CN210698434U - Humidifying bottle system and oxygen inhalation device formed by same - Google Patents

Abstract

The utility model discloses a humidification bottle system and an oxygen inhalation device comprising the same, which comprises a humidification bottle, a bracket and an oxygen inlet pipe, wherein a bottle cavity is arranged in the humidification bottle, the top of the humidification bottle is provided with a bottle neck communicated with the bottle cavity, and the inside of the bottle neck is provided with the bracket sinking towards the bottle cavity; the middle part of the bracket is provided with an air inlet pipe passing hole, the top end of the oxygen inlet pipe is matched with the air inlet pipe passing hole passing through the bracket, the bottom end of the oxygen inlet pipe is arranged in a bottle cavity of the humidification bottle, and the bottom end of the oxygen inlet pipe is provided with a humidifying core; the bracket is provided with a plurality of air outlets around the air inlet pipe through hole. The utility model discloses the inside bracket that is equipped with of bottleneck of humidifying bottle, the bracket can be worn and can realize installing the cooperation of oxygen intake pipe on the bracket by the oxygen intake pipe, and the oxygen entering and the oxygen discharge of humidifying bottle are all inside the humidifying bottle, can prevent effectively that oxygen and humidifying liquid from polluting, have improved the pure degree of oxygen.

Description

Humidifying bottle system and oxygen inhalation device formed by same

Technical Field

The utility model relates to a humidifying bottle connection structure, in particular to a humidifying bottle system and an oxygen inhalation device formed by the same.

Background

The wall type float oxygen inhalator used by the central oxygen supply terminal of the hospital is a basic oxygen supply device of the hospital, is generally applied to the first-aid oxygen supply and humidification oxygen therapy of the inpatients at present, and has the advantages of low cost, simple and convenient operation, more departments for using and large dosage. The bacteria can enter a humidifying bottle along with air or humidifying liquid to be rapidly propagated in an oxygen-enriched environment in the humid humidifying bottle due to the fact that non-fermentation pathogenic bacteria such as escherichia coli, salmonella, staphylococcus aureus, pseudomonas aeruginosa, mould fungi and the like widely existing in air and water in nature, or due to insufficient air sterilization in hospital ward areas, or due to pollution of a central oxygen supply pipeline and a joint, or due to non-compliance of the injected humidifying liquid, or due to non-standardization of a sterilization process and assembly operation of an oxygen inhaler. Medical oxygen entering from the central oxygen supply terminal can form granular infectious aerosol through polluted humidification liquid, and after a patient inhales the infected humidification liquid, respiratory tract infection is extremely easily caused in an air passage, so that the patient is aggravated. The research of 'investigation and effective control of bacterial pollution condition of medical oxygen humidification bottle' by zhangzhongzhen et al shows that the bacterial pollution rate reaches 18.0% when the humidification bottle and the humidification tube which are not used after disinfection are stored for a plurality of days and is detected by a patient after use, and the bacterial pollution rate is more up to 82.5%. It is seen that irregular storage and the humidification bottles and the humidification tubes used by patients can be the main carriers polluted by non-fermentation germs, and the respiratory tract infection of the patients in hospitals caused by hospital environment and medical instruments becomes a serious risk of nosocomial infection. Therefore, the disinfection and management of the humidification bottle (also called as the humidification cup or the humidification bottle) of the oxygen inhaler is an important link for preventing hospital iatrogenic infection.

In order to ensure the safe use of the float-type oxygen inhaler in clinical treatment, the sanitation department requires that the humidifying bottle and the humidifying pipe used by the float-type oxygen inhaler must be strictly disinfected every day, and the oxygen inhalation pipeline and external devices used by a patient are used once by one person, so that the cross infection is effectively avoided. For the repeated application of the humidifying bottle, a unified disinfection management method is not available at present in China, and the method generally adopts the following steps: (1) and soaking and disinfecting with a disinfectant. The treatment time is long, the efficiency is low, and the humidifying bottle is inconvenient to dry and store after disinfection. (2) And (5) sterilizing by using ethylene oxide. The special disinfection equipment is expensive, certain residues are left in the bottle after disinfection, and water scale in the bottle is difficult to completely remove. (3) And (5) autoclaving. The central supply room is required to be used for sterilizing uniformly, the flow is long, the cost is high, and the sterilized humidification bottle is still short in sterile storage period.

When the humidifier is used clinically, strict disinfection treatment can not be carried out on the outer surface of the humidifier and the outer surface of the sealing film of the humidification cup any more, the disinfection operation is complex and time-consuming, and the use cost is greatly increased. The non-fermentation pathogenic bacteria on the outer surface of the polluted humidifier or the outer surface of the sealing film of the humidification cup can be rapidly propagated in the oxygen-enriched environment of the cavity of the humidification bottle, so that the harm is increased. No matter the humidifying oxygen with pressure flows out from the oxygen outlet hole of the humidifier or flows out from the gap, the humidifying oxygen enters the cavity of the humidifying bottle and passes through the outer surface of the polluted humidifier (or humidifying cup), and then the humidifying oxygen is sucked by a patient, so that the sterile flow environment of the medical humidifying oxygen is difficult to ensure. When the humidifying cup is used, the oxygen guide rod directly penetrates through the sealing film to enter humidifying water, and can directly bring pollutants on the surface of the sealing film into the humidifying water to directly pollute the sterile humidifying water. In short, the prior art cannot ensure the sterility of the humidified oxygen in the whole process of output, and a system which cannot ensure the sterility of the humidified oxygen becomes a new hospital infection hidden danger and causes more uncertain iatrogenic risks.

SUMMERY OF THE UTILITY MODEL

Weak point to prior art exists, the utility model aims to provide a humidifying bottle system, the inside bracket that is equipped with of bottleneck of humidifying bottle, the bracket can be walked and can realize installing the cooperation of oxygen intake pipe on the bracket by the oxygen gas intake pipe, and the oxygen entering and the oxygen discharge of humidifying bottle are all inside the humidifying bottle, can prevent effectively that oxygen and humidifying liquid from polluting, have improved the purity of oxygen.

The purpose of the utility model is realized through the following technical scheme:

a humidification bottle system comprises a humidification bottle, a bracket and an oxygen inlet pipe, wherein a bottle cavity is formed in the humidification bottle, a bottle neck communicated with the bottle cavity is formed in the top of the humidification bottle, and the bracket which is sunken towards the bottle cavity is arranged in the bottle neck; the middle part of the bracket is provided with an air inlet pipe passing hole, the top end of the oxygen inlet pipe is matched with the air inlet pipe passing hole passing through the bracket, the bottom end of the oxygen inlet pipe is arranged in a bottle cavity of the humidification bottle, and the bottom end of the oxygen inlet pipe is provided with a humidifying core; the bracket is provided with a plurality of air outlets around the air inlet pipe through hole.

The first preferable technical proposal of the humidifying bottle system structure of the utility model is as follows: the humidifying bottle comprises a bottle body and a bottle cap, wherein the bottle cap is sealed at the top of the bottle body in a sealing mode, a bottle body cavity is formed inside the bottle body, a bottle cap cavity is formed inside the bottle cap, the bottle body cavity and the bottle cap cavity jointly form a bottle cavity of the humidifying bottle, the bottle neck is arranged on the bottle cap, the cross section of the bracket is in a U shape, and the bracket and the bottle cap are integrally formed and manufactured.

The utility model discloses preferred second humidifying bottle system structure technical scheme as follows: the humidifying bottle comprises a bottle body and a bottle cap, the bottle cap is sealed at the top of the bottle body in a sealing mode, a bottle body cavity is formed inside the bottle body, a bottle cap cavity is formed inside the bottle cap, the bottle body cavity and the bottle cap cavity jointly form a bottle cavity of the humidifying bottle, the bottle neck is arranged on the bottle cap, the cross section of the bracket is in a U-shaped shape, the bracket is connected with the bottle cap in an interference fit mode, and the bracket is provided with a fixing ring sleeve matched with an oxygen inlet pipe.

Preferably, the upper sealing cover of the bottle neck is provided with a dustproof sealing cover.

Preferably, the dustproof sealing cover is in mutual sealing, inserting and covering connection with the bottleneck, and a sealing lining matched with the inner side wall of the bottleneck is arranged inside the dustproof sealing cover.

An oxygen inhalation device composed of a humidification bottle system comprises an outer cup, an outer cup cover, a joint and an oxygen inhaler, wherein the humidification bottle is installed in the outer cup, the outer cup cover is hermetically covered on the top of the outer cup, the oxygen inhaler is connected with the outer cup cover, the joint is arranged in the oxygen inhaler, penetrates through a bottle neck and is placed in a bracket, and the joint is connected with the top end of an oxygen inlet pipe in a matched mode.

Compared with the prior art, the utility model, have following advantage and beneficial effect:

(1) the utility model discloses the inside bracket that is equipped with of bottleneck of humidifying bottle, the bracket can be worn and can realize installing the cooperation of oxygen intake pipe on the bracket by the oxygen intake pipe, and the oxygen entering and the oxygen discharge of humidifying bottle are all inside the humidifying bottle, can prevent effectively that oxygen and humidifying liquid from polluting, have improved the pure degree of oxygen.

(2) The utility model provides a sealing connection structure between a set of humidifying bottle system and the oxygen inhalator, and the sealing result performance of the humidifying bottle system can improve the purity of oxygen and reduce the oxygen inhalation risk.

(3) The utility model discloses be equipped with can seal the shield cover that fits on the bottleneck, can effectively provide sealed effect under the humidifying liquid environment has in humidifying bottle inside, prevent that humidifying liquid from receiving external pollution.

Drawings

FIG. 1 is a schematic diagram of a first preferred humidification bottle system of the present invention;

FIG. 2 is a schematic diagram of a second preferred humidification bottle system of the present invention;

FIG. 3 is a schematic structural view of the present invention with the dust-proof sealing cover installed;

fig. 4 is a schematic structural view of the oxygen inhalation device of the present invention.

Wherein, the names corresponding to the reference numbers in the drawings are:

1-a humidifying bottle, 11-a bottle body, 12-a bottle cap, 2-a bottle neck, 3-a bracket, 31-an air outlet, 33-a fixed ring sleeve, 4-an oxygen inlet pipe, 5-a humidifying core, 6-a dustproof sealing cover, 61-a sealing lining, 7-an outer cup, 8-an outer cup cover, 9-a connector and 10-an oxygen inhaler.

Detailed Description

The present invention will be described in further detail with reference to examples.

Examples

As shown in figure 1, a humidification bottle system comprises a humidification bottle 1, a bracket 3 and an oxygen inlet pipe 4, wherein a bottle cavity is formed inside the humidification bottle 1, a bottle neck 2 communicated with the bottle cavity is formed in the top of the humidification bottle 1, and the bracket 3 sinking towards the bottle cavity is arranged inside the bottle neck 2. An air inlet pipe passing hole is formed in the middle of the bracket 3, the top end of the oxygen inlet pipe 4 is matched with the air inlet pipe passing hole passing through the bracket 3, the bottom end of the oxygen inlet pipe 4 is arranged in a bottle cavity of the humidification bottle 1, and the bottom end of the oxygen inlet pipe 4 is provided with a humidifying core 5. Bracket 3 evenly is equipped with a plurality of venthole 31 around intake pipe through hole a week, and all ventholes 31 are circular arrangement setting around intake pipe through hole.

As shown in fig. 1 and 2, the humidification bottle 1 comprises a bottle body 11 and a bottle cap 12, the bottle cap 12 is sealed and covered on the top of the bottle body 11, a bottle body cavity is arranged inside the bottle body 11, a bottle cap cavity is arranged inside the bottle cap 12, the bottle body cavity and the bottle cap cavity jointly form a bottle cavity of the humidification bottle 1, the bottle neck 2 is arranged on the bottle cap 12, and the cross section of the bracket 3 is in a U shape. As shown in fig. 1, the carrier 3 and the cap 12 may be integrally formed; as shown in fig. 2, the carrier 3 and the bottle cap 12 may also be connected by interference fit. The bottle neck 2, the bottle cap 12 and the bracket 3 are integrally formed, and the bottle cap 12 and the bottle body 11 are detachably combined to form the humidification bottle 1. As shown in fig. 2, the bracket 3 of the present embodiment is composed of a bracket portion and a fixing ring sleeve 33, all the air outlet holes 31 are formed on the bracket portion of the bracket 3, the fixing ring sleeve 33 of the bracket 3 is formed by protruding the air inlet pipe passing hole toward the inside of the humidification bottle 1, and the oxygen inlet pipe 4 is fittingly installed in the fixing ring sleeve 33.

The bottle neck 2 of the present embodiment can be hermetically covered with a dust-proof sealing cover 6. As shown in fig. 3, the dust-proof sealing cover 6 of the present embodiment is inserted into the bottle neck 2, and a sealing liner 61 is disposed inside the dust-proof sealing cover 6 and matches with the inner sidewall of the bottle neck 2.

As shown in figure 4, the oxygen inhalation device formed by the humidification bottle system comprises an outer cup 7, an outer cup cover 8, a joint 9 and an oxygen inhalation device 10, wherein the humidification bottle 1 is arranged in the outer cup 7, the outer cup cover 8 is hermetically covered on the top of the outer cup 7, the oxygen inhalation device 10 is connected with the outer cup cover 8, the joint 9 is arranged in the oxygen inhalation device 10, the joint 9 penetrates through a bottle neck 2 and is arranged in a bracket 3, and the joint 9 is connected with the top end of an oxygen inlet pipe 4 in a matching way.

When the humidifying bottle is used, humidifying liquid is filled in the bottle cavity of the humidifying bottle 1, oxygen is input into the bottle cavity of the humidifying bottle 1 through the oxygen inlet pipe 4, enters the bottle cavity of the humidifying bottle 1 through the humidifying core 5, and then flows out of the humidifying bottle 1 through the air outlet holes 31 on the bracket 3 after being humidified in the humidifying liquid of the humidifying bottle 1 and is supplied to the body of a patient through the oxygen inhalator 10 under the inhalation action of the oxygen inhalator 10. When the humidification bottle 1 is filled with humidification liquid and is not used or is used, the humidification bottle can be sealed and covered on the bottle neck 2 through the dustproof sealing cover 6, and the humidification liquid in the humidification bottle 1 can be effectively prevented from being polluted.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (6)

1. The utility model provides a humidification bottle system which characterized in that: the humidifying device comprises a humidifying bottle (1), a bracket (3) and an oxygen inlet pipe (4), wherein a bottle cavity is formed in the humidifying bottle (1), a bottle neck (2) communicated with the bottle cavity is formed in the top of the humidifying bottle (1), and the bracket (3) sunken towards the bottle cavity is arranged in the bottle neck (2); an air inlet pipe passing hole is formed in the middle of the bracket (3), the top end of the oxygen inlet pipe (4) is matched with the air inlet pipe passing hole passing through the bracket (3), the bottom end of the oxygen inlet pipe (4) is arranged in a bottle cavity of the humidification bottle (1), and a humidifying core (5) is arranged at the bottom end of the oxygen inlet pipe (4); and a plurality of air outlet holes (31) are formed in the bracket (3) around the air inlet pipe through hole in the periphery.

2. The humidification bottle system of claim 1, wherein: humidifying bottle (1) comprises bottle (11) and bottle lid (12), sealed lid of bottle lid (12) fits bottle (11) top, bottle body (11) inside has the bottle body chamber, bottle lid (12) inside has the bottle lid chamber, the bottle chamber of humidifying bottle (1) is constituteed jointly in bottle body chamber and bottle lid chamber, bottle lid (12) is located in bottleneck (2), bracket (3) cross-section is "U" shape, bracket (3) and bottle lid (12) integrated into one piece manufacturing.

3. The humidification bottle system of claim 1, wherein: humidifying bottle (1) comprises bottle (11) and bottle lid (12), bottle lid (12) sealed lid fits bottle (11) top, bottle body (11) inside has the bottle body chamber, bottle lid (12) inside has the bottle lid chamber, the bottle chamber of humidifying bottle (1) is constituteed jointly in bottle body chamber and bottle lid chamber, bottle lid (12) is located in bottleneck (2), bracket (3) cross-section is "U" shape, bracket (3) are connected with bottle lid (12) interference fit, bracket (3) have with oxygen intake pipe (4) matched with fixed ring cover (33).

4. The humidification bottle system of claim 1, wherein: the bottle neck (2) is covered with a dustproof sealing cover (6) in a sealing way.

5. The humidification bottle system of claim 4, wherein: dustproof sealing lid (6) and bottleneck (2) are sealed grafting lid each other and are closed, dustproof sealing lid (6) inside be equipped with bottleneck (2) inside wall matched with sealed inside lining (61).

6. An oxygen inhalation device composed of a humidification bottle system is characterized in that: including outer cup (7), outer bowl cover (8), joint (9) and oxygen inhalator (10), install in outer cup (7) humidifying bottle (1), outer cup (7) top sealing cover has closed outer bowl cover (8), oxygen inhalator (10) are connected with outer bowl cover (8), be equipped with joint (9) in oxygen inhalator (10), connect (9) and pass bottleneck (2) and place bracket (3) in, connect (9) and oxygen intake pipe (4) top cooperation and be connected.

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