CN203647817U - Integrated oxygen inhalation and atomization device - Google Patents

Abstract

The utility model discloses an integrated oxygen inhalation and atomization device which comprises a connecting body, a humidifying bottle connected with the connecting body and a flow meter connected with the connecting body, wherein the connecting body is provided with an oxygen inlet, an atomization interface and an oxygen inhalation interface; an atomization and oxygen inhalation converting device connected with the oxygen inlet, the atomization interface and the oxygen inhalation interface is mounted in the connecting body. The integrated oxygen inhalation and atomization device has the benefits that the structure is simple, and the manufacture is easy; the difficulty that the conversion between oxygen inhalation and atomization is not easy is solved, so that a nurse can freely carry out conversion between the atomization and the oxygen inhalation as required; the operation is very simple; not only can patients be timely, effectively and safely treated, but also the labor intensity of the nurse is reduced, and the working efficiency is improved.

Description

Integral type oxygen absorption atomization plant

Technical field

This utility model relates to technical field of medical instruments, relates in particular a kind of device that collects oxygen uptake and be atomized on one.

Background technology

In the process of patient being treated in hospital, according to patient's state of an illness, need to carry out oxygen uptake, some patient is carried out to atomized medicine introducing treatment some patient.In oxygen uptake, for it is moistening to guarantee to enter the oxygen of patient pulmonary, after the oxygen of coming from gas tank is need to be first moistening through humidification bottle, just passes through Oxygen tube and enter patient's respiratory tract; Atomized medicine introducing is that to utilize medical vaporizer that high speed oxygen or air flow are blown out liquid vaporific, can eliminate local inflammation, edema, spasmolytic and moisture absorption sputum etc. after entering patient's respiratory tract.For example, the Chinese invention patent of public announcement of a patent application CN 103239787A, Shen Qing Publication day 2013.08.14 discloses a kind of oxygen suction humidifying bottle, humidification bottle is connected with graded tube by interface channel, on graded tube, be provided with graded tube scale, be provided with humidification bottle scale on humidification bottle, graded tube upper end arranges filling opening, humidification bottle bottom one side arranges air inlet pipe, humidification bottle low side is base, and humidification bottle top arranges bottle cap, sets out trachea on bottle cap.

In actual therapeutic process, some patients not only need oxygen uptake but also need medical liquid atomizing treatment, if adopt two kinds of different devices to operate, need to change frequently, very loaded down with trivial details, not only increase nurse's work load, reduce work efficiency, and nebulizer pipeline uses after also needing repeatedly to sterilize because different patient uses, use inconveniently, and there is the risk of potential cross infection.For this reason, the method that mostly adopts oxygen supply device to carry out oxygen uptake and atomization in hospital, such method is simple to operate, easy to use, but find in practice, while utilizing oxygen supply device to carry out nebulae inhalation, humidification bottle in oxygen supply device is without any effect, oxygen required when atomization is without process humidification bottle humidifying, on the contrary, while reaching 8-10L/min because of the required oxygen flow of atomization, could make fully medicinal atomized, this flow required amount of oxygen far away higher than oxygen uptake time, and nebulisation time is generally at 15-20min, in atomization process, part distilled water in humidification bottle inevitably will enter in connection tube and nebulizer under high flow capacity Oxygen Flow is impacted for a long time, cause drug level to reduce and resistance of ducting increase, reduce atomizing effect, partially liq is also because squirting patient's face, and sucked air flue by patient, cause patient's discomfort, even may cause the mistake of large quantity of moisture to inhale to patient and bring harm, therefore, for guaranteeing patient's safety, before atomization, all need to outwell the water in humidification bottle, and this has increased nurse's workload.

Utility model content

The purpose of this utility model is to provide for the deficiencies in the prior art part, a kind of integral type oxygen absorption atomization plant is provided, can overcome the deficiencies in the prior art part, it can make freely to change between oxygen uptake and atomization, very convenient, significantly reduce nurse's working strength, guaranteed patient's safety.

In order to solve the problems of the technologies described above, the technical solution of the utility model is as follows: integral type oxygen absorption atomization plant, comprises the humidification bottle that connector is connected with connector and the flow meter being connected with described connector; Described connector is provided with oxygen inlet, atomization interface and oxygen uptake interface, and the atomization oxygen inhalation conversion device being connected with described oxygen inlet, atomization interface and oxygen uptake interface is installed in described connector.

By the setting of atomization oxygen inhalation conversion device, make nurse be able to the needs according to conditions of patients, when making atomization, do not need through humidification bottle, in oxygen uptake, just pass through humidification bottle, significantly reduce nurse's working strength, guaranteed patient's safety.

As preferably, described atomization oxygen inhalation conversion device comprises fixed body, described fixed body be provided with that installation cavity and described oxygen inlet are communicated with and and the atomization that is communicated with of the inlet hole that communicates of described installation cavity and described atomization interface by hole and and the oxygen uptake that is communicated with of described oxygen uptake interface pass through hole; In described installation cavity, install for controlling described inlet hole and described atomization and pass through the rotary valve of hole break-make by hole, oxygen uptake.

As preferably, described rotary valve comprises valve body, and described valve body is provided with axial transitions hole that the bottom outlet that is connected with described inlet hole and described bottom outlet be communicated with and and the radial direction through hole that is communicated with of described axial transitions hole.

As preferably, described atomization by hole and described oxygen uptake by hole angle in 90 °; Described radial direction through hole is two, and becomes 120 ° of angles.

As preferably, described valve body outer circumference surface is provided with the sealing rings of two and the sealing of described installation cavity.

As preferably, the choke valve for adjusting described inlet hole charge flow rate is installed in described valve body.

As preferably, described transitional pore comprise screwed hole that the interconnecting hole that is communicated with described bottom outlet and described interconnecting hole are communicated with and and the outer connecting hole that is communicated with of described screwed hole; Described choke valve comprises throttling valve core, described throttling valve core comprise the outer joint pin that is arranged in described outer connecting hole and described screwed hole bolt outer double-screw bolt and and the taper valve core of described outer Stud connection, described bottom outlet is the bellmouth matching with described taper valve core.

By choke valve, the oxygen flow entering is regulated, with practical requirement.

As preferably, the O type circle for sealing described outer joint pin is installed in described outer connecting hole.

As preferably, described outer joint pin end is provided with adjusting knob.

This utility model beneficial effect is:

Simple in structure, easy to manufacture, solve a difficult problem that is not easy conversion between oxygen uptake in the past and atomization, nurse can be changed as required freely between atomization and oxygen uptake, its operation is very simple, safe and effective while having guaranteed patient treatment, also the labor intensity that has reduced nurse, has improved work efficiency.

Accompanying drawing explanation

Below in conjunction with accompanying drawing, this utility model is described further:

Fig. 1 is the structural representation of an embodiment of the present utility model;

Fig. 2 is A-A cutaway view in Fig. 1;

Fig. 3 is that valve body is arranged on the schematic diagram in installation cavity.

In figure:

1, support, 2, electric cable rotary conveyer device, 201, disc, 202, rotating shaft, 203, the first reducing motor, 204, annular recess, 205, dop, 3, tube for transfusion rotationally conveying device, 301, rotating disk, 302, rotating shaft, 303, the second reducing motor, 304, annular groove, 3305, spacing plush copper; 4, swivel head.

The specific embodiment

The following stated is only preferred embodiment of the present utility model, not scope of the present utility model is limited.

Embodiment, see accompanying drawing 1,2,3, integral type oxygen absorption atomization plant, comprise the humidification bottle 2 that connector 1 is connected with connector 1 and the flow meter 3 being connected with described connector 1, humidification bottle 2 is interior can splendid attire water, is used for making through oxygen moistening, and the bottle of humidification bottle and connector 1 lower end are spirally connected fixing, same, flow meter 3 and connector 1 upper end are spirally connected fixing; Described connector 1 is provided with oxygen inlet 101, atomization interface 102 and oxygen uptake interface 103, oxygen inlet 101 is used for connecting source of oxygen, oxygen is provided, atomization interface 102 and oxygen uptake interface 103 are used for respectively atomization and oxygen uptake, corresponding joint is installed on it, in order to realize fast the conversion of atomization and oxygen uptake, break-make to oxygen inlet 101 and atomization interface 102, oxygen uptake interface 103 is controlled, and the atomization oxygen inhalation conversion device 4 being connected with described oxygen inlet 101, atomization interface 102 and oxygen uptake interface 103 is installed in described connector 1.

Described atomization oxygen inhalation conversion device 4 comprises fixed body 401, fixed body 401 is arranged in connector 1, in connector 1, be provided with the chamber coordinating with fixed body 401, fixed body can be spirally connected or the mode of interference fit is arranged on intracavity, fixed body 401 can be cylinder or cuboid, in described fixed body 401, be provided with that installation cavity 402 and described oxygen inlet 101 be communicated with and and the atomization that is communicated with of the inlet hole 403 that communicates of described installation cavity 402 and described atomization interface 102 by hole 404 and and the oxygen uptake that is communicated with of described oxygen uptake interface 103 by hole 405, the interior installation of described installation cavity 402 is used for controlling described inlet hole 403 and passes through hole 404 with described atomization, oxygen uptake is by the rotary valve 406 of hole 405 break-makes, rotary valve 406 controls described inlet hole 403 by rotation and described atomization is passed through hole 405 break-makes by hole 404 or oxygen uptake, further, described rotary valve 406 comprises valve body 40601, valve body is circular tube shaped, described valve body 40601 is provided with the bottom outlet 40602 being connected with described inlet hole 403, the axial transitions hole 40603 being communicated with described bottom outlet 40602 and and the radial direction through hole 40604 that is communicated with of described axial transitions hole 40603, further, described atomization is passed through hole 405 angle in 90 ° by hole 404 and described oxygen uptake, described radial direction through hole 40604 is two, and becomes 120 ° of angles, in order to guarantee sealing property, prevents from revealing, and described valve body 40601 outer circumference surfaces are provided with two sealing rings 407 that seal with described installation cavity 402.

Further, in order to adjust the flow that enters of oxygen, choke valve for adjusting described inlet hole 403 charge flow rates is installed in described valve body 40601, described transitional pore 40603 comprise screwed hole that the interconnecting hole that is communicated with described bottom outlet 40602 and described interconnecting hole are communicated with and and the outer connecting hole that is communicated with of described screwed hole; Described choke valve comprises throttling valve core 408, described throttling valve core 408 comprise the outer joint pin that is arranged in described outer connecting hole and described screwed hole bolt outer double-screw bolt and and the taper valve core of described outer Stud connection, the bellmouth of described bottom outlet 40602 for matching with described taper valve core; Realize the cooperation between itself and bottom outlet 40602 by rotary barrel throttle core 408, adjust opening degree between the two, and then oxygen flow is controlled, in order to guarantee sealing, prevent from revealing, the O type circle 409 for sealing described outer joint pin is installed in described outer connecting hole, for the ease of adjusting, described outer joint pin end is provided with adjusting knob 410, and described valve body 40601 ends are provided with turn-knob 411.

In work, rotate by turn-knob 411, realizing band moving valve 40601 rotates, in the time that needs carry out atomization, radial direction through hole 40604 and atomization are communicated with by hole 404, and then connect with atomization interface 102, this time, oxygen was directly without humidification bottle, directly enter atomization interface, carry out medical liquid atomizing; In the time of needs oxygen uptake, rotation turn-knob 411, realizing band moving valve 40601 rotates, make radial direction through hole 40604 and atomization obstructed by hole 404, and be communicated with by hole 405 with oxygen uptake, oxygen uptake is communicated with by hole 405 and humidification bottle, and oxygen, through entering oxygen uptake interface 103 through after humidification bottle, finally enters in patient's body again; In the time that needs regulate oxygen flow, rotary barrel throttle core 408.

More than explanation is only to explanation of the present utility model, make those of ordinary skills' can completely implement this programme, but be not to restriction of the present utility model, those skilled in the art are reading after this description and can make to the present embodiment the modification that there is no creative contribution as required, and these are all not creative modifications.But as long as within the scope of claim of the present utility model, be all subject to the protection of Patent Law.

Claims (8)

1. integral type oxygen absorption atomization plant, comprises the humidification bottle (2) that connector (1) is connected with connector (1) and the flow meter (3) being connected with described connector (1); It is characterized in that: described connector (1) is provided with oxygen inlet (101), atomization interface (102) and oxygen uptake interface (103), the atomization oxygen inhalation conversion device (4) being connected with described oxygen inlet (101), atomization interface (102) and oxygen uptake interface (103) is installed in described connector (1); Described atomization oxygen inhalation conversion device (4) comprises fixed body (401), described fixed body (401) be provided with that installation cavity (402) and described oxygen inlet (101) are communicated with and and the atomization that is communicated with of the inlet hole (403) that communicates of described installation cavity (402) and described atomization interface (102) by hole (404) and and the oxygen uptake that is communicated with of described oxygen uptake interface (103) by hole (405); The interior installation of described installation cavity (402) is used for controlling described inlet hole (403) and passes through the rotary valve (406) of hole (405) break-make with described atomization by hole (404), oxygen uptake.

2. integral type oxygen absorption atomization plant according to claim 1, it is characterized in that: described rotary valve (406) comprises valve body (40601), described valve body (40601) is provided with the bottom outlet (40602) and the axial transitions hole (40603) of described bottom outlet (40602) connection and the radial direction through hole (40604) being communicated with described axial transitions hole (40603) that are connected with described inlet hole (403).

3. integral type oxygen absorption atomization plant according to claim 2, is characterized in that: described atomization is passed through hole (405) angle in 90 ° by hole (404) and described oxygen uptake; Described radial direction through hole (40604) is two, and becomes 120 ° of angles.

4. integral type oxygen absorption atomization plant according to claim 2, is characterized in that: described valve body (40601) outer circumference surface is provided with two sealing rings (407) that seal with described installation cavity (402).

5. integral type oxygen absorption atomization plant according to claim 2, is characterized in that: the choke valve for adjusting described inlet hole (403) charge flow rate is installed in described valve body (40601).

6. integral type oxygen absorption atomization plant according to claim 5, is characterized in that: described transitional pore (40603) comprise with described bottom outlet (40602) be communicated with interconnecting hole and described interconnecting hole be communicated with screwed hole and and described screwed hole be communicated with outer connecting hole; Described choke valve comprises throttling valve core (408), described throttling valve core (408) comprise the outer joint pin that is arranged in described outer connecting hole and described screwed hole bolt outer double-screw bolt and and the taper valve core of described outer Stud connection, the bellmouth of described bottom outlet (40602) for matching with described taper valve core.

7. integral type oxygen absorption atomization plant according to claim 6, is characterized in that: the O type circle (409) for sealing described outer joint pin is installed in described outer connecting hole.

8. integral type oxygen absorption atomization plant according to claim 6, is characterized in that: described outer joint pin end is provided with adjusting knob (410).

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