition.

Further, the pressure sensor main body 31 is also provided with a display screen 34 for displaying the number of cardiac compressions and an indicator light 35 for indicating whether the rescue is effective. The medical staff can adjust the frequency of compressions according to the number of compressions displayed on the display screen 34; during chest compressions, when the arterial blood passes through the position of the resistance strain gauge 33, the indicator light 35 is on, and the display screen 34 presents the number of compressions of the heart. When the oxygen device 1 is performing the blowing operation, the indicator light 35 is off. If the oxygen supply device 1 is performing the blowing operation, the indicator light 35 still flashes in an orderly manner, and the number of heart pumps appears on the display screen 34, indicating that the external heart The pressing operation is effective, and the medical staff can carry out the next rescue treatment, which can effectively save rescue time and reduce work intensity.

Further, the outer surface of the casing 15 is provided with a power switch 20 for opening and closing the oxygen supply device 1 .

Further, elastic fixed cords 22 for fixing the mask 2 are provided on both sides of the mask 2 . Some patients should not move their heads before rescue, so as to avoid aggravating the patient's condition, and even causing the patient's life to be in danger; The insufflation operation was completed smoothly without moving the patient's head.

Further, the pressure sensor main body 31 is fixed on the fixed foot 4 . The fixed leg 4 can be connected with the second section of the air outlet catheter, and can also be fixed separately. When in use, the fixed leg 4 is placed on the shoulder of the patient, and the resistance strain gauge 33 is fixed on the carotid artery of the patient. That is, it does not need to be manually fixed all the time, which reduces the labor intensity, avoids the situation of manually moving the fixed tripod 4 carelessly, and ensures the smooth progress of the rescue process.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solutions of the present utility model, and are not intended to limit it; although the utility model has been described in detail with reference to the foregoing embodiments, those of ordinary skill in the art should understand that: It is still possible to modify the technical solutions described in the foregoing embodiments, or perform equivalent replacements for some or all of the technical features; and these modifications or replacements do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present utility model. .

Claims (8)

1. a rescue breathing equipment, is characterized in that:

Including apparatus of oxygen supply, face shield and the monitoring device automatically monitoring carotid pulsation；

Described apparatus of oxygen supply includes air intake pump and the control system of regulation Blow-Up Ratio；

Described air intake pump is connected with described control system, and described air inlet delivery side of pump is connected with face shield by outtake tube；

The inner surface of described face shield and edge are equipped with sterilized nonwoven layer；

Described monitoring device includes pressure sensor body, with pasting the resistance strain gage of sheet, described resistance strain gage is connected with described pressure sensor body, and the carotid pulsation information transmission that described pressure sensor body monitors is to described control system.

A kind of rescue breathing equipment the most according to claim 1, is characterized in that:

Described apparatus of oxygen supply includes battery, housing, the top cover of hollow and the base of hollow, described top cover and base is detachable with described housing is connected；

Described air intake pump is connected with described battery；

Described air intake pump, battery and control system are respectively positioned in described housing

A kind of rescue breathing equipment the most according to claim 2, is characterized in that:

Activated carbon bag it is provided with respectively in described top cover and base；

The upper surface of described top cover is hollow out surface, and lower surface is provided with the perforate of fixing air induction conduit, and one end of described air induction conduit is positioned at top cover, and the other end is connected with the entrance of air intake pump；

Described base upper surface and side surface are provided with the perforate of fixing outtake tube respectively；

Described top cover and base are the most removable.

A kind of rescue breathing equipment the most according to claim 1, is characterized in that:

Described outtake tube is divided into first paragraph outtake tube and second segment outtake tube；

One end of first paragraph outtake tube is connected with air inlet delivery side of pump, and the other end is positioned at described base；

One end of second segment outtake tube is positioned at base, and the other end is connected with described face shield.

A kind of rescue breathing equipment the most according to claim 1, is characterized in that:

The most effective indicator lamp is rescued in the display screen and the instruction that are additionally provided with display cardiac compression number of times on described pressure sensor body.

A kind of rescue breathing equipment the most according to claim 2, is characterized in that:

The outer surface of described housing is provided with the switch of opening and closing apparatus of oxygen supply.

A kind of rescue breathing equipment the most according to claim 1, is characterized in that:

The both sides of described face shield are provided with the flexible fastening tightrope of fixing face shield.

A kind of rescue breathing equipment the most according to claim 1, is characterized in that:

Described pressure sensor body is installed on fixing foot rest.