CN215351301U - Oxygen inhalation and atomization inhalation integrated humidifying bottle device - Google Patents

Abstract

The utility model discloses an oxygen inhalation and atomization inhalation integrated humidification bottle device which comprises an oxygen flow device and a humidification bottle arranged below the oxygen flow device, wherein an oxygen inlet channel is arranged at the bottom of the oxygen flow device, an atomization switching mechanism is arranged on the oxygen flow device, the atomization switching mechanism comprises a switching sliding groove communicated with the side surface of the oxygen inlet channel and an atomization tube slidably arranged in the switching sliding groove, a connecting hole and an atomization channel which are communicated with the oxygen inlet channel are formed in the atomization tube, and when a user needs to perform atomization inhalation, the atomization tube is pushed inwards, so that the atomization channel and the oxygen inlet channel can be communicated through the connecting hole, and the atomization inhalation and humidification inhalation functions of the device are simply switched.

Description

Oxygen inhalation and atomization inhalation integrated humidifying bottle device

Technical Field

The utility model relates to the field of medical equipment, in particular to an oxygen inhalation and atomization inhalation integrated humidifying bottle device.

Background

Clinically, patients with dyspnea such as hypoxemia need to take oxygen for a long time, while medical treatment is dry oxygen, and the oxygen in the air is different from natural air and contains certain moisture. The dry oxygen can stimulate the upper respiratory tract of a person to cause discomfort, so that the humidification bottle is needed to humidify the oxygen firstly when the oxygen is inhaled in order to prevent the dry oxygen from being directly inhaled by the patient and prevent the mucosa of the airway from being damaged.

At present, a float-type oxygen humidifier is commonly used for oxygen humidification and oxygen inhalation treatment in medical institutions and comprises an oxygen flow device above and a humidification bottle arranged below the oxygen flow device. During the use, earlier oxygen supply apparatus and oxygen flow device's oxygen suppliment articulate, oxygen that oxygen supply apparatus carried enters into oxygen flow device through oxygen suppliment joint after, can pass through the inside flow control knob of oxygen flow device and flow tube in proper order and enter into the oxygen passageway, then in entering into the humidifying bottle through the humidifying pipe with entering oxygen passageway and being connected, oxygen after the humidifying upwards can follow oxygen therapy joint department and discharge behind the humidifying oxygen passageway in the oxygen flow device, the user use oxygen uptake equipment with oxygen articulate back, can begin the oxygen uptake.

However, the existing float-type oxygen humidifier can not be directly used for medicine atomization, and the atomization device and the oxygen delivery joint can be connected only after water in the humidification bottle is poured out or the dry humidification bottle is replaced, so that the operation time of medical personnel is wasted.

SUMMERY OF THE UTILITY MODEL

Aiming at the problems, the utility model provides an oxygen inhalation and atomization inhalation integrated humidifying bottle device which has the advantages of switchable atomization inhalation and humidification inhalation and simple operation.

The technical scheme of the utility model is as follows: an oxygen inhalation and atomization inhalation integrated humidifying bottle device comprises an oxygen flow device and a humidifying bottle arranged below the oxygen flow device, wherein an oxygen inlet channel is arranged at the bottom of the oxygen flow device, the oxygen inlet channel is connected with a humidifying pipe, one end of the humidifying pipe, which is far away from the oxygen inlet channel, is inserted into the humidifying bottle, an atomization switching mechanism is arranged on the oxygen flow device, the atomization switching mechanism comprises a switching sliding groove communicated with the side surface of the oxygen inlet channel and an atomizing pipe which is slidably arranged in the switching sliding groove, one end of the atomizing pipe extends out of the switching sliding groove, one end of the atomizing pipe extending out of the switching sliding groove is provided with an atomization joint, an atomization channel is arranged in the atomizing pipe, one end of the atomization channel is communicated with the atomization joint, and the other end of the atomization channel is communicated with a connecting hole arranged on the side wall of the atomization pipe, the one end that the atomizing pipe kept away from the atomizing connects is equipped with the reference column, the lateral wall that goes into the oxygen passageway corresponds reference column department be equipped with the constant head tank that the reference column suited, and work as the reference column with when the constant head tank is connected, go into the oxygen passageway with the connecting hole intercommunication.

The working principle of the technical scheme is as follows: when the oxygen supply device is used, a user can connect oxygen supply equipment such as an oxygen tank and the like with an oxygen supply joint of the oxygen flow device, and oxygen conveyed by the oxygen supply device enters the oxygen flow device through the oxygen supply joint and then enters an oxygen inlet channel through a flow regulating knob and a flow tube in the oxygen flow device in sequence; at the moment, if a user needs to humidify and inhale oxygen, the atomization tube does not need to be pushed, oxygen still enters the humidification bottle from the humidification tube, and humidified oxygen upwards reenters a humidified oxygen channel in the oxygen flow device and then is discharged from the oxygen delivery joint; when the user need carry out the atomizing and inhale, then will the atomizing pipe is inwards promoted, makes the reference column with the constant head tank is connected, at this moment, goes into the oxygen passageway and is cuted by the atomizing pipe, and go into the oxygen passageway direct with connecting hole intercommunication on the atomizing pipe, the oxygen that goes into in the oxygen passageway promptly can enter into from the connecting hole the atomizing passageway, and follow the atomizing connects the department to discharge, the user use atomization plant with after the atomizing connects, can the atomizing inhale.

In a further technical scheme, the inner wall of the positioning groove and the positioning column are respectively provided with corresponding external threads and internal threads.

In this scheme promptly, reference column and constant head tank pass through the mode connection of screw thread, very big reduction when the atomizing is inhaled, the unexpected gliding possibility of atomizing pipe.

In a further technical scheme, the reference column is close to an pot head of atomizing pipe is equipped with rubber seal ring, the inner wall of constant head tank be equipped with the ring channel that rubber seal ring suited works as the reference column with behind the constant head tank threaded connection, rubber seal ring is accomodate in the ring channel.

In the scheme, one end of the atomizing pipe is sleeved with the rubber sealing ring, so that the phenomenon that oxygen entering the oxygen channel leaks out of the switching sliding groove when the device is humidified and inhaled to influence the humidifying and oxygen inhalation effect is avoided; simultaneously, also be convenient for when atomizing oxygen uptake, the user can judge whether reference column and constant head tank are accurately connected to guarantee when atomizing oxygen uptake, go into the oxygen passageway with the connecting hole intercommunication.

In a further technical scheme, the last cover of atomizing pipe is equipped with the spacing ring, just be equipped with on the inner wall of switching sliding tray and be used for the gliding spacing groove of spacing ring, work as the reference column is whole to be located when switching the sliding tray, the spacing ring with one side that the oxygen passageway was kept away from to the spacing groove contacts.

In this scheme promptly, the cover is equipped with the spacing ring on the atomizing pipe, just be equipped with on the inner wall of switching sliding tray and be used for the gliding spacing groove of spacing ring to avoid the atomizing pipe to be taken out completely from switching the sliding tray, lead to oxygen to reveal, and switch the sliding tray and receive the pollution.

In a further technical scheme, be equipped with the joint cap on the atomizing connects, the joint cap with atomizing pipe threaded connection, and after joint cap and atomizing pipe threaded connection, the reference column is all located switch the sliding tray.

In this scheme promptly, be equipped with on the atomizing connects and connect the cap to avoid the atomizing to connect and receive the pollution when not using, simultaneously, cover as the cap spiral that connects after the atomizing connects, the atomizing pipe is also by spacing slip, thereby has avoided when the humidifying inhales, and the atomizing pipe is unexpected to slide.

The beneficial effects of the utility model include:

1. in this scheme, when the user need carry out the aerosol inhalation, will the atomizing pipe is inside to be promoted, makes the reference column with the constant head tank is connected, can the aerosol inhalation, simple and easy realization the aerosol inhalation with the switching of humidifying suction function.

2. In this scheme, reference column and constant head tank pass through threaded mode and connect, very big reduction when the atomizing is inhaled, the unexpected gliding possibility of atomizing pipe.

3. In the scheme, one end of the atomizing pipe is sleeved with the rubber sealing ring, so that the phenomenon that oxygen entering the oxygen channel leaks out of the switching sliding groove to influence the humidifying and oxygen absorbing effect when the device is humidified and absorbed is avoided; simultaneously, also be convenient for when atomizing oxygen uptake, the user can judge whether reference column and constant head tank are accurately connected to guarantee when atomizing oxygen uptake, go into the oxygen passageway with the connecting hole intercommunication.

4. In this scheme, the cover is equipped with the spacing ring on the atomizing pipe, just be equipped with on the inner wall of switching sliding tray and be used for the gliding spacing groove of spacing ring to avoid the atomizing pipe to be taken out completely from switching the sliding tray, lead to oxygen to reveal, and switch the sliding tray and receive the pollution.

5. In this scheme, be equipped with on the atomizing connects and connect the cap to avoid the atomizing to connect and receive the pollution when not using, simultaneously, cover as the cap spiral that connects after the atomizing connects, the atomizing pipe is also by spacing slip, thereby has avoided when the humidifying inhales, and the atomizing pipe is unexpected to slide.

Drawings

FIG. 1 is a schematic structural diagram of an integrated humidifying bottle device for oxygen inhalation and aerosol inhalation, disclosed in the embodiments of the present invention;

fig. 2 is a schematic structural view of the atomizing switching mechanism in fig. 1;

description of reference numerals:

10-oxygen flow device, 20-humidification bottle, 30-atomization tube, 31-switching sliding groove, 32-limiting groove, 33-positioning groove, 101-flow tube, 102-flow adjusting knob, 103-oxygen delivery joint, 104-oxygen supply joint, 105-humidification oxygen channel, 106-oxygen inlet channel, 201-humidification tube, 301-atomization joint, 302-joint cap, 303-limiting ring, 304-atomization channel, 305-connecting hole, 306-rubber sealing ring, 307-positioning column and 330-annular groove.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

As shown in fig. 1 and 2:

the utility model provides an oxygen inhales and inhales integral type humidifying bottle device with atomizing, includes oxygen flow device 10 and installs humidifying bottle 20 in oxygen flow device below, the bottom of oxygen flow device 10 is equipped with into oxygen passageway 106, it is connected with humidifying pipe 201 to go into oxygen passageway 106, humidifying pipe 201 is kept away from the one end of going into oxygen passageway 106 and is inserted in humidifying bottle 20, be equipped with the atomizing switching mechanism on the oxygen flow device 10, the atomizing switching mechanism include with the switching sliding tray 31 and the slidable mounting that go into the side intercommunication of oxygen passageway 106 switch over the atomizing pipe 30 in the sliding tray 31, the one end of atomizing pipe 30 is visited out switching sliding tray 31, and the one end that atomizing pipe 30 visited out switching sliding tray 31 is equipped with atomizing joint 301, be equipped with atomizing passageway 304 in the atomizing pipe 30, atomizing passageway 304 one end with atomizing joint 301 communicates, the other end of atomizing passageway 304 and the connecting hole 305 that sets up on the lateral wall of atomizing pipe 30 communicate, atomizing pipe 30 is kept away from the one end of atomizing joint 301 is equipped with reference column 307, the lateral wall of income oxygen passageway 106 corresponds reference column 307 department is equipped with reference column 307 suits's constant head tank 33, and works as reference column 307 with when constant head tank 33 is connected, go into oxygen passageway 106 with connecting hole 305 communicates.

In this embodiment, the oxygen flow device 10 may be a conventional float-type oxygen flow device, and the oxygen flow device 10 is respectively provided with an oxygen supply joint 104 for connecting with an oxygen supply apparatus such as an oxygen tank, a flow adjusting knob 102 for adjusting the oxygen flow, a flow tube 101 for reading the oxygen flow, a humidified oxygen channel 105 for receiving humidified oxygen in the humidification bottle 20, and an oxygen delivery joint 103 for outputting humidified oxygen. When in use, a user can connect an oxygen supply device such as an oxygen tank to the oxygen supply connector 104 of the oxygen flow device 10, and after oxygen supplied by the oxygen supply device enters the oxygen flow device 10 through the oxygen supply connector 104, the oxygen sequentially enters the oxygen inlet channel 106 through the flow adjusting knob 102 and the flow tube 101 inside the oxygen flow device 10; at this time, if the user needs to humidify and inhale oxygen, the atomizing tube 30 does not need to be pushed, the oxygen still enters the humidifying bottle 20 from the humidifying tube 201, and the humidified oxygen enters the humidified oxygen channel 105 in the oxygen flow device 10 again and then is discharged from the oxygen delivery joint 103; when the user needs to atomize and inhale, the atomizing tube 30 is pushed inwards, so that the positioning column 307 is connected with the positioning groove 33, at this time, the oxygen inlet channel 106 is cut off by the atomizing tube 30, and the oxygen inlet channel 106 is directly communicated with the connecting hole 305 on the atomizing tube 30, namely, oxygen in the oxygen inlet channel 106 enters the atomizing channel 304 from the connecting hole 305 and is discharged from the atomizing joint 301, and the user can atomize and inhale after using atomizing equipment and the atomizing joint 301 are connected.

In another embodiment, the inner wall of the positioning groove 33 and the positioning column 307 are respectively provided with corresponding external threads and internal threads.

That is, in this embodiment, the positioning column 307 and the positioning slot 33 can be connected by a screw thread, and after the positioning column 307 is completely screwed into the positioning slot 33, the connecting hole 305 faces the oxygen feeding direction of the oxygen feeding channel 106, so as to greatly reduce the possibility that the atomizing pipe 30 accidentally slides during atomizing inhalation.

In another embodiment, a rubber sealing ring 306 is sleeved on one end of the positioning column 307 close to the atomizing tube 30, an annular groove 330 adapted to the rubber sealing ring 306 is formed on the inner wall of the positioning groove 33, and after the positioning column 307 is spirally connected to the positioning groove 33, the rubber sealing ring 306 is received in the annular groove 330.

That is, the rubber sealing ring 306 in this embodiment is located in the switching sliding groove 31 when humidifying and absorbing oxygen, so that oxygen entering the oxygen channel 106 leaks out of the switching sliding groove 31 when humidifying and absorbing oxygen, and the humidifying and oxygen absorbing effect is affected; meanwhile, when the oxygen inhalation mask is used for atomizing oxygen inhalation, a user can conveniently judge whether the positioning column 307 is accurately connected with the positioning groove 33 according to the hand feeling during rotation, so that the oxygen inlet channel 106 is communicated with the connecting hole 305 during the oxygen inhalation mask.

In another embodiment, in order to prevent the atomizing tube 30 from being completely drawn out from the switching sliding groove 31, which may cause oxygen leakage, and the switching sliding groove 31 from being contaminated, the atomizing tube 30 is sleeved with a limiting ring 303, and a limiting groove 32 for the limiting ring 303 to slide is disposed on an inner wall of the switching sliding groove 31, when the positioning column 307 is fully located in the switching sliding groove 31, the limiting ring 303 contacts with a side of the limiting groove 32 away from the oxygen inlet channel 106.

In another embodiment, a joint cap 302 is disposed on the atomizing joint 301, the joint cap 302 is in threaded connection with the atomizing pipe 30, and after the joint cap 302 is in threaded connection with the atomizing pipe 30, the positioning posts 307 are all located in the switching sliding groove 31.

That is, in the present embodiment, the atomizing adapter 301 is provided with the adapter cap 302, so as to prevent the atomizing adapter 301 from being contaminated when not in use; meanwhile, after the connector cap 302 covers the atomizing connector 301 in a spiral manner, the tendency of the atomizing tube 302 to slide towards the oxygen inlet channel 106 is limited, so that the atomizing tube 30 is prevented from sliding accidentally during humidification and inhalation.

The above-mentioned embodiments only express the specific embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention.

Claims (5)

1. An oxygen inhalation and atomization inhalation integrated humidifying bottle device comprises an oxygen flow device and a humidifying bottle arranged below the oxygen flow device, wherein an oxygen inlet channel is arranged at the bottom of the oxygen flow device, the oxygen inlet channel is connected with a humidifying pipe, one end of the humidifying pipe, which is far away from the oxygen inlet channel, is inserted into the humidifying bottle, the oxygen inhalation and atomization integrated humidifying bottle device is characterized in that an atomization switching mechanism is arranged on the oxygen flow device, the atomization switching mechanism comprises a switching sliding groove communicated with the side surface of the oxygen inlet channel and an atomizing pipe which is slidably arranged in the switching sliding groove, one end of the atomizing pipe extends out of the switching sliding groove, one end of the atomizing pipe extending out of the switching sliding groove is provided with an atomization joint, an atomization channel is arranged in the atomization pipe, one end of the atomization channel is communicated with the atomization joint, and the other end of the atomization channel is communicated with a connecting hole arranged on the side wall of the atomization pipe, the one end that the atomizing pipe kept away from the atomizing connects is equipped with the reference column, the lateral wall that goes into the oxygen passageway corresponds reference column department be equipped with the constant head tank that the reference column suited, and work as the reference column with when the constant head tank is connected, go into the oxygen passageway with the connecting hole intercommunication.

2. The integrated humidifying bottle device for oxygen inhalation and aerosol inhalation as claimed in claim 1, wherein the inner wall of the positioning groove and the positioning column are respectively provided with corresponding external threads and internal threads.

3. The humidification bottle device integrating oxygen inhalation and aerosol inhalation as claimed in claim 2, wherein a rubber sealing ring is sleeved on one end of the positioning column close to the atomization tube, an annular groove adapted to the rubber sealing ring is formed in the inner wall of the positioning groove, and when the positioning column is spirally connected with the positioning groove, the rubber sealing ring is accommodated in the annular groove.

4. The oxygen inhalation and aerosol inhalation integrated humidification bottle device of claim 1, wherein the atomization tube is sleeved with a limiting ring, the inner wall of the switching sliding groove is provided with a limiting groove for the limiting ring to slide, and when the positioning column is located in the switching sliding groove, the limiting ring is in contact with one side of the limiting groove far away from the oxygen inlet channel.

5. The integrated humidification bottle device for oxygen inhalation and atomization inhalation as claimed in claim 1, wherein a connector cap is arranged on the atomization connector, the connector cap is in threaded connection with the atomization tube, and after the connector cap is in threaded connection with the atomization tube, the positioning columns are all located in the switching sliding grooves.

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