CN219271547U - First-aid equipment - Google Patents

Abstract

The utility model discloses first-aid equipment, and relates to the technical field of medical appliances. The method specifically comprises the following steps: the inflatable pillow is used for supporting the neck of the patient so as to open the airway of the patient; the breathing assembly is connected with the inflatable pillow and is used for supplying oxygen to a patient after the airway of the patient is opened; and the prompting component is connected with the inflatable pillow and is used for prompting a user to operate steps and/or cardiac resuscitation operation positions. Aims at improving the quality of cardiopulmonary resuscitation of non-professional people.

Description

First-aid equipment

Technical Field

The utility model relates to the technical field of medical equipment, in particular to first-aid equipment.

Background

The cardiopulmonary resuscitation device is a stock device of a hospital, is used for supplying oxygen to patients with respiratory disorder, increases the blood flow of the heart and the brain of the patients with sudden cardiac arrest in emergency treatment, and plays a role in bridge connection for subsequent defibrillation, intravenous medication, vascular reconstruction and the like. However, the prior cardiopulmonary resuscitation device has the problems of single function, poor rescue effect, inconvenient use and the like.

In order to solve the technical problems, chinese patent CN 208160812U discloses a multifunctional emergency respirator in 2018, 11 and 30 days, comprising an oxygen supply valve, an oxygen supply pipe, an oxygen supply connector, a gas exchange bottle, a gas exchange pipe, a pressure gauge, an artificial respirator structure, an oral cavity intubation structure, a protective pillow structure, a hanging rope, a mask sealing gasket, a mask main body, a vent pipe, an artificial exhalation valve, an artificial exhalation sealing ring and a connecting hose. Through the setting of artificial respirator structure, medical staff conveniently breathes the patient by hand when emergency, does not influence respirator and oxygen cylinder for emergency at the same time and cooperates the use.

Through setting up the protection pillow and cooperation use respirator, it is nevertheless convenient to open patient's air flue, prevents that the patient from suffering the injury in the en route of sending to the hospital head, has improved the protection effect of respirator for emergency call to the patient. However, most people are non-professional, and on the premise of no system guidance, high-quality cardiopulmonary resuscitation is difficult to realize, so that how to improve the quality of non-professional cardiopulmonary resuscitation becomes a technical problem to be solved urgently.

Disclosure of Invention

The utility model mainly aims at providing first-aid equipment which aims at improving the quality of cardiopulmonary resuscitation of non-professional people.

In order to achieve the above object, the present utility model proposes an emergency device comprising:

the inflatable pillow is used for supporting the neck of the patient so as to open the airway of the patient;

the breathing assembly is connected with the inflatable pillow and is used for supplying oxygen to a patient after the airway of the patient is opened; and

the prompting component is connected with the inflatable pillow and used for prompting a user to operate steps and/or cardiac resuscitation operation positions.

In one embodiment of the present application, the prompting component includes:

the storage bin is connected with the inflatable pillow;

the support rod is arranged in the storage bin and can extend out of the storage bin;

the first image acquisition piece is arranged on the support rod and acquires human body contour information when the support rod extends out; and

the projection module is arranged on the support rod and can project the heart pressing position of the patient according to the human body contour information.

In an embodiment of the present application, the prompting component further includes:

the voice prompt module is used for prompting the user to operate steps.

In an embodiment of the present application, the prompting component further includes: and the second image acquisition piece is used for detecting the pressing depth of the user.

In an embodiment of the present application, the prompting component further comprises a vital sign detection sensor for detecting vital signs of the patient.

In an embodiment of the present application, the prompting component further includes:

and the display module is used for displaying the current operation steps of the user and/or the equipment state information.

In an embodiment of the present application, the respiratory assembly comprises:

a respiratory mask that covers the face of the patient;

a gas supply line connected to the respiratory mask for supplying oxygen to the respiratory mask; and

and the driving piece is connected with the air supply pipeline and is used for pumping oxygen in the air supply pipeline out of the breathing mask.

In an embodiment of the present application, the support bar includes:

one end of the supporting vertical rod is connected with the storage bin; and

and one end of the supporting cross rod is connected with one end of the supporting vertical rod, which is far away from the storage bin, and the first image acquisition part and the projection module are both arranged on the supporting cross rod.

In an embodiment of the present application, a start button is further disposed on the storage bin.

In an embodiment of the present application, an air inflation motor for inflating the air inflation pillow is arranged on the air inflation pillow.

By adopting the technical scheme, the prompting component is arranged on one side of the inflatable pillow and the breathing component, the specific operation steps of a user and/or the pressing position of heart resuscitation are prompted by the prompting component, the user can press the heart of the patient when the airway of the patient is opened and the patient breathes involuntarily, the blood oxygen supply of the patient is improved, the organ failure is avoided, the cardiopulmonary resuscitation quality of non-professional staff is improved, and the device is simple in structure and convenient to implement.

Drawings

The utility model will now be described in detail with reference to specific embodiments and accompanying drawings, in which:

fig. 1 is a schematic structural view of a first embodiment of the present utility model.

Detailed Description

In order to make the objects, technical solutions and advantages of the present utility model more apparent, the present utility model will be described in detail with reference to the accompanying drawings and examples. It should be understood that the following specific examples are given by way of illustration only and are not intended to be limiting.

As shown in fig. 1, in order to achieve the above object, the present utility model proposes an emergency device comprising:

an inflatable pillow 20 for supporting the neck of the patient to open the airway of the patient;

a breathing assembly 10 connected to the inflatable pillow 20 for providing oxygen to the patient after the patient's airway is opened; and

a prompting component 30, which is connected with the inflatable pillow 20 and is used for prompting the user to operate steps and/or cardiac resuscitation operation positions.

In particular, an emergency device includes an inflatable pillow 20, a respiratory assembly 10, and a prompting assembly 30.

The inflatable pillow 20 is a conventional inflatable pillow 20 in the prior art, and comprises a pillow body, wherein the pillow body is made of PVC fabric and is internally provided with soft and high-elasticity sponge. So that the pillow body can meet the condition of inflation and deflation. The convenience of the inflatable pillow 20 is improved, the inflatable pillow 20 can be connected with an inflatable motor to inflate the inflatable pillow 20, manual operation is not needed, the inflation efficiency is improved, and the inflatable pillow is convenient for a user to use. Of course, according to the design requirement, the inflatable pillow 20 can also be inflated by adopting a manual driving inflator, and the inflatable pillow 20 can be made to get rid of the rigid requirement on electric inflation by adopting the manual driving inflator to inflate, so that the use scene of the inflatable pillow 20 is widened, and meanwhile, the situation that the inflatable pillow cannot be inflated due to no power supply can be avoided. The inflatable pillow 20 is preferably inflated using a motor in the present application.

The breathing assembly 10 is connected with the inflatable pillow 20 in a fixed connection mode, such as integrated forming or high-frequency welding, and the breathing assembly 10 is connected with the inflatable pillow 20 in a fixed connection mode, so that the connection strength between the breathing assembly 10 and the inflatable pillow 20 can be improved, and the stability of the breathing assembly 10 during operation is ensured. Of course, the breathing assembly 10 and the inflatable pillow 20 may be detachably connected, such as by a screw connection, a clamping connection, etc., according to design requirements. The breathing assembly 10 is detachably connected with the inflatable pillow 20, so that the breathing assembly 10 can be conveniently installed and detached, and the later maintenance of the breathing assembly 10 is convenient.

The respiratory assembly 10 is primarily used to provide oxygen to a patient. The operation flow between the inflatable pillow 20 and the respiratory component 10 is as follows: the uninflated inflatable pillow 20 is placed under the neck of a patient, then the inflatable pillow 20 is inflated, after the inflatable pillow 20 is inflated, the neck of the patient can be supported by the inflatable pillow 20 at the moment, the opening of the airway of the patient is realized, and the breathing assembly 10 is started at the moment to provide oxygen for the patient.

The connection between the prompting assembly 30 and the inflatable pillow 20 is the same as the connection between the inflatable pillow 20 and the breathing assembly 10, and has the same advantages, and will not be described in detail herein.

The prompting assembly 30 is used to prompt the user for specific operational steps and/or the location of cardiac resuscitation compressions. The prompting mode can be voice prompting, picture prompting and the like.

By adopting the technical scheme, the prompting component 30 is arranged on one side of the inflatable pillow 20 and the breathing component 10, the specific operation steps of a user and/or the pressing position of heart resuscitation are prompted by the prompting component 30, the user can press the heart of the patient when the airway of the patient is opened and the patient does not breathe spontaneously, the blood oxygen supply of the patient is improved, the organ failure is avoided, the quality of non-professional cardiopulmonary resuscitation is improved, the structure is simple, and the implementation is convenient.

In one embodiment of the present application, the prompting component 30 includes:

a storage bin connected to the inflatable pillow 20;

the support rod is arranged in the storage bin and can extend out of the storage bin;

the first image acquisition piece 50 is arranged on the support rod and acquires human body contour information when the support rod extends out; and

the projection module 60 is disposed on the support rod and can project the heart pressing position of the patient according to the human contour information.

Specifically, the reminder assembly 30 includes: the storage compartment, the support rod, the first image capturing element 50, and the projection module 60.

The storage bin is made of metal materials, such as aluminum alloy materials, alloy steel materials and the like. The storage bin made of the metal material has the advantages of strong supporting capacity, wear resistance and the like. Of course, according to the design requirement, the storage bin can also be made of plastic materials, and the storage bin made of plastic materials has the advantages of light weight, low cost, easiness in manufacturing and the like. The storage bin is cube, and each part of suggestion subassembly 30 is all installed inside the storage bin to guarantee the security of each part of suggestion subassembly 30.

The bracing piece sets up inside the storage bin, and it can stretch out the storage bin.

The connection mode between the support rod and the storage bin comprises the following two modes:

be provided with on the storage bin and accomodate the groove, the bracing piece sets up in accomodating the inslot, and the one end of bracing piece rotates to be connected on accomodating the one end of groove, and the bracing piece can rotate along its own junction with accomodating the groove to realize stretching out the action of storage bin.

The bracing piece can also be the telescopic link, and the telescopic link sets up inside the storage bin completely, and the telescopic link can stretch out the storage bin when starting.

The first image capturing element 50 is an image capturing element commonly used in the art, such as a laser radar, an ultrasonic radar, a depth camera, an infrared camera, a millimeter wave radar, or the like. The image acquisition piece is installed on the bracing piece, and when the bracing piece stretches out the storage bin, the bracing piece can gather human profile information.

The projection module 60 can adopt the laser projector commonly used in the prior art, the projection module 60 is installed on the support rod, after the human body contour information acquisition is completed by the first image acquisition piece 50, the projection module can project the position of the heart of the patient to be pressed according to the human body contour information acquired by the first image acquisition piece 50, and the user can press the heart of the patient conveniently.

By adopting the technical scheme, the miniaturization of the prompt component 30 can be realized by extending or retracting the supporting rod in the storage cabin, and the movement of the prompt component 30 is facilitated. The first image acquisition member 50 and the projection module 60 are arranged on the support rod to realize the operation guidance of a user, so that the quality of cardiopulmonary resuscitation of non-professional staff is improved, and the device is simple in structure and convenient to implement.

In an embodiment of the present application, the prompting component 30 further includes:

the voice prompt module is used for prompting the user to operate steps.

Specifically, the voice prompt module adopts a voice output module commonly used in the prior art, such as a loudspeaker. The voice prompt module prompts the user to perform specific operation steps without the need of the user to watch the display unit, so that the convenience of the user in use is further improved.

In an embodiment of the present application, the prompting component 30 further includes: and the second image acquisition piece is used for detecting the pressing depth of the user.

Specifically, the prompting component 30 further includes a second image capturing element for detecting a pressing depth of the user, where the second image capturing element may be a laser radar, an ultrasound, a depth camera, an infrared camera, a millimeter wave radar, or the like. By arranging the second image acquisition piece, the pressing depth of the user is detected, and the situation that the rib of the chest of the patient breaks due to excessive pressing of the user is avoided. Ensuring that the user can not cause secondary injury to the patient in the heart recovery process. Simple structure and convenient implementation.

In one embodiment of the present application, the prompting assembly 30 further includes a vital sign detection sensor for detecting vital signs of the patient.

Specifically, the vital sign detection sensor adopts millimeter wave radar commonly used in the prior art, and the vital sign detection sensor detects the vital sign of the patient, so that a user can master what critical state the patient is currently in, and can carry out first aid on the patient in a corresponding mode. Simple structure and convenient implementation.

In an embodiment of the present application, the prompting component 30 further includes:

and the display module is used for displaying the current operation steps of the user and/or the equipment state information.

Specifically, the prompting component 30 further comprises a display module for displaying the current operation steps and/or equipment state information of the user, and the display module is convenient for the user to know whether the current operation steps or the operation methods are correct or not, so that the quality of cardiopulmonary resuscitation of non-professional personnel is further improved.

In one embodiment of the present application, the respiratory assembly 10 includes:

a respiratory mask that covers the face of the patient;

a gas supply line connected to the respiratory mask for supplying oxygen to the respiratory mask; and

and the driving piece is connected with the air supply pipeline and is used for pumping oxygen in the air supply pipeline out of the breathing mask.

Specifically, the respiratory assembly 10 includes a respiratory mask that may be placed on the face of a patient, and an air supply line having one end connected to the respiratory mask and the other end connected to a driving member that employs an air pump or blower commonly used in the prior art that may deliver oxygen into the air supply line to effect oxygen delivery to the patient. Simple structure and convenient implementation.

In an embodiment of the present application, the support bar includes:

a support vertical rod 41, one end of which is connected to the storage bin; and

and one end of the supporting cross rod 42 is connected with one end of the supporting vertical rod 41 far away from the storage bin.

Specifically, the support bar includes a support vertical bar 41 and a support horizontal bar 42. The storage bin is connected to support montant 41 one end, and the horizontal pole is connected and is kept away from the one end of storage bin on supporting the trunk, and wherein support horizontal pole 42 and support montant 41 mutually perpendicular, support horizontal pole 42 is all located to first image acquisition piece 50 and projection module 60, can conveniently set up the information acquisition of first image acquisition piece 50 and projection module 60 to patient's physical sign on support horizontal pole 42.

In an embodiment of the present application, a start button is further disposed on the storage bin.

In an embodiment of the present application, an air inflation motor for inflating the air inflation pillow 20 is provided on the air inflation pillow 20.

The foregoing description is only of the preferred embodiments of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structural changes made by the description of the present utility model and the accompanying drawings or direct/indirect application in other related technical fields are included in the scope of the utility model.

Claims (10)

1. An emergency device, comprising:

the inflatable pillow is used for supporting the neck of the patient so as to open the airway of the patient;

the breathing assembly is connected with the inflatable pillow and is used for supplying oxygen to a patient after the airway of the patient is opened; and

the prompting component is connected with the inflatable pillow and used for prompting a user to operate steps and/or cardiac resuscitation operation positions.

2. The emergency apparatus of claim 1, wherein the prompting component comprises:

the storage bin is connected with the inflatable pillow;

the support rod is arranged in the storage bin and can extend out of the storage bin;

the first image acquisition piece is arranged on the support rod and acquires human body contour information when the support rod extends out; and

the projection module is arranged on the support rod and can project the heart pressing position of the patient according to the human body contour information.

3. The emergency apparatus of claim 2, wherein the prompting assembly further comprises:

the voice prompt module is used for prompting the user to operate steps.

4. The emergency apparatus of claim 2, wherein the prompting assembly further comprises: and the second image acquisition piece is used for detecting the pressing depth of the user.

5. The emergency device of claim 2, wherein the prompting assembly further comprises a vital sign detection sensor for detecting a vital sign of the patient.

6. The emergency apparatus of claim 2, wherein the prompting assembly further comprises:

and the display module is used for displaying the current operation steps of the user and/or the equipment state information.

7. The emergency apparatus of claim 1, wherein the respiratory assembly comprises:

a respiratory mask that covers the face of the patient;

a gas supply line connected to the respiratory mask for supplying oxygen to the respiratory mask; and

and the driving piece is connected with the air supply pipeline and is used for pumping oxygen in the air supply pipeline out of the breathing mask.

8. The emergency apparatus of claim 2, wherein the support bar comprises:

one end of the supporting vertical rod is connected with the storage bin; and

and one end of the supporting cross rod is connected with one end of the supporting vertical rod, which is far away from the storage bin, and the first image acquisition part and the projection module are both arranged on the supporting cross rod.

9. The emergency equipment of claim 2, wherein the storage compartment is further provided with a start button.

10. The emergency equipment according to claim 1, wherein an inflation motor for inflating the inflatable pillow is arranged on the inflatable pillow.

Images