CN219462249U - Disposable oxygen inhalation humidifying bottle liquid discharging device - Google Patents

Abstract

The utility model relates to a liquid draining device of a disposable oxygen-absorbing humidifying bottle, which comprises a bottle holding module, a liquid draining module and a liquid draining module, wherein the bottle holding module is used for supporting the disposable oxygen-absorbing humidifying bottle at a specified angle; the inclination angle module is used for adjusting the specified angle of the bottle body supporting device according to different angles required by liquid discharge of different disposable oxygen inhalation humidification bottles; the bottle holding module is characterized in that a plurality of clamping mechanisms with O-shaped hollow areas which are arranged in a coaxial mode with the reserved liquid discharge holes are arranged on the inclined plate of the bottle holding module, wherein the O-shaped hollow areas can change the clamping caliber according to different bottle bodies; the linkage rod of the dip angle module is connected with the dip plate which can perform circular motion by taking the axis of the connecting rod as a rotating shaft in a mode of penetrating through the side wall of the liquid collecting box body.

Description

Disposable oxygen inhalation humidifying bottle liquid discharging device

Technical Field

The utility model relates to the technical field of medical appliances, in particular to a liquid draining device of a disposable oxygen inhalation humidifying bottle.

Background

When a patient is treated from medical treatment, oxygen inhalation becomes one of important rescue or treatment means in hospitals. The medical oxygen prepared manually is extremely dry, so the oxygen humidification bottle is an indispensable accessory of the first-aid oxygen inhalation device. The prior art of hospitals adopts a compound oxygen humidification bottle, oxygen and humidification liquid cannot be fully contacted, so that the humidification effect is poor, and the rest of patients is influenced. And repeated sterilization uses present a risk of cross-infection. The latest single-use oxygen humidifiers in the market today are gaining more and more acceptance by patients and the use of single-use oxygen humidifiers increases year by year.

The paper literature on the development and application of the disposable sealed oxygen humidification bottle indicates that the novel disposable sealed oxygen humidification bottle is eliminated once, and the defect of cross infection in hospital patients caused by repeated use is corrected. The humidifying bottle adopts a closed design, so that the probability of easy pollution caused by opening is reduced. And the degree of reaching the lung by infectious aerosol generated by humidification in the using process is reduced, so that the effect of prevention is achieved. The disposable closed oxygen humidifying bottle is formed by using a medical nontoxic PVC material through one-step compression molding, is matched with a flowmeter of an old oxygen humidifying bottle, is added with a foam cushion in the humidifying bottle to enlarge the area of oxygen and humidifying water in the humidifying bottle, is sterilized by ethylene oxide after being manufactured, is hermetically packaged, and is opened for use once.

However, for the humidification bottle, when the humidification liquid in the humidification bottle drops to the warning line, the humidification bottle should be immediately stopped, and even if the humidification liquid in the humidification bottle does not drop to the warning line, a large amount of humidification liquid remains in the humidification bottle. According to the medical waste classification catalogue, the disposable oxygen-absorbing humidification bottle after use belongs to infectious waste, liquid in the disposable oxygen-absorbing humidification bottle is directly communicated with respiratory tract of a patient, and most of the disposable oxygen-absorbing humidification bottle is likely to carry virus of the patient, however, the cross infection prevention effect of the disposable oxygen-absorbing humidification bottle is positively related to the tightness of the disposable oxygen-absorbing humidification bottle, the disposable oxygen-absorbing humidification bottle with the tightness is difficult to pour out residual liquid in the disposable oxygen-absorbing humidification bottle, and the disposable oxygen-absorbing humidification bottle with inspiration OT-MI integrated disposable oxygen-absorbing device is combined with use experience in medical treatment, so that the disposable oxygen-absorbing humidification bottle needs to be completely poured, a specific angle is needed to be maintained, and the liquid in the bottle cannot be completely discharged when the disposable oxygen-absorbing humidification bottle is completely inverted or the inclination angle is improper. According to the medical waste management regulations, medical health institutions and medical waste centralized disposal units should take effective measures to prevent the loss, leakage and diffusion of medical waste. For the disposable oxygen absorption humidifying bottle, if the liquid in the bottle is not completely discharged for centralized treatment, the liquid in the bottle can possibly flow out in the transportation and treatment processes, and extra waste treatment workload is increased, so that the liquid in the bottle is firstly required to be intensively recycled before the disposable oxygen absorption humidifying bottle is recycled.

The utility model provides a medical oxygen humidification bottle drying and sorting case as proposed in the patent document with publication number CN201819514U among the prior art, including the box of taking the case lid, the baffle groove has been seted up at box both sides middle part, and humidification bottle baffle passes through the baffle groove to be installed in the box, has seted up a plurality of humidification bottle on the humidification bottle baffle and has placed the hole, has seted up the air supply hole of taking the handhole door on the box lateral wall of humidification bottle baffle lower part, has seted up on the box lateral wall of air supply hole lower part with humidification bottle baffle matched with drainage tray groove, the drainage tray leads to the drainage tray groove to be installed in the box.

The utility model provides an oxygen humidification bottle drying rack as proposed in the patent document with publication number CN202109734U among the prior art, belong to medical auxiliary tool technical field, it comprises water collector, bracing piece, layer board, bottle cover, its characterized in that rectangle water collector links to each other with the rectangle layer board above the water collector through the bracing piece of its four corners upper vertical fixation, be equipped with a plurality of internal diameters and the high bottle cover that is less than oxygen humidification bottle height that suits of oxygen humidification bottle external diameter above the layer board in proper order, be equipped with on the layer board of bottle cover lower extreme inside respectively with the communicating internal diameter of bottle cover be greater than oxygen humidification bottle bottleneck external diameter and be less than the circular through-hole of oxygen humidification bottle body external diameter.

The technical scheme of the prior art can be used for airing and placing a traditional oxygen absorption humidification bottle, but the disposable oxygen absorption humidification bottle can not completely discharge liquid in the bottle by using the existing oxygen absorption humidification bottle airing rack, and because the bottle mouth of the disposable humidification bottle is subjected to special structural design, an oxygen inlet and an oxygen outlet which are perpendicular to each other are required to select a proper angle when the humidification liquid in the disposable humidification bottle is required to be poured out, however, in most of the technical schemes of the prior art, a device for placing the humidification bottle does not support to adjust and keep the humidification bottle at a certain angle, and only the humidification bottle can be inverted in a placing hole, but the liquid is not smooth due to the adoption of a transverse or completely vertical inversion mode and the like for the disposable humidification bottle, so that the scheme of the prior art needs to be improved. Secondly, the model of disposable humidification bottle is also more and more at present, to the duration difference that needs to carry out oxygen therapy, can adopt the disposable humidification bottle of different models generally, consequently if can not change the aperture size that keeps the device of humidification bottle, its model that can place the humidification bottle is also very single, does not possess the universality. Moreover, if the oxygen absorption humidifying bottle airing rack in the prior art is used for collecting the waste liquid discharged from the disposable oxygen absorption humidifying bottle, the waste liquid can be simply concentrated, and the primary disinfection treatment can not be carried out on the liquid.

Furthermore, there are differences in one aspect due to understanding to those skilled in the art; on the other hand, as the inventors studied numerous documents and patents while the present utility model was made, the text is not limited to details and contents of all that are listed, but it is by no means the present utility model does not have these prior art features, the present utility model has all the prior art features, and the applicant remains in the background art to which the rights of the related prior art are added.

Disclosure of Invention

The utility model provides an unable inclination who inverts the bottle that adjusts, unable clamping dimension problem according to the size adjustment fixing device of bottle to prior art provides, this application provides a disposable oxygen absorption humidifying bottle flowing back device.

The adjustable bottle body supporting device of the utility model comprises: the bottle holding module is used for supporting the disposable oxygen inhalation humidification bottle at a specified angle; the dip angle module is used for adjusting the bottle holding module of the bottle body supporting device at a specified angle according to different angles required by liquid discharge of different disposable oxygen inhalation humidification bottles; the bottle holding module is characterized in that a plurality of clamping mechanisms with O-shaped hollow areas which are arranged in a coaxial mode with the reserved liquid discharge holes are arranged on the inclined plate of the bottle holding module, wherein the O-shaped hollow areas can change the clamping caliber according to different bottle bodies; the linkage rod of the dip angle module is connected with the dip plate which can perform circular motion by taking the axis of the connecting rod as a rotating shaft in a mode of penetrating through the side wall of the liquid collecting box body.

According to a preferred embodiment, the first clamping piece and the second clamping piece which are bent in a manner of deviating from each other in the middle of the clamping mechanism are arranged opposite to each other, wherein the front parts of the first clamping piece and the second clamping piece are provided with hollow areas which can enable the front parts of the clamping pieces to cross each other at a critical point; by applying force to the tail parts of the first clamping piece and the second clamping piece, the relative distance between the front parts of the clamping pieces is adjusted, and the middle section of the clamping mechanism forms an O-shaped hollow area with the inner diameter capable of being adjusted according to the size of the clamping bottle body.

According to a preferred embodiment, the tail parts of the first clamping piece and the second clamping piece are detachably connected to form a V-shaped structure capable of moving away from each other in a trend by applying pressure to the tail parts of the clamping pieces and leverage by taking the connecting parts of the clamping pieces as supporting points in a direction away from the middle section.

According to a preferred embodiment, the clamping means are connected to a support column standing on the side of the drain hole remote from the ground.

According to a preferred embodiment, the tilt plate rotates in synchronization with the link lever in the same direction and at the same speed as the link lever in a rotational movement of the link lever about the link lever axis as the rotational shaft, so that the tilt plate and the support column connected to the tilt plate are tilted at a prescribed angle.

According to a preferred embodiment, the extension bracket is rotatable about the connection point of the extension bracket to the support post.

According to a preferred embodiment, the side wall of the liquid collecting box body, which does not penetrate through the linkage rod, is provided with a plurality of disinfection components capable of performing preliminary disinfection treatment on waste liquid flowing into the liquid collecting box body.

According to a preferred embodiment, the side wall of the liquid collecting box body, which is away from the inclined plate, is provided with a holding adjusting handle detachably connected with the linkage rod.

According to a preferred embodiment, a friction structure is arranged inside the hole of the liquid collecting box body penetrated by the linkage rod, and the friction structure can fix the linkage rod in a current state until the next adjustment after the linkage rod rotates.

According to a preferred embodiment, the outer surface of the liquid collecting box body is provided with at least one liquid outlet valve which can enable the liquid collecting box body to be communicated with the external environment of the device to discharge residual humidifying liquid stored in the liquid collecting box body, wherein the liquid outlet valve can be switched between an opening state and a closing state.

According to a preferred embodiment, the outer surface of the liquid collecting box body is provided with a stand structure which enables the liquid collecting box body to stand above the draining tank in a manner that the bottom of the liquid collecting box body is not contacted with the draining tank.

The beneficial technical effects of the utility model are as follows:

1. according to the clamping mechanism, the inclined state of the disposable oxygen-absorbing humidifying bottle clamped by the clamping mechanism can be changed through operating the holding adjusting handle, instead of simply inverting the disposable oxygen-absorbing humidifying bottle in the clamping structure, so that residual humidifying liquid in the disposable oxygen-absorbing humidifying bottle can be smoothly discharged out of the bottle body.

2. The utility model can adjust the size of the O-shaped hollow area in the middle section of the clamping mechanism by adjusting the relative distance between the first clamping piece and the second clamping piece of the clamping mechanism above the liquid discharge hole, thereby being capable of stably clamping and fixing disposable oxygen inhalation humidification bottles of different types.

3. The liquid collecting box body can intensively collect the residual humidifying liquid polluted in the disposable oxygen-absorbing humidifying bottle, so that the residual humidifying liquid is prevented from flowing everywhere in the liquid discharging process, and the sterilizing component arranged on the side surface of the liquid collecting box body can primarily sterilize the humidifying liquid flowing into the liquid collecting box body, so that cross infection is prevented from being caused.

Drawings

FIG. 1 is a simplified overall schematic diagram of a disposable oxygen inhalation humidification bottle drain of the present utility model;

FIG. 2 is a simplified schematic top view of a disposable oxygen inhalation humidification bottle drain of the present utility model.

List of reference numerals

1: a bottle holding module; 110: an inclined plate; 111: a liquid discharge hole; 120: a clamping mechanism; 121: a first clip; 122: a second clip; 130: a support column; 140: extending the bracket; 2: an inclination angle module; 210: holding an adjusting handle; 220: a linkage rod; 3: a liquid collecting box body; 311: a first sidewall; 312: a second sidewall; 320: a liquid outlet valve; 330: a sterilization assembly.

Detailed Description

The present utility model will be described in detail with reference to the accompanying drawings.

Example 1

Fig. 1 shows a disposable oxygen-absorbing humidification bottle drainage device, the adjustable bottle body supporting device comprises a bottle holding module 1 for supporting the disposable oxygen-absorbing humidification bottle at a specified angle; the dip angle module 2 is used for adjusting the specified angle of the bottle holding module 1 according to different angles required by liquid discharge of different disposable oxygen inhalation humidification bottles; and the liquid collecting box body 3 is used for carrying out centralized collection treatment on the medical waste liquid.

According to a preferred embodiment, the mouth of the disposable humidification bottle is specially designed, and the oxygen inlet and the oxygen outlet which are perpendicular to each other are formed in such a way that a proper angle must be selected when the humidification liquid in the disposable humidification bottle is to be poured out. For a common disposable oxygen absorption humidification bottle, the liquid is not smooth due to the adoption of transverse or complete vertical inversion modes, and the residual humidification liquid is required to be drained by holding the bottle body for a long time by medical staff, so that the bottle body is inverted at a specific angle to drain the liquid. Therefore, the utility model changes the inclination angle of the inclined plate 110 by operating the holding adjusting handle 210, so that the disposable oxygen-absorbing humidification bottle fixed on the support column 130 by the clamping mechanism 120 can incline at a specified angle and maintain the corresponding inclined state until the residual humidification liquid is completely discharged.

In addition, because the model of the disposable oxygen inhalation humidification bottle used in actual medical treatment daily is different, the conditions that the caliber of the support device is smaller than the outer diameter of the bottle body and the support device cannot be embedded and supported, the caliber of the support device is far greater than the outer diameter of the bottle body and the bottle body slides down and the like easily occur in the bottle body support device with single bottle diameter, and the support requirement cannot be met. Therefore, the utility model can adjust the size of the O-shaped hollow area in the middle section of the clamping mechanism by adjusting the relative distance between the first clamping piece 121 and the second clamping piece 122 of the clamping mechanism 120 above the liquid discharge hole 111, so as to adapt to different bottle sizes, and enable various bottles to be clamped and fixed in the liquid discharge process.

The inclined plate 110 of the bottle holding module 1 is provided with a plurality of clamping mechanisms 120 which are arranged coaxially with the reserved drain holes 111. The middle section of the clamping mechanism 120 is provided with an O-shaped hollow area with adjustable clamping caliber according to different bottle bodies. The axis of the O-shaped hollow area and the circle center of the liquid discharge hole 111 are arranged on the same axis, so that when the bottle body is clamped by the clamping mechanism, the bottle mouth corresponds to the liquid discharge hole.

The link lever 220 of the tilt angle module 2 is connected to the tilt plate 110 capable of performing a circular motion with the axis of the link lever 220 as a rotation axis so as to penetrate the side wall of the liquid collecting tank 3.

Preferably, the first clamping piece 121 and the second clamping piece 122 which are bent in a direction away from each other are arranged at the middle part of the clamping mechanism 120. The front portions of the first clip 121 and the second clip 122 are provided with hollow regions that enable the clip front portions to cross each other at a critical point. Through the hollow area reserved at the front ends of the first clamping piece 121 and the second clamping piece 122, the front ends of the first clamping piece 121 and the second clamping piece 122 can cross each other under the condition of no clamping, so that the first clamping piece 121 and the second clamping piece 122 can have larger clamping caliber in the unfolding state, and the clamping device is suitable for clamping disposable oxygen inhalation humidification bottles of more types.

Preferably, the middle sections of the first clamping piece 121 and the second clamping piece 122 deviate from each other and bend, so that the middle section of the clamping mechanism 120 forms an O-shaped hollow area capable of clamping the bottle body. By applying force to the tail parts of the first clamping piece 121 and the second clamping piece 122, the relative distance between the front parts of the clamping pieces is adjusted, so that the O-shaped hollow area formed by the middle section of the clamping mechanism 120 can adjust the inner diameter according to the size of the clamping bottle body. When the front ends of the first clamping piece 121 and the second clamping piece 122 are away from each other, the clamping mechanism 120 is in an expanded state, and the O-shaped hollow area in the middle section of the clamping mechanism 120 gradually expands and changes along the area. Because the caliber of the O-shaped hollow area of the clamping mechanism 120 can be adjusted, the utility model can adapt to the clamping of disposable oxygen-absorbing humidifying bottles of various types, and the supporting plate does not need to be replaced by medical staff according to the size of the bottle body during liquid discharge, so that the utility model is more flexibly applicable to various disposable oxygen-absorbing humidifying bottles.

Preferably, the first clamping piece 121 is detachably connected with the tail of the second clamping piece 122, so as to be bent in a direction away from the middle section in a direction away from the trend, and form a V-shaped structure capable of moving the front ends of the clamping pieces away from each other in a trend through leverage by using the connection of the clamping pieces as a fulcrum and applying pressure to the tail of the clamping pieces. When the tail parts of the first clamping piece 121 and the second clamping piece 122 are forced, the first clamping piece 121 and the second clamping piece 122 are close to each other, the connecting part of the first clamping piece 121 and the second clamping piece 122 is used as a rotating shaft, and the front end moves away from each other due to leverage, so that the O-shaped hollow area in the middle section of the clamping mechanism is changed in an area expansion trend.

Preferably, opposite side surfaces of the first clip 121 and the second clip 122 are provided with friction structures for preventing the bottle body from sliding down. The friction surface of the O-shaped hollow area of the clamping mechanism 120 is combined with the clamping force provided by the O-shaped hollow area, so that the clamped state of the bottle body in the liquid draining process is firmer, and the problem that the medical staff is required to hold the bottle body in the liquid draining process is solved.

Preferably, an elastic mechanism capable of continuously receiving supporting force tending to separate the tail parts of the first clamping piece 121 and the second clamping piece 122 is arranged at the connection part of the first clamping piece 121 and the second clamping piece 122. The supporting force provided by the elastic mechanism enables the front ends of the first clamping piece 121 and the second clamping piece 122 to continuously move along the approaching trend, so that the O-shaped hollow area of the clamping mechanism 120 continuously provides the clamping force with the extrusion trend for clamping the bottle body, and the firmness of the clamping mechanism 120 for clamping the bottle body is improved. According to a preferred embodiment, the clamping mechanism 120 may also employ a structure in which the rotation of the paddle changes the clip distance and thus the clamping caliber.

Preferably, the clamping mechanism 120 is connected to a support column 130 standing on the side of the drain hole 111 remote from the ground. The axis of the support column 130 is normal to the plane of the inclined plate 110. The same support column 130 can be connected to several clamping mechanisms 120, according to a preferred embodiment one support column 130 is detachably connected to one clamping mechanism 120 by means of an extension bracket 140.

Preferably, the tilting plate 110 rotates in synchronization with the link lever 220 at the same direction and speed under the rotation movement of the link lever 220 about the axis of the link lever 220, such that the tilting plate 110 and the support column 130 connected thereto are tilted at a prescribed angle. According to a preferred embodiment, the prescribed angle is any position between-60 ° and +60° in the counterclockwise direction with the bottom plane of the parallel header tank 3 as the 0 degree starting position.

Preferably, the extension bracket 140 is detachably coupled to the support post 130. The extension bracket 140 is capable of angular rotation about the connection point of the extension bracket 140 to the support post 130 such that the angle formed by the extension bracket 140 and the support post 130 can be adjusted.

Through rotatory extension support 140 for extension support 140 and support column 130 can adjust the inclination of centre gripping bottle, thereby adapt to the inclination demand of more special bottles.

Preferably, the extension bracket 140 and the support post 130 are provided in a telescopic structure.

Preferably, the liquid collecting box body 3 is provided with a plurality of disinfection components 330 which can perform preliminary disinfection treatment on waste liquid flowing into the liquid collecting box body 3 on the side wall which does not penetrate through the linkage rod 220.

Specifically, the sterilizing unit 330 may be an ultraviolet sterilizing device, which performs preliminary sterilization treatment on the waste liquid by using ultraviolet rays, and the sterilizing unit 330 may be a device capable of adding a solid sterilizing agent to the waste liquid for sterilization.

Preferably, a friction structure capable of fixing the linkage rod 220 in the current state after rotation is disposed inside the hole of the liquid collecting box 3 penetrated by the linkage rod 220. Through the frictional interaction of friction structure in the hole of the liquid collecting box body 3 and the linkage rod 220, the inclined plate 110 detachably connected with the linkage rod 220 can maintain an inclined state at a specified angle in the liquid discharging process, the condition that medical staff is required to hold the bottle in the liquid discharging process is avoided, and the liquid discharging work is more convenient.

Preferably, the first side wall 311 and the second side wall 312 of the liquid collecting box 3 opposite thereto are provided with grooves for the inclined plate 110 to rotate on the side near the inclined plate 110. Through the grooves of the first side wall 311 and the second side wall 312 opposite to the first side wall, the inclined plate 110 has a larger moving space in the rotation process, so as to achieve the purpose of smoother rotation adjustment.

Preferably, the inclined plate 110 reduces the opening of the liquid collecting box body 3 and reduces pollution caused by splashing to the outside environment when the disposable oxygen absorption humidifying bottle discharges liquid.

Preferably, a holding adjustment handle 210 detachably connected to the link lever 220 is provided on a side wall surface of the liquid collecting box body 3 facing away from the inclined plate 110. The grip adjustment lever 210 is provided with a concave structure suitable for a grip hand. By holding the adjusting handle 210, medical staff can find an acting point when rotating the linkage rod 220, and the situation that the hand of the medical staff slips from the linkage rod in the operation process is avoided.

Preferably, at least one liquid outlet valve 320 is disposed on the outer surface of the liquid collecting box 3, which can enable the liquid collecting box 3 to be communicated with the external environment of the device to discharge the residual humidifying liquid stored in the liquid collecting box 3. The outlet valve 320 can be switched between an open state and a closed state. When the liquid outlet valve 320 is in a closed state, the discharged liquid from the bottle body can be temporarily stored in the liquid collecting box body 3, so that the situation that the residual humidifying liquid cannot be treated for the first time when the external liquid discharge pool is occupied can be dealt with. When the liquid outlet valve is in an open state, the liquid in the liquid collecting box body 3 can be discharged to an external liquid drain pool. According to a preferred embodiment, the outlet valve 320 may be used directly or may be connected to additional drainage conduits to accommodate more drainage in a medical setting.

Specifically, a liquid sensor can be arranged at a certain height inside the liquid collecting box body 3, when the liquid inside the liquid collecting box body 3 reaches a certain height and contacts the liquid sensor, the liquid sensor can be cooperatively configured to be capable of throwing in the solid disinfectant, the solid disinfectant is thrown into the liquid collecting box body 3 by the disinfection component 330, after the preset time, the liquid outlet valve 320 is opened to intensively discharge the primarily disinfected waste liquid through the liquid outlet valve 320, so that unnecessary waste caused by throwing as much disinfectant into a small amount of waste liquid is avoided.

Preferably, the liquid collecting box body 3 adopts a transparent structure, so that medical staff can observe the internal liquid through the liquid collecting box body 3, and the internal liquid can be discharged in time when the stored liquid is more. According to a preferred embodiment, the liquid collecting box 3 may be provided with a viewing member in such a manner that a transparent member is fitted to a side surface of the liquid collecting box 3.

Preferably, the outer surface of the liquid collecting box body 3 is provided with a stand structure which can stand above the draining tank so that the bottom of the liquid collecting box body 3 is not contacted with the draining tank.

It should be noted that the above-described embodiments are exemplary, and that a person skilled in the art, in light of the present disclosure, may devise various solutions that fall within the scope of the present disclosure and fall within the scope of the present disclosure. It should be understood by those skilled in the art that the present description and drawings are illustrative and not limiting to the claims. The scope of the utility model is defined by the claims and their equivalents. Throughout this document, the word "preferably" is used in a generic sense to mean only one alternative, and not to be construed as necessarily required, so that the applicant reserves the right to forego or delete the relevant preferred feature at any time.

Claims (9)

1. A disposable oxygen inhalation humidifying bottle liquid discharging device, which comprises,

the bottle holding module (1) is used for supporting the disposable oxygen inhalation humidification bottle at a specified angle;

the dip angle module (2) is used for adjusting the specified angle of the bottle holding module (1) according to different angles required by liquid discharge of different disposable oxygen inhalation humidification bottles;

it is characterized in that the method comprises the steps of,

a plurality of clamping mechanisms (120) with O-shaped hollow areas which are coaxially arranged with the reserved drain holes (111) are arranged on the inclined plate (110) of the bottle holding module (1), wherein the O-shaped hollow areas can change the clamping caliber according to different bottle bodies;

the linkage rod (220) of the dip angle module (2) is connected with the dip plate (110) capable of performing circular motion by taking the axis of the connecting rod as a rotating shaft in a mode of penetrating through the side wall of the liquid collecting box body (3), and the side wall of the liquid collecting box body (3) which does not penetrate through the linkage rod (220) is provided with a plurality of disinfection assemblies (330) capable of performing preliminary disinfection treatment on waste liquid flowing into the liquid collecting box body (3).

2. The liquid discharge device of the disposable oxygen inhalation humidification bottle according to claim 1, wherein a first clamping piece (121) and a second clamping piece (122) which are bent in a direction away from each other are arranged at the middle part of the clamping mechanism (120), and hollow areas capable of enabling the front parts of the clamping pieces to cross each other at a critical point are arranged at the front parts of the first clamping piece (121) and the second clamping piece (122);

the relative distance between the front parts of the clamping pieces is adjusted by applying force to the tail parts of the first clamping piece (121) and the second clamping piece (122), so that the middle section of the clamping mechanism (120) forms an O-shaped hollow area with the inner diameter capable of being adjusted according to the size of the clamping bottle body.

3. The disposable oxygen inhalation humidification bottle liquid discharging device according to claim 2, wherein the tail parts of the first clamping piece (121) and the second clamping piece (122) are detachably connected to form a V-shaped structure which can move away from each other in a trend by applying pressure to the tail parts of the clamping pieces and leverage by taking the connecting parts of the clamping pieces as supporting points, wherein the trend of the bending is away from the middle part of the connecting parts of the clamping pieces.

4. A disposable oxygen-absorbing humidification bottle drain according to claim 3, wherein the clamping mechanism (120) is connected with a support column (130) which is arranged on one side of the drain hole (111) far away from the ground through an extension bracket (140).

5. The liquid discharging device for disposable oxygen inhalation humidification bottle according to claim 4, wherein the inclined plate (110) is rotated synchronously with the link lever (220) in the same direction under the rotation movement of the link lever (220) with the axis of the link lever (220) as the rotation axis, so that the inclined plate (110) and the support column (130) connected with the inclined plate (110) are inclined at a prescribed angle.

6. The disposable oxygen-absorbing humidification bottle drain device of claim 5, wherein the extension bracket (140) is rotatable about a connection point of the extension bracket (140) with the support post (130).

7. The liquid discharging device of the disposable oxygen inhalation humidification bottle according to claim 1, wherein a holding adjusting handle (210) detachably connected with the linkage rod (220) is arranged on a side wall surface of the liquid collecting box body (3) which is away from the inclined plate (110).

8. The liquid discharging device for the disposable oxygen inhalation humidification bottle according to claim 1, wherein a friction structure capable of fixing the linkage rod (220) in a current state until the next adjustment after rotating is arranged inside a hole of the liquid collecting box body (3) penetrated by the linkage rod (220).

9. The liquid discharging device for the disposable oxygen-absorbing humidification bottle according to claim 1, wherein at least one liquid outlet valve (320) capable of enabling the liquid collecting box body (3) to be communicated with the external environment of the device and discharging residual humidification liquid stored in the liquid collecting box body (3) is arranged on the outer surface of the liquid collecting box body (3), and the liquid outlet valve (320) can be switched between an opening state and a closing state.