CN219764183U - Oxygen inhalation auxiliary device - Google Patents

Abstract

The utility model discloses an oxygen inhalation auxiliary device, which comprises an oxygen bottle, a humidifying bottle communicated with the oxygen bottle and an oxygen inhalation cover communicated with the humidifying bottle, wherein an automatic liquid adding mechanism for automatically adding humidifying liquid into the humidifying bottle is arranged outside the oxygen bottle, the automatic liquid adding mechanism comprises a storage bottle fixedly connected to the outer side of the oxygen bottle, the humidifying liquid is contained in the storage bottle, an adding pipe A is fixedly communicated with the lower part of the outer side of the storage bottle, one end of the adding pipe A, far away from the storage bottle, is communicated with an adding pipe B fixedly communicated with the upper part of the outer side of the humidifying bottle, and the automatic liquid adding mechanism further comprises a plugging component for automatically plugging the adding pipe B. In the utility model, the following components are added: along with continuous inhalation of oxygen, the automatic liquid adding mechanism can automatically add humidification liquid into the humidification bottle, so that discomfort of a patient caused by the fact that medical staff does not timely add humidification liquid into the humidification bottle is prevented.

Description

Oxygen inhalation auxiliary device

Technical Field

The utility model relates to the technical field of medical equipment, in particular to oxygen inhalation auxiliary equipment.

Background

In emergency nursing departments, oxygen inhalation devices can be used to correct the anoxic state caused by various reasons, so as to promote tissue metabolism of users, thereby maintaining vital activities of the bodies of the users and relieving pains of the users.

Through retrieval, the utility model patent with the Chinese patent number of CN 209221235U discloses an oxygen inhalation device, which comprises an oxygen bottle and a pipe fitting connector, wherein the oxygen bottle is provided with an oxygen output port and a main switch for opening or closing the oxygen output port, a pipeline of the oxygen output port is sequentially connected with a pressure reducing valve, a safety valve and a flow meter, the safety valve is connected with a pressure meter, the flow meter is provided with a flow meter switch, and the pipe fitting connector is detachably connected to the pipeline for conveying oxygen and is distributed up and down with the flow meter. Compared with the prior art, the utility model patent with the Chinese patent number of CN 209221235U is characterized in that the humidifying bottle is independent of the oxygen inhalation device under the condition that the oxygen inhalation device is not used, so that medical staff is not required to regularly sterilize and disinfect the humidifying bottle and tube cores in the humidifying bottle, and the labor intensity of the medical staff is reduced.

However, in the actual use process of the device, along with the continuous progress of oxygen inhalation treatment, the humidification liquid in the humidification bottle can be gradually consumed, and if medical staff does not timely add the humidification liquid into the humidification bottle, discomfort can be caused to a patient and the treatment effect is affected, so that an oxygen inhalation auxiliary device capable of automatically adding the humidification liquid is needed.

Disclosure of Invention

The utility model aims to solve the defect that humidifying liquid cannot be automatically added in the prior art, and provides oxygen inhalation auxiliary equipment.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

an oxygen inhalation auxiliary device comprises an oxygen bottle, a humidifying bottle communicated with the oxygen bottle and an oxygen inhalation cover communicated with the humidifying bottle, wherein an automatic liquid adding mechanism for automatically adding humidifying liquid into the humidifying bottle is arranged outside the oxygen bottle;

the automatic liquid adding mechanism comprises a storage bottle fixedly connected to the outer side of the oxygen bottle, humidifying liquid is contained in the storage bottle, an adding pipe A is fixedly communicated with the lower portion of the outer side of the storage bottle, an adding pipe B fixedly communicated with the upper portion of the outer side of the humidifying bottle is arranged at one end of the adding pipe A, which is far away from the storage bottle, of the storage bottle in a communicating mode, and the automatic liquid adding mechanism further comprises a plugging assembly used for automatically plugging the adding pipe B.

The technical scheme further comprises the following steps:

the adding pipe A is made of a soft rubber pipe, one end of the adding pipe B, which is far away from the humidifying bottle, is fixedly communicated with a conical connector, and the adding pipe A is sleeved outside the conical connector; the adding pipe A can be firmly sleeved outside the adding pipe B.

The plugging assembly comprises a vertical chute arranged on the inner side of the humidifying bottle, the vertical chute is communicated with the adding pipe B, a plugging block used for plugging the end part of the adding pipe B is connected in a sliding manner in the vertical chute, and a reset spring is fixedly connected between the plugging block and the vertical chute; the plugging block slides up and down in the vertical chute; the reset spring is used for assisting the plugging block to reset.

The plugging assembly comprises a fixed rod A and a fixed rod B which are fixedly connected inside the humidifying bottle, a gravity floating block is connected to the outside of the fixed rod A in a sliding manner, a bidirectional telescopic rod is connected to the outside of the fixed rod B in a rotating manner, and two ends of the bidirectional telescopic rod are respectively hinged with the plugging block and the gravity floating block; the gravity of the gravity floating block is larger than the resultant force of the gravity of the plugging block and the deformation force of the return spring, when the liquid level in the humidifying bottle meets the humidifying requirement, the gravity floating block is not completely immersed in the humidifying bottle, and the gravity of the gravity floating block is smaller than the buoyancy of the gravity floating block.

The gravity floating block consists of a floating block base, a square clamping seat and a square gravity block, wherein the square clamping seat is fixedly connected to the top of the floating block base, and the square gravity block is movably connected to the inside of the square clamping seat; the square gravity block can be detached from the inside of the square clamping seat, and the frequency of adding humidifying liquid into the humidifying bottle by the automatic liquid adding mechanism can be changed by changing the mass of the square gravity block.

The outside of the fixed rod A is connected with a sealing sleeve in a sliding way, and the floating block base is fixedly connected to the outside of the sealing sleeve; the sealing sleeve is used for assisting the gravity floating block to slide up and down.

Compared with the prior art, the utility model has the beneficial effects that:

1. in the utility model, the following components are added: along with the continuous inhalation of oxygen, the inside liquid level of humidification bottle descends and makes gravity floating block descend, the in-process that gravity floating block descends, two-way telescopic link can drive the shutoff piece and upwards move along the inner wall of vertical spout for the inside humidification liquid of storage bottle can get into the inside of humidification bottle through adding pipe A and interpolation pipe B, the inside humidification bottle of entering humidification bottle makes its inside liquid level rise, the inside liquid level of humidification bottle rises and makes gravity floating block rise, the in-process that gravity floating block risen, two-way telescopic link can drive the shutoff piece and block up again and add the tip at interpolation pipe B, so can accomplish the automatic interpolation of humidification liquid, prevent that medical personnel from not in time adding humidification liquid to the humidification bottle inside and leading to patient to produce the discomfort.

2. In the utility model, the following components are added: when the liquid level inside the humidifying bottle drops once when the liquid level inside the humidifying bottle drops down to the shape-returning gravity block with larger clamping quality inside the shape-returning clamping seat, the gravity floating block drops after a period of time when the liquid level inside the humidifying bottle drops down to the shape-returning gravity block with smaller clamping quality inside the shape-returning clamping seat, namely, the frequency of adding humidifying liquid inside the humidifying bottle by the automatic liquid adding mechanism can be changed by changing the mass of the shape-returning gravity block.

Drawings

FIG. 1 is a schematic view of an oxygen inhalation aid device according to the present utility model;

FIG. 2 is a schematic view showing an internal cross-section structure of an oxygen inhalation aid device according to the present utility model;

FIG. 3 is an enlarged schematic view of the structure shown in FIG. 2A;

fig. 4 is a schematic structural view of a gravity float in the present utility model.

In the figure: 1. an oxygen cylinder; 2. a humidifying bottle; 3. an oxygen inhalation mask; 4. an automatic liquid adding mechanism; 41. a storage bottle; 42. adding a pipe A; 43. adding a pipe B; 44. a plugging assembly; 441. a vertical chute; 442. a block; 443. a return spring; 444. a fixed rod A; 445. a fixed rod B; 446. a gravity floating block; 4461. a floating block base; 4462. a clip seat in a shape of a rectangle; 4463. a loop-shaped gravity block; 447. a bidirectional telescopic rod; 5. a conical connector; 6. and (5) sealing the sleeve.

Detailed Description

The technical scheme of the utility model is further described below with reference to the attached drawings and specific embodiments.

Example 1

As shown in fig. 1-3, the oxygen inhalation auxiliary device provided by the utility model comprises an oxygen bottle 1, a humidifying bottle 2 communicated with the oxygen bottle 1 and an oxygen inhalation cover 3 communicated with the humidifying bottle 2, wherein the oxygen bottle 1, the humidifying bottle 2, the oxygen inhalation cover 3 and other parts on the oxygen bottle 1, the humidifying bottle 2 and the oxygen inhalation cover 3 are all in the prior art, and are not repeated herein;

the outside of the oxygen bottle 1 is provided with an automatic liquid adding mechanism 4 for automatically adding humidification liquid into the humidification bottle 2, the automatic liquid adding mechanism 4 comprises a storage bottle 41 fixedly connected to the outside of the oxygen bottle 1, the top of the storage bottle 41 is provided with an adding port, the inside of the storage bottle 41 is filled with humidification liquid, the lower part of the outside of the storage bottle 41 is fixedly communicated with an adding pipe A42, the adding pipe A42 is made of a soft rubber pipe, one end of the adding pipe A42, far away from the storage bottle 41, is communicated with an adding pipe B43 fixedly communicated with the upper part of the outside of the humidification bottle 2, one end of the adding pipe B43, far away from the humidification bottle 2, is fixedly communicated with a conical connector 5, the adding pipe A42 is sleeved outside the conical connector 5, and the adding pipe A42 can be firmly sleeved outside the adding pipe B43;

the automatic liquid adding mechanism 4 further comprises a blocking assembly 44 for automatically blocking the adding pipe B43, the blocking assembly 44 comprises a vertical sliding chute 441 arranged on the inner side of the humidification bottle 2, the vertical sliding chute 441 is communicated with the adding pipe B43, a blocking block 442 for blocking the end part of the adding pipe B43 is connected inside the vertical sliding chute 441 in a sliding manner, the blocking block 442 slides up and down inside the vertical sliding chute 441, a reset spring 443 is fixedly connected between the blocking block 442 and the vertical sliding chute 441, and the reset spring 443 is used for assisting the blocking block 442 to reset;

the plugging assembly 44 further comprises a fixed rod A444 and a fixed rod B445 which are fixedly connected inside the humidification bottle 2, the gravity floating block 446 is connected to the outside of the fixed rod A444 in a sliding manner, the gravity of the gravity floating block 446 is larger than the resultant force of the gravity of the plugging block 442 and the deformation force of the reset spring 443, the bidirectional telescopic rod 447 is connected to the outside of the fixed rod B445 in a rotating manner, two ends of the bidirectional telescopic rod 447 are respectively hinged to the plugging block 442 and the gravity floating block 446, when the liquid level inside the humidification bottle 2 meets the humidification requirement, the gravity floating block 446 is not completely immersed inside the humidification bottle 2, and the gravity of the gravity floating block 446 is smaller than the buoyancy suffered by the gravity floating block 446.

In this embodiment: oxygen in the oxygen bottle 1 enters the humidification bottle 2 to be inhaled by a patient through the oxygen hood 3 after humidification, and along with continuous inhalation of the oxygen, humidification liquid in the humidification bottle 2 is consumed to enable the liquid level in the humidification bottle to descend, so that the gravity floating block 446 descends, in the descending process of the gravity floating block 446, the bidirectional telescopic rod 447 rotates around the fixed rod B445, the rotating bidirectional telescopic rod 447 drives the blocking block 442 to move upwards along the inner wall of the vertical sliding chute 441 to squeeze the reset spring 443, and in the upward moving process of the blocking block 442 along the inner wall of the vertical sliding chute 441, humidification liquid in the storage bottle 41 enters the humidification bottle 2 through the adding pipe A42 and the adding pipe B43;

the liquid level inside the humidifying bottle 2 rises due to the entering of the humidifying bottle, the gravity floating block 446 rises due to the rising of the liquid level inside the humidifying bottle 2, and the bidirectional telescopic rod 447 drives the plugging block 442 to be plugged at the end part of the adding pipe B43 again in the rising process of the gravity floating block 446, so that the automatic adding of the humidifying liquid can be completed;

along with the continuous inhalation of oxygen, the automatic liquid adding mechanism 4 can automatically add humidification liquid into the humidification bottle 2, so that the medical staff is prevented from not timely adding humidification liquid into the humidification bottle 2 to cause discomfort of patients.

Example two

As shown in fig. 2-4, based on the first embodiment, the outside of the fixed rod a444 is slidably connected with a sealing sleeve 6, and the sealing sleeve 6 is used for assisting the gravity floating block 446 to slide up and down;

the gravity floating block 446 comprises a floating block base 4461, a square clamping seat 4462 and a square gravity block 4463, wherein the floating block base 4461 is fixedly connected to the outside of the sealing sleeve 6, the square clamping seat 4462 is fixedly connected to the top of the floating block base 4461, the square gravity block 4463 is movably connected to the inside of the square clamping seat 4462, the square gravity block 4463 can be detached from the inside of the square clamping seat 4462, and the frequency of adding humidifying liquid into the humidifying bottle 2 by the automatic liquid adding mechanism 4 can be changed by changing the mass of the square gravity block 4463.

In this embodiment: when the interior of the clip seat 4462 is clipped with a clip gravity block 4463 with larger mass (but the gravity of the gravity floating block 446 is always smaller than the buoyancy force applied by the clip gravity block), once the liquid level in the humidification bottle 2 is lowered, the gravity floating block 446 is immediately lowered, so that the automatic liquid adding mechanism 4 adds humidification liquid into the humidification bottle 2; when the lower-quality square gravity block 4463 is clamped in the square clamping seat 4462 (but the gravity of the gravity floating block 446 is always smaller than the buoyancy force applied to the square gravity block), the gravity floating block 446 can be lowered after the liquid level in the humidifying bottle 2 is lowered for a period of time, so that the automatic liquid adding mechanism 4 can add humidifying liquid into the humidifying bottle 2.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (6)

1. The utility model provides an oxygen uptake auxiliary assembly, includes oxygen bottle (1), with humidifying bottle (2) that oxygen bottle (1) intercommunication set up and with oxygen uptake cover (3) that humidifying bottle (2) intercommunication set up, its characterized in that: an automatic liquid adding mechanism (4) for automatically adding humidifying liquid into the humidifying bottle (2) is arranged outside the oxygen bottle (1);

automatic add liquid mechanism (4) are in including fixed connection storage bottle (41) in oxygen bottle (1) outside, the inside of storage bottle (41) holds the humidifying liquid, the outside lower part fixed intercommunication of storage bottle (41) has interpolation pipe A (42), interpolation pipe A (42) keep away from the one end intercommunication of storage bottle (41) be provided with interpolation pipe B (43) of humidifying bottle (2) outside upper portion fixed intercommunication, automatic add liquid mechanism (4) are still including being used for automatic shutoff interpolation pipe B (43) shutoff subassembly (44).

2. The oxygen inhalation aid device according to claim 1, wherein: the adding pipe A (42) is made of a soft rubber pipe, one end, far away from the humidifying bottle (2), of the adding pipe B (43) is fixedly communicated with the conical connector (5), and the adding pipe A (42) is sleeved outside the conical connector (5).

3. The oxygen inhalation aid device according to claim 1, wherein: the plugging assembly (44) comprises a vertical chute (441) arranged on the inner side of the humidification bottle (2), the vertical chute (441) is communicated with the adding pipe B (43), a plugging block (442) used for plugging the end part of the adding pipe B (43) is slidably connected inside the vertical chute (441), and a reset spring (443) is fixedly connected between the plugging block (442) and the vertical chute (441).

4. The oxygen inhalation aid device according to claim 3, wherein: the plugging assembly (44) comprises a fixed rod A (444) and a fixed rod B (445) which are fixedly connected inside the humidifying bottle (2), a gravity floating block (446) is slidably connected to the outside of the fixed rod A (444), a bidirectional telescopic rod (447) is rotatably connected to the outside of the fixed rod B (445), and two ends of the bidirectional telescopic rod (447) are hinged to the plugging block (442) and the gravity floating block (446) respectively.

5. The oxygen inhalation aid device according to claim 4, wherein: the gravity floating block (446) is composed of a floating block base (4461), a square clamping base (4462) and a square gravity block (4463), wherein the square clamping base (4462) is fixedly connected to the top of the floating block base (4461), and the square gravity block (4463) is movably connected to the inside of the square clamping base (4462).

6. The oxygen inhalation aid device according to claim 5, wherein: the outside sliding connection of dead lever A (444) has seal cover (6), floating block base (4461) fixed connection is in the outside of seal cover (6).