CN211486120U - Oxygen inhaler with oxygen flow real-time monitoring device - Google Patents

Abstract

The utility model discloses an oxygen inhalator with an oxygen flow real-time monitoring device, which comprises a humidifying bottle, a base, a humidifying pipe, an air inlet pipe, an air outlet pipe, a flow pipe and a flow adjusting knob; an outer liner is sleeved outside the humidification bottle, the top of the outer liner is connected with the humidification bottle into a whole, and a vacuum cavity is enclosed between the inner wall of the outer liner and the outer wall of the humidification bottle; the oxygen inhalator with the real-time oxygen flow monitoring device also comprises an oxygen flow monitoring device for monitoring the oxygen flow in real time. The utility model discloses outside the cover of humidifying bottle has outer courage, encloses into a vacuum cavity between the inner wall of outer courage and the outer wall of humidifying bottle, produced noise when the vacuum cavity can reduce humidifying oxygen greatly, can send alarm signal when oxygen flow surpasss or is less than the upper limit value or the lower limit value of the oxygen suppliment scope that medical personnel set for simultaneously, can make medical personnel in time handle, has ensured the security performance of oxygen suppliment, has improved clinical care quality.

Description

Oxygen inhaler with oxygen flow real-time monitoring device

Technical Field

The utility model relates to an oxygen flow monitoring devices technical field, in particular to oxygen inhalator with oxygen flow real-time supervision device.

Background

Oxygen inhalation therapy is widely applied to treatment and rescue of various clinical patients, and medical staff usually humidifies oxygen in order to ensure the comfort of the patients when inhaling the oxygen. The oxygen inhalator is a common device for humidifying oxygen, and is generally installed between a medical oxygen supply system and an oxygen supply device, wherein oxygen conveyed from the medical oxygen supply system firstly enters neutral water in a humidifying bottle from an air inlet pipe, the neutral water humidifies the oxygen, and the humidified oxygen is discharged through an air outlet pipe and finally enters the oxygen supply device for a patient to inhale.

In the process of humidifying oxygen, bubbles with larger volume are often generated in neutral water due to the continuous input of oxygen, and once the bubbles emerge from the water surface, the bubbles can break, and the bubbles not only can generate explosion sound when breaking, but also can cause the vibration of the water surface, thereby bringing noise and seriously influencing the sleep and rest of an oxygen inhalation patient, therefore, how to reduce the noise generated when humidifying oxygen as far as possible becomes an important problem of improving the hospital environment and promoting the early recovery of the patient; and when the oxygen supply amount exceeds or is lower than the upper limit value or the lower limit value of the oxygen supply range set by the medical staff, the patient is easily touched with the flow regulating valve, and the patient is greatly injured, so that medical accidents can be caused under serious conditions.

SUMMERY OF THE UTILITY MODEL

For solving the problem that prior art exists, the utility model aims at providing a reasonable in design, moreover, the steam generator is simple in structure, there is outer courage at the outside cover of humidifying bottle, enclose into a vacuum cavity between the inner wall of outer courage and the outer wall of humidifying bottle, produced noise when the vacuum cavity can reduce humidifying oxygen greatly, oxygen flow surpasss or can send alarm signal when being less than medical personnel's oxygen suppliment scope's upper limit value or lower limit value simultaneously, can make medical personnel in time handle, the security performance of oxygen suppliment has been ensured, the oxygen inhalator who has oxygen flow real-time monitoring device of clinical care quality has been improved.

For solving the above technical problem, the utility model discloses a following technical scheme realizes:

an oxygen inhalator with real-time oxygen flow monitoring device comprises

The humidifying bottle is used for humidifying oxygen, and neutral water is contained in the inner cavity of the humidifying bottle;

the base is used for packaging the humidification bottle and arranged at the upper end of the humidification bottle;

the humidifying tube is used for outputting oxygen into the humidifying bottle, the humidifying tube is arranged in the humidifying bottle, the air inlet end of the humidifying tube is arranged on the base, and the air outlet end of the humidifying tube is arranged in neutral water;

the oxygen outlet end of the air inlet pipe is arranged on the base and is communicated with the air inlet end of the humidifying pipe, and the oxygen inlet end of the air inlet pipe is communicated with the oxygen outlet of the medical oxygen supply system;

the air outlet pipe is used for being connected and communicated with the oxygen supply device, the air inlet end of the air outlet pipe is arranged on the base and is communicated with the inner cavity of the humidification bottle, and the air outlet end of the air outlet pipe is communicated with the air inlet of the oxygen supply device;

the flow tube is arranged on the base and communicated with the humidification tube, and a floating ball capable of floating up and down along the flow tube according to the oxygen flow is arranged in the flow tube;

the flow adjusting knob is used for adjusting and controlling the flow of oxygen, and is arranged on the base;

the method is characterized in that: an outer liner is sleeved outside the humidification bottle, the top of the outer liner is connected with the humidification bottle into a whole, and a vacuum cavity is enclosed between the inner wall of the outer liner and the outer wall of the humidification bottle;

the oxygen inhalator with the real-time oxygen flow monitoring device also comprises an oxygen flow monitoring device for monitoring the oxygen flow in real time, and the oxygen flow monitoring device comprises

An upper limit infrared sensor for monitoring whether the oxygen flow rate exceeds an upper limit oxygen input amount of the patient, the upper limit infrared sensor being disposed at an upper limit value of the patient oxygen input amount of the flow tube;

a lower limit infrared sensor for monitoring whether the oxygen monitoring is below a lower limit oxygen input for the patient, the lower limit infrared sensor being disposed at a lower limit value of the patient oxygen input for the flow tube;

and the alarm system is used for sending an alarm signal when the oxygen input quantity exceeds or is lower than the upper limit value or the lower limit value of the oxygen supply range set by the medical staff, and is respectively in communication connection with the upper limit infrared sensor and the lower limit infrared sensor.

In a preferred embodiment of the present invention, the upper limit infrared sensor and the lower limit infrared sensor are both disposed on the flow tube through a clamping device, the clamping device includes a mounting seat, a central hole is disposed at a central position of the mounting seat, semicircular fixture blocks clamped on an outer peripheral surface of the flow tube are symmetrically disposed in the central hole, a guide hole is disposed on the mounting seat and at a position located in a middle portion of the semicircular fixture block, a guide post capable of sliding along the guide hole is disposed in the guide hole, one end of the guide post is connected to the middle portion of the semicircular fixture block, and a handle is disposed at the other end of the guide post;

set up on the mount pad with the coaxial chamber that holds of guiding hole, it is linked together with the centre bore to hold the chamber one side of guide post is equipped with inside stopper the opposite side of guide post is equipped with outside stopper the cover is equipped with a reset spring on the guide post, reset spring is pressed by inside stopper and is established and hold the intracavity.

In a preferred embodiment of the present invention, a positioning ring with a locking mechanism is connected to the intake pipe.

Compared with the prior art, the utility model discloses outside cover has outer courage at the humidifying bottle, encloses into a vacuum cavity between the inner wall of outer courage and the outer wall of humidifying bottle, produced noise when the vacuum cavity can reduce humidifying oxygen greatly, can send alarm signal when oxygen flow surpasss or is less than the upper limit value or the lower limit value of the oxygen suppliment scope that medical personnel set for simultaneously, can make medical personnel in time handle, has ensured the security performance of oxygen suppliment, has improved clinical care quality, has reduced the incidence of medical malpractice.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural view of the clamping device of the present invention clamped to the flow tube.

Fig. 3 is the structure diagram of the clamping device of the present invention after the clamping is released.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand and understand, the present invention is further explained by combining with the specific drawings.

Referring to fig. 1-3, the oxygen inhalator with the real-time oxygen flow monitoring device is shown, and comprises a humidifying bottle 100, a base 200, a humidifying pipe 300, an air inlet pipe 400, an air outlet pipe 500, a flow pipe 600 and a flow adjusting knob 700.

Humidifying bottle 100 is used for carrying out the humidification to oxygen, has 1000 neutral water splendid attire in humidifying bottle 100's inner chamber, and base 200 is used for encapsulating humidifying bottle 100, and base 200 sets up on humidifying bottle 100's upper end, and humidifying pipe 300 is used for exporting oxygen to humidifying bottle 100 in, and humidifying pipe 300 sets up inside humidifying bottle 100, and humidifying pipe 300's inlet end sets up on base 200, and humidifying pipe 300's the end of giving vent to anger sets up in neutral water.

The air inlet pipe 400 is used for being connected and communicated with a medical oxygen supply system, the oxygen outlet end of the air inlet pipe 400 is arranged on the base 200 and is communicated with the air inlet end of the humidifying pipe 300, the oxygen inlet end of the air inlet pipe 400 is communicated with the oxygen outlet of the medical oxygen supply system, the air outlet pipe 500 is used for being connected and communicated with an oxygen supply device, the air inlet end of the air outlet pipe 500 is arranged on the base 200 and is communicated with the inner cavity of the humidifying bottle 100, and the air outlet end of the air outlet pipe 500 is communicated with the air inlet of the oxygen supply.

The flow tube 600 is used for displaying the oxygen flow in real time, the flow tube 600 is arranged on the base 200 and communicated with the humidifying tube 300, a floating ball 610 capable of floating up and down according to the oxygen flow is arranged in the flow tube 600, the flow adjusting knob 700 is used for adjusting and controlling the oxygen flow, and the flow adjusting knob 700 is arranged on the base 200.

An outer liner 800 is sleeved outside the humidification bottle 100, the top of the outer liner 800 is connected with the humidification bottle 100 into a whole, a vacuum cavity 900 is defined between the inner wall of the outer liner 800 and the outer wall of the humidification bottle 100, and the vacuum cavity 900 can greatly reduce noise generated when humidifying oxygen.

The oxygen inhalator with the real-time oxygen flow monitoring device also comprises an oxygen flow monitoring device for monitoring the oxygen flow in real time, wherein the oxygen flow monitoring device comprises an upper limit infrared sensor 1100, a lower limit infrared sensor 1200 and an alarm system.

The upper limit infrared sensor 1100 is used to monitor whether the oxygen flow exceeds the upper limit oxygen input to the patient, the upper limit infrared sensor 1100 is disposed at the upper limit of the patient oxygen input to the flow tube, the lower limit infrared sensor 1200 is used to monitor whether the oxygen monitoring is below the lower limit oxygen input to the patient, and the lower limit infrared sensor 1200 is disposed at the lower limit of the patient oxygen input to the flow tube.

The alarm system is used for sending out an alarm signal when the oxygen input amount exceeds or is lower than the upper limit value or the lower limit value of the oxygen supply range set by medical personnel, and the alarm system is respectively in communication connection with the upper limit infrared sensor 1100 and the lower limit infrared sensor 1200.

Patient or accompanying bed personnel carry out other operations at the patient head of a bed and touch flow control knob 700 and make the oxygen flow exceed or be less than medical personnel's the upper limit value or the lower limit value of the oxygen suppliment scope of setting for, upper limit infrared sensor 1100 or lower limit infrared sensor 1200 can be with signal transmission to alarm device, alarm device can send alarm signal, can make medical personnel in time handle, the security performance of oxygen suppliment has been ensured, the clinical care quality has been improved, the incidence of medical malpractice has been reduced.

The upper limit infrared sensor 1100 and the lower limit infrared sensor 1200 are both arranged on the flow tube 600 through a clamping device, the clamping device 1300 comprises a mounting seat 1310, a central hole 1311 is formed in the central position of the mounting seat 1310, semicircular clamping blocks 1320 clamped on the outer peripheral surface of the flow tube are symmetrically arranged in the central hole 1311, a guide hole is formed in the middle of each semicircular clamping block 1320 on the mounting seat 1310, a guide post 1330 capable of sliding along the guide hole is arranged in the guide hole, one end of each guide post 1330 is connected with the middle of the corresponding semicircular clamping block 1320, and a handle 1340 is arranged at the other end of each guide post 1330.

An accommodating cavity 1312 coaxial with the guide hole is formed in the mounting seat 1310, the accommodating cavity 1312 is communicated with the central hole, an inner limiting block 1370 is arranged on one side of the guide column 1330, an outer limiting block 1360 is arranged on the other side of the guide column 1330, a return spring 1350 is sleeved on the guide column 1330, and the return spring 1350 is pressed in the accommodating cavity 1312 by the inner limiting block 1370.

The air inlet pipe 400 is connected with a positioning ring 410 with a locking mechanism, and the positioning ring 410 is used for being connected with a plug valve of a medical oxygen supply system and is provided with the locking mechanism, so that the air inlet pipe cannot fall off in the using process.

To sum up the utility model discloses outside cover has outer courage at the humidifying bottle, encloses into a vacuum cavity between the inner wall of outer courage and the outer wall of humidifying bottle, produced noise when the vacuum cavity can reduce humidifying oxygen greatly, can send alarm signal when oxygen flow surpasss or is less than the upper limit value or the lower limit value of the oxygen suppliment scope that medical personnel set for simultaneously, can make medical personnel in time handle, has ensured the security performance of oxygen suppliment, has improved clinical care quality, has reduced the incidence of medical malpractice.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (3)

1. An oxygen inhalator with real-time oxygen flow monitoring device comprises

The humidifying bottle is used for humidifying oxygen, and neutral water is contained in the inner cavity of the humidifying bottle;

the base is used for packaging the humidification bottle and arranged at the upper end of the humidification bottle;

the humidifying tube is used for outputting oxygen into the humidifying bottle, the humidifying tube is arranged in the humidifying bottle, the air inlet end of the humidifying tube is arranged on the base, and the air outlet end of the humidifying tube is arranged in neutral water;

the oxygen outlet end of the air inlet pipe is arranged on the base and is communicated with the air inlet end of the humidifying pipe, and the oxygen inlet end of the air inlet pipe is communicated with the oxygen outlet of the medical oxygen supply system;

the air outlet pipe is used for being connected and communicated with the oxygen supply device, the air inlet end of the air outlet pipe is arranged on the base and is communicated with the inner cavity of the humidification bottle, and the air outlet end of the air outlet pipe is communicated with the air inlet of the oxygen supply device;

the flow tube is arranged on the base and communicated with the humidification tube, and a floating ball capable of floating up and down along the flow tube according to the oxygen flow is arranged in the flow tube;

the flow adjusting knob is used for adjusting and controlling the flow of oxygen, and is arranged on the base;

the method is characterized in that: an outer liner is sleeved outside the humidification bottle, the top of the outer liner is connected with the humidification bottle into a whole, and a vacuum cavity is enclosed between the inner wall of the outer liner and the outer wall of the humidification bottle;

the oxygen inhalator with the real-time oxygen flow monitoring device also comprises an oxygen flow monitoring device for monitoring the oxygen flow in real time, and the oxygen flow monitoring device comprises

An upper limit infrared sensor for monitoring whether the oxygen flow rate exceeds an upper limit oxygen input amount of the patient, the upper limit infrared sensor being disposed at an upper limit value of the patient oxygen input amount of the flow tube;

a lower limit infrared sensor for monitoring whether the oxygen monitoring is below a lower limit oxygen input for the patient, the lower limit infrared sensor being disposed at a lower limit value of the patient oxygen input for the flow tube;

and the alarm system is used for sending an alarm signal when the oxygen input quantity exceeds or is lower than the upper limit value or the lower limit value of the oxygen supply range set by the medical staff, and is respectively in communication connection with the upper limit infrared sensor and the lower limit infrared sensor.

2. The oxygen inhalator with the real-time oxygen flow monitoring device as claimed in claim 1, wherein: the upper limit infrared sensor and the lower limit infrared sensor are both arranged on the flow tube through a clamping device, the clamping device comprises an installation seat, a central hole is formed in the center of the installation seat, semicircular clamping blocks clamped on the outer peripheral surface of the flow tube are symmetrically arranged in the central hole, a guide hole is formed in the installation seat and positioned in the middle of each semicircular clamping block, a guide post capable of sliding along the guide hole is arranged in each guide hole, one end of each guide post is connected with the middle of each semicircular clamping block, and a handle is arranged at the other end of each guide post;

set up on the mount pad with the coaxial chamber that holds of guiding hole, it is linked together with the centre bore to hold the chamber one side of guide post is equipped with inside stopper the opposite side of guide post is equipped with outside stopper the cover is equipped with a reset spring on the guide post, reset spring is pressed by inside stopper and is established and hold the intracavity.

3. The oxygen inhalator with the real-time oxygen flow monitoring device as claimed in claim 1, wherein: and the air inlet pipe is connected with a positioning ring with a locking mechanism.

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