CN213667338U - Device for strengthening oxygen therapy synchronous atomization inhalation treatment pipeline - Google Patents

Abstract

The utility model relates to a device for strengthening a synchronous atomization inhalation treatment pipeline for oxygen therapy, which is characterized in that an insertion type atomization inhalation treatment adapter body (1) is in a hollow three-way pipe shape, and an insertion hole (4) is formed by sleeving an outer layer interface (5) and an inner layer interface (6) of two concentric hollow pipes which are connected with pipe orifices with different diameters; the inner layer interface (6) of the insertion opening (4) is provided with a piston (8) which can seal the insertion opening, and the piston (8) is provided with a drug administration channel (9) which can pressurize and quantitatively inhale into the insertion type atomization inhalation therapy adapter body (1); the plug-in type atomization inhalation therapy adapter body (1) is connected to a pipeline of the enhanced oxygen therapy synchronous atomization inhalation therapy pipeline through the air inlet (2) and the air outlet (3), and the medicine is administered into the pipeline of the enhanced oxygen therapy synchronous atomization inhalation therapy pipeline through the insertion hole (4). The utility model discloses simple structure, the practicality is strong, easily promotes.

Description

Device for strengthening oxygen therapy synchronous atomization inhalation treatment pipeline

Technical Field

The utility model relates to a device for strengthening oxygen therapy synchronous atomization inhalation treatment pipeline.

Background

At present, clinically, the main ventilators such as Drager, PB840 and Servo all adopt a threaded pipe with an international passing inner diameter (22 mm for adults and 15mm for children) as an external loop of the ventilator, and an adult high-flow oxygen therapy instrument also adopts a threaded pipe with an inner diameter of 22mm as an external loop, and the main clinical treatment purpose of the instruments and equipment is to enhance oxygen therapy. Meanwhile, the technologies of jet atomization, vibrating mesh atomization and ultrasonic atomization are mature day by day, and various atomization inhalation treatment mode choices are provided for present clinicians. However, neither the ventilator nor the adult high flow oxygen therapy machine manufacturer provides the ability to enhance the synchronization of oxygen therapy with the aerosol inhalation therapy. The clinician selects a three-step strategy of pausing the enhanced oxygen therapy, then carrying out the atomization therapy and continuing the enhanced oxygen therapy; or the medicine is atomized and administered through the water accumulating cup of the breathing machine air suction system. The disadvantages include: firstly, the curative effect is not good enough; second, increased risk of pulmonary infection; third, potential hypoxia and/or carbon dioxide accumulation can even endanger the life of the patient. Therefore, the adaptive aerosol inhalation therapy device is integrated into a respirator or an external loop of an adult high-flow oxygen therapy instrument in a plug-in manner, so that the aim of enhancing the synchronization of the oxygen therapy and the aerosol therapy functions is fulfilled, and the problem of interest of research and development personnel is solved.

Disclosure of Invention

The to-be-solved technical problem of the utility model is to provide a device for strengthening the oxygen therapy synchronous atomization inhalation treatment pipeline.

The technical scheme of the utility model is that: a device for strengthening oxygen therapy synchronous aerosol inhalation therapy pipeline is characterized in that an insertion type aerosol inhalation therapy adapter body is in a hollow three-way pipe shape, an air inlet and an air outlet which are communicated with each other correspondingly are arranged on the insertion type aerosol inhalation therapy adapter body, an insertion opening which is communicated with the air inlet and the air outlet is arranged on the insertion type aerosol inhalation therapy adapter body, and the insertion opening is formed by sleeving an outer layer interface and an inner layer interface of two concentric hollow pipes which are connected with pipe orifices with different diameters; the inner layer interface of the insertion opening is provided with a piston which can seal the insertion opening, and the piston is provided with a drug administration channel which can pressurize and quantitatively inhale into the insertion type atomization inhalation therapy adapter body; the plug-in aerosol inhalation therapy adapter body is connected to the pipeline of the enhanced oxygen therapy synchronous aerosol inhalation therapy pipeline through the air inlet and the air outlet, and the drug is administered into the pipeline of the enhanced oxygen therapy synchronous aerosol inhalation therapy pipeline through the insertion hole.

The utility model relates to a strengthen device that oxygen was treated synchronous aerosol inhalation treatment pipeline, a serial communication port air inlet, gas outlet and inserted hole on be equipped with the screwed pipe and the connector of being convenient for to be connected to and strengthen oxygen and treat synchronous aerosol inhalation treatment pipeline.

The utility model relates to a strengthen device that synchronous aerosol inhalation treatment pipeline was treated to oxygen, its characterized in that the connector be hollow straight tubulose, the connector both ends are equipped with the left connector and the right connector of the connecting tube of being convenient for respectively.

The utility model relates to a strengthen device that oxygen therapy atomizes inhalation treatment pipeline in step, its characterized in that left connector and right connector pipeline diameter can be inconsistent for adapting to its diameter of connecting pipe.

The utility model relates to a strengthen device that oxygen was treated synchronous aerosol inhalation treatment pipeline, its characterized in that screwed pipe difficult to collapse screwed pipe of lengthening and crooked for being convenient for.

The utility model relates to a device for strengthening synchronous atomization inhalation treatment pipeline of oxygen therapy, which is characterized in that the device is sleeved between two concentric hollow tube outer layer interfaces and inner layer interfaces of an insertion hole and is sealed in the device.

The utility model relates to a strengthen device that oxygen therapy atomizes in step and inhales treatment pipeline, its characterized in that bayonet aerosol inhalation treatment adapter body's air inlet and gas outlet be in on the same water flat line, air inlet and gas outlet and inserted hole mutually perpendicular.

The utility model relates to a device for strengthening a synchronous atomization inhalation treatment pipeline for oxygen therapy, which is characterized in that a dustproof cap is arranged on a piston.

The utility model relates to a device for strengthening a synchronous atomization inhalation treatment pipeline for oxygen therapy, which is characterized in that a medicine feeding needle is arranged on a piston.

The utility model relates to a strengthen device that oxygen therapy atomizes inhalation treatment pipeline in step, its characterized in that the needle of dosing be hollow tubulose, the needle both ends side of dosing is equipped with the side opening of business turn over medicine respectively.

The utility model relates to a strengthen device that oxygen therapy atomizes inhalation treatment pipeline in step, its characterized in that the side opening intercommunication of needle both ends side of dosing in its inside passageway of dosing.

The utility model provides a strong oxygen therapy synchronous atomization inhalation treatment device with optimized structure, simple and convenient connection and complete functions. The external loop of the needle respirator and the adult high-flow oxygen therapy instrument is used for strengthening oxygen therapy for patients, but is difficult to realize the limitation of synchronous atomization inhalation therapy, and the external loop is based on an international passing insertion type atomization inhalation therapy adaptive structure with the inner diameter of 22mm, takes the connection size of a mainstream atomization inhalation device as reference, controls the direction of atomization administration by strengthening oxygen therapy of the respirator and the adult high-flow oxygen therapy instrument, and can well realize the synchronous strengthening of oxygen therapy and atomization inhalation.

The utility model relates to a device for strengthening a synchronous atomization inhalation treatment pipeline for oxygen therapy, which is characterized by consisting of a plug-in atomization inhalation treatment adapter, a hollow piston, a telescopic threaded pipe, an adult-child adapter and a standby connection port; the plug-in type atomization inhalation therapy adapter is in a hollow T shape, the transverse support of the T shape is 4-10 cm long, the inner diameter is 22mm, two ends are respectively an input connection port for reinforcing oxygen therapy, an output port for reinforcing oxygen therapy and atomization synchronization, the longitudinal length of the T-shaped support is 2-5 cm, the T-shaped support is an input channel for atomization inhalation therapy, one end of the T-shaped support is positioned in the middle section of the transverse support of the T shape and is vertically communicated with the axis of the T-shaped support, or an acute angle is not lower than 45 degrees and is obliquely communicated, the other end is in a concentric circle structure at a position 1cm away from the port, the inner diameter of the inner circle is 15mm, the outer diameter of the T-shaped support is 16mm, the T-shaped support; the hollow piston is matched with a jet flow atomization connecting port of the plug-in atomization inhalation treatment adapter, a pressurization quantitative inhalation administration channel is contained in the hollow piston, a dustproof cap is arranged in the hollow piston, and the hollow piston is connected with the dustproof cap through a spiral structure; the telescopic threaded pipe is hollow, has an inner diameter of 22mm, is mainly used for ultrasonic atomization, and when the hollow piston is taken out, one end of the telescopic threaded pipe is connected with an ultrasonic atomization connecting port of the plug-in atomization inhalation therapy adapter, and the other end of the telescopic threaded pipe is butted with a drug delivery connecting port of a host machine of an ultrasonic atomization instrument, so that ultrasonic atomization therapy is realized; the other end is connected with a port of the vibrating mesh atomizer to realize vibrating mesh atomization treatment; the device can also be used for butt joint of a respirator or an adult high-flow oxygen therapy instrument and an enhanced oxygen therapy input connection port, and can be used for butt joint of an enhanced oxygen therapy and atomization synchronous output port and a patient; the butt joint of the plug-in type atomization inhalation treatment adapter and the air suction port of a heating humidifier of a breathing machine or an adult high-flow oxygen therapy instrument can also be used; the adult-infant adapter comprises 2 hollow pipelines which are respectively provided with anti-skidding side wings, wherein one of the hollow pipelines comprises a T-shaped transverse branch input connecting port with the outer diameter of 22mm and a child respirator loop air supply branch connecting port with the inner diameter of 15 mm; the other one comprises a T-shaped transverse branch output connecting port with the outer diameter of 22mm and a Y-shaped joint connecting port of a loop of the infant breathing machine; the spare connecting port has the inner diameter of 22mm and is mainly used for directly connecting the telescopic threaded pipe with the ports of oxygen therapy input branch threaded pipes of respirators of different manufacturers or high-flow oxygen therapy instrument loops for adults.

The utility model discloses strengthen synchronous aerosol inhalation treatment pipeline of oxygen therapy mainly with the breathing machine (including invasive breathing machine and noninvasive breathing machine) or adult through strengthening oxygen therapy equipment, the supporting use of aerosol inhalation treatment device such as nasal high flow oxygen therapy appearance. After the patient is connected with the respirator, oxygen is delivered to the patient, and the ventilator is suitable for mechanical ventilation and noninvasive mechanical ventilation of adults and children. Meanwhile, an aerosol inhalation device, such as a pressurized metered dose inhaler (pMDI), or a small volume jet nebulizer (SVB), or an ultrasonic nebulizer (USN), or a Vibrating Mesh Nebulizer (VMN), is connected according to the requirements of the patient, so as to achieve the purpose of enhancing the synchronous proceeding of the oxygen therapy and the aerosol inhalation therapy.

The utility model discloses strengthen the user state of oxygen therapy synchronous aerosol inhalation treatment dress, different because of bayonet aerosol inhalation treatment adapter's different mounted positions, including 2 modes:

in the first mode: the plug-in aerosol inhalation therapy adapter is arranged on an oxygen delivery branch of the external loop, and is 15cm away from the Y-shaped joint (or Wye end); is suitable for the synchronous aerosol inhalation therapy of patients with invasive mechanical ventilation or noninvasive mechanical ventilation;

in the second mode: the plug-in type atomization inhalation therapy adapter is arranged at an oxygen input port of the heating humidifier (a breathing machine or an adult high-flow oxygen therapy instrument), and is suitable for invasive mechanical ventilation, noninvasive mechanical ventilation or synchronous atomization inhalation therapy of the adult through nasal high-flow oxygen therapy.

The utility model has the advantages that: first, its simple structure, it is multiple functional, easy and simple to handle, practice thrift the cost. And secondly, the detachable part is connected with the international traffic standard caliber, can be selectively assembled according to the illness state and clinical thinking of different patients, and is butted with the strengthening oxygen therapy equipment commonly used clinically, such as an invasive respirator, a noninvasive respirator, an adult high-flow oxygen therapy instrument and the like. Third, the plug-in aerosol inhalation component design covers the docking of 4 types of aerosol inhalation devices commonly used in clinic.

The utility model relates to a device for strengthening the oxygen therapy synchronous atomization inhalation treatment pipeline, which has novel design, reasonable structure and convenient assembly and installation.

Drawings

FIG. 1 is a schematic structural view of a plug-in aerosol inhalation therapy adapter body of a device for enhancing a synchronous aerosol inhalation therapy pipeline for oxygen therapy;

FIG. 2 is a schematic cross-sectional view of an inserted aerosol inhalation therapy adapter body for enhancing the device for the oxygen therapy synchronous aerosol inhalation therapy circuit;

FIG. 3 is a schematic view of a piston structure of a device for enhancing the synchronous inhalation of oxygen therapy into a therapeutic circuit;

FIG. 4 is a schematic view of the piston mounting structure of a device for enhancing the oxygen therapy synchronous aerosol inhalation therapy pipeline;

FIG. 5 is a schematic view of the structure of a connector of a device for enhancing the synchronous inhalation of oxygen therapy into a therapeutic pipeline;

FIG. 6 is a schematic view of a threaded tube configuration of a device for enhancing the simultaneous aerosol inhalation therapy circuit for oxygen therapy;

FIG. 7 is a schematic view of a structure of a connection port of a vibrating mesh nebulizer for enhancing a synchronous nebulization inhalation therapy line for oxygen therapy;

FIG. 8 is a schematic view of a device for enhancing the oxygen therapy synchronous aerosol inhalation therapy pipeline connected with an air suction port of a heating humidifier;

FIG. 9 is a schematic view of a device for enhancing the oxygen therapy synchronous aerosol inhalation therapy circuit;

in the drawings: 1-is a plug-in aerosol inhalation therapy adapter body; 2-is an air inlet; 3-is an air outlet; 4-is an insertion opening; 5-is an outer layer interface; 6-is an inner layer interface; 7-is a threaded pipe; 8-is a piston; 9-is a drug administration channel; 10-is a connector; 11-is a left connecting port; 12-is a right connecting port; 13-is a connection port of the vibrating mesh atomizer; 14-is a heating humidifier air suction port; 15-is a medicine administration needle; 16-is a dustproof cap; 17-is a drug administration channel; 18-is a side hole.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "front end", "rear end", "both ends", "one end", "the other end", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element to be referred must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted", "provided", "connected", and the like are to be construed broadly, such as "connected", which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1: the utility model relates to a device for strengthening oxygen therapy synchronous aerosol inhalation therapy pipeline, a plug-in aerosol inhalation therapy adapter body 1 is in a hollow three-way pipe shape, a mutually corresponding communicated air inlet 2 and an air outlet 3 are arranged on the plug-in aerosol inhalation therapy adapter body 1, an insertion hole 4 for communicating the air inlet 2 and the air outlet 3 is arranged on the plug-in aerosol inhalation therapy adapter body 1, the insertion hole 4 is formed by connecting two concentric hollow pipe outer interfaces 5 and inner layer interfaces 6 with different diameter pipe orifices in a sleeved mode; the inner layer interface 6 of the insertion opening 4 is provided with a piston 8 which can seal the insertion opening, and the piston 8 is provided with a drug administration channel 9 which can pressurize and quantitatively inhale into the insertion type atomization inhalation therapy adapter body 1; bayonet aerosol inhalation treatment adapter body 1 is connected on strengthening the pipeline of the synchronous aerosol inhalation treatment pipeline of oxygen therapy through air inlet 2 and gas outlet 3, through inserting port 4 to strengthening the pipeline internal medicine of the synchronous aerosol inhalation treatment pipeline of oxygen therapy, air inlet 2, be equipped with screwed pipe 7 and connector 10 that be convenient for be connected to the synchronous aerosol inhalation treatment pipeline of strengthening oxygen therapy on gas outlet 3 and the inserting port 4, connector 10 is hollow straight tube form, connector 10 both ends are equipped with left connector 11 and right connector 12 of being convenient for the connecting tube respectively, left connector 11 and right connector 12 pipeline diameter can be inconsistent for adapting to its diameter of connecting tube.

Example 2: the utility model relates to a device for strengthening oxygen therapy synchronous aerosol inhalation therapy pipeline, a plug-in aerosol inhalation therapy adapter body 1 is in a hollow three-way pipe shape, a mutually corresponding communicated air inlet 2 and an air outlet 3 are arranged on the plug-in aerosol inhalation therapy adapter body 1, an insertion hole 4 for communicating the air inlet 2 and the air outlet 3 is arranged on the plug-in aerosol inhalation therapy adapter body 1, the insertion hole 4 is formed by connecting two concentric hollow pipe outer interfaces 5 and inner layer interfaces 6 with different diameter pipe orifices in a sleeved mode; the inner layer interface 6 of the insertion opening 4 is provided with a piston 8 which can seal the insertion opening, and the piston 8 is provided with a drug administration channel 9 which can pressurize and quantitatively inhale into the insertion type atomization inhalation therapy adapter body 1; bayonet aerosol inhalation treatment adapter body 1 is connected on strengthening the pipeline of the synchronous aerosol inhalation treatment pipeline of oxygen therapy through air inlet 2 and gas outlet 3, through inserting port 4 to strengthening the pipeline internal medicine of the synchronous aerosol inhalation treatment pipeline of oxygen therapy, air inlet 2, be equipped with screwed pipe 7 and connector 10 that be convenient for be connected to the synchronous aerosol inhalation treatment pipeline of strengthening oxygen therapy on gas outlet 3 and the inserting port 4, connector 10 is hollow straight tube form, connector 10 both ends are equipped with left connector 11 and right connector 12 of being convenient for the connecting tube respectively, left connector 11 and right connector 12 pipeline diameter can be inconsistent for adapting to its diameter of connecting tube. The threaded pipe 7 is a non-collapsible threaded pipe which is convenient to elongate and bend. The hollow tube is sleeved between the outer layer interface 5 and the inner layer interface 6 of the two concentric hollow tubes of the insertion port 4 and is closed in the hollow tube.

Example 3: the utility model relates to a device for strengthening oxygen therapy synchronous aerosol inhalation therapy pipeline, a plug-in aerosol inhalation therapy adapter body 1 is in a hollow three-way pipe shape, a mutually corresponding communicated air inlet 2 and an air outlet 3 are arranged on the plug-in aerosol inhalation therapy adapter body 1, an insertion hole 4 for communicating the air inlet 2 and the air outlet 3 is arranged on the plug-in aerosol inhalation therapy adapter body 1, the insertion hole 4 is formed by connecting two concentric hollow pipe outer interfaces 5 and inner layer interfaces 6 with different diameter pipe orifices in a sleeved mode; the inner layer interface 6 of the insertion opening 4 is provided with a piston 8 which can seal the insertion opening, and the piston 8 is provided with a drug administration channel 9 which can pressurize and quantitatively inhale into the insertion type atomization inhalation therapy adapter body 1; bayonet aerosol inhalation treatment adapter body 1 is connected on strengthening the pipeline of the synchronous aerosol inhalation treatment pipeline of oxygen therapy through air inlet 2 and gas outlet 3, through inserting port 4 to strengthening the pipeline internal medicine of the synchronous aerosol inhalation treatment pipeline of oxygen therapy, air inlet 2, be equipped with screwed pipe 7 and connector 10 that be convenient for be connected to the synchronous aerosol inhalation treatment pipeline of strengthening oxygen therapy on gas outlet 3 and the inserting port 4, connector 10 is hollow straight tube form, connector 10 both ends are equipped with left connector 11 and right connector 12 of being convenient for the connecting tube respectively, left connector 11 and right connector 12 pipeline diameter can be inconsistent for adapting to its diameter of connecting tube. The threaded pipe 7 is a non-collapsible threaded pipe which is convenient to elongate and bend. The hollow tube is sleeved between the outer layer interface 5 and the inner layer interface 6 of the two concentric hollow tubes of the insertion port 4 and is closed in the hollow tube. The piston 8 is provided with a medicine feeding needle 15. The administration needle 15 is hollow and tubular, and side holes 18 for medicine to enter and exit are respectively arranged on the side surfaces of two ends of the administration needle 15. The side holes 18 on the two end sides of the administration needle 15 are communicated with the administration passage 17 in the administration needle.

Example 4: the utility model relates to a device for strengthening oxygen therapy synchronous aerosol inhalation therapy pipeline, a plug-in aerosol inhalation therapy adapter body 1 is in a hollow three-way pipe shape, a mutually corresponding communicated air inlet 2 and an air outlet 3 are arranged on the plug-in aerosol inhalation therapy adapter body 1, an insertion hole 4 for communicating the air inlet 2 and the air outlet 3 is arranged on the plug-in aerosol inhalation therapy adapter body 1, the insertion hole 4 is formed by connecting two concentric hollow pipe outer interfaces 5 and inner layer interfaces 6 with different diameter pipe orifices in a sleeved mode; the inner layer interface 6 of the insertion opening 4 is provided with a piston 8 which can seal the insertion opening, and the piston 8 is provided with a drug administration channel 9 which can pressurize and quantitatively inhale into the insertion type atomization inhalation therapy adapter body 1; bayonet aerosol inhalation treatment adapter body 1 is connected on strengthening the pipeline of the synchronous aerosol inhalation treatment pipeline of oxygen therapy through air inlet 2 and gas outlet 3, through inserting port 4 to strengthening the pipeline internal medicine of the synchronous aerosol inhalation treatment pipeline of oxygen therapy, air inlet 2, be equipped with screwed pipe 7 and connector 10 that be convenient for be connected to the synchronous aerosol inhalation treatment pipeline of strengthening oxygen therapy on gas outlet 3 and the inserting port 4, connector 10 is hollow straight tube form, connector 10 both ends are equipped with left connector 11 and right connector 12 of being convenient for the connecting tube respectively, left connector 11 and right connector 12 pipeline diameter can be inconsistent for adapting to its diameter of connecting tube. The threaded pipe 7 is a non-collapsible threaded pipe which is convenient to elongate and bend. The hollow tube is sleeved between the outer layer interface 5 and the inner layer interface 6 of the two concentric hollow tubes of the insertion port 4 and is closed in the hollow tube. The air inlet 2 and the air outlet 3 of the plug-in aerosol inhalation therapy adapter body 1 are positioned on the same horizontal line, and the air inlet 2 and the air outlet 3 are vertical to the insertion opening 4. And a dust cap is arranged on the piston 8.

Example 5: the utility model relates to a strengthen device that oxygen therapy atomizes in step and inhales treatment pipeline provides a structural optimization, connects simple and convenient, multiple functional strong oxygen therapy atomizes in step and inhales treatment device. The external loop of the needle respirator and the adult high-flow oxygen therapy instrument is used for strengthening oxygen therapy for patients, but is difficult to realize the limitation of synchronous atomization inhalation therapy, and the external loop is based on an international passing insertion type atomization inhalation therapy adaptive structure with the inner diameter of 22mm, takes the connection size of a mainstream atomization inhalation device as reference, controls the direction of atomization administration by strengthening oxygen therapy of the respirator and the adult high-flow oxygen therapy instrument, and can well realize the synchronous strengthening of oxygen therapy and atomization inhalation. It is characterized in that the device consists of an insertion type atomization inhalation therapy adapter body 1, a hollow piston 8, a telescopic threaded pipe 7, an adult-child adapter 10 and a standby connection port; the plug-in type atomization inhalation therapy adapter body 1 is in a hollow T shape, the transverse branch of the T shape is 4-10 cm long and 22mm in inner diameter, two ends of the T shape are respectively provided with an input connection port for reinforcing oxygen therapy and an output port for synchronizing oxygen therapy and atomization, the branch of the T shape is 2-5 cm long and is an input channel for atomization inhalation therapy, one end of the T shape is positioned in the middle section of the transverse branch of the T shape and is vertically communicated with the axis of the T shape, or an acute angle is not less than 45 degrees and is obliquely communicated, the other end is in a concentric circle structure at a position 1cm away from the port, the inner diameter of the inner circle is 15mm, the outer diameter of the inner circle is 16mm, the T shape is a jet atomization connection port, the outer diameter of; the hollow piston 8 is matched with a jet flow atomization connecting port of the plug-in type atomization inhalation treatment adapter body 1, a pressurization quantitative inhalation administration channel 9 is contained in the hollow piston, a dustproof cap is arranged in the hollow piston, and the hollow piston 8 is connected with the dustproof cap through a spiral structure; the telescopic threaded pipe 7 is hollow, has an inner diameter of 22mm, and is mainly used for ultrasonic atomization, and under the condition that the hollow piston 8 is taken out, one end of the telescopic threaded pipe is connected with the ultrasonic atomization connecting port of the plug-in type atomization inhalation therapy adapter body 1, and the other end of the telescopic threaded pipe is butted with the administration connecting port of the ultrasonic atomization instrument host machine, so that ultrasonic atomization therapy is realized; the other end is connected with a port 13 of the vibrating mesh atomizer to realize vibrating mesh atomization treatment; the device can also be used for butt joint of a respirator or an adult high-flow oxygen therapy instrument and an enhanced oxygen therapy input connection port, and can be used for butt joint of an enhanced oxygen therapy and atomization synchronous output port and a patient; the butt joint of the plug-in type atomization inhalation therapy adapter body 1 and the heating humidifier air suction port 14 of a breathing machine or an adult high-flow oxygen therapy instrument can also be used; the adult-infant conversion connector 10 comprises 2 hollow pipelines which are provided with anti-skidding side wings, wherein one pipeline comprises a T-shaped transverse branch input connecting port with the outer diameter of 22mm and an infant respirator loop air supply branch connecting port with the inner diameter of 15 mm; the other one comprises a T-shaped transverse branch output connecting port with the outer diameter of 22mm and a Y-shaped joint connecting port of a loop of the infant breathing machine; the spare connecting port has the inner diameter of 22mm and is mainly used for directly connecting the telescopic threaded pipe 7 with the ports of oxygen therapy input branch threaded pipes of respirators of different manufacturers or high-flow oxygen therapy instrument loops for adults.

The utility model discloses strengthen synchronous aerosol inhalation treatment pipeline of oxygen therapy mainly with the breathing machine (including invasive breathing machine and noninvasive breathing machine) or adult through strengthening oxygen therapy equipment, the supporting use of aerosol inhalation treatment device such as nasal high flow oxygen therapy appearance. After the patient is connected with the respirator, oxygen is delivered to the patient, and the ventilator is suitable for mechanical ventilation and noninvasive mechanical ventilation of adults and children. Meanwhile, an aerosol inhalation device, such as a pressurized metered dose inhaler (pMDI), or a small volume jet nebulizer (SVB), or an ultrasonic nebulizer (USN), or a Vibrating Mesh Nebulizer (VMN), is connected according to the requirements of the patient, so as to achieve the purpose of enhancing the synchronous proceeding of the oxygen therapy and the aerosol inhalation therapy.

The utility model discloses strengthen the user state of oxygen therapy synchronous aerosol inhalation treatment dress, different because of bayonet aerosol inhalation treatment adapter's different mounted positions, including 2 modes:

in the first mode: the plug-in type aerosol inhalation therapy adapter body 1 is arranged on an oxygen delivery branch of an external loop and is 15cm away from a Y-shaped joint (or Wye end); is suitable for the synchronous aerosol inhalation therapy of patients with invasive mechanical ventilation or noninvasive mechanical ventilation;

in the second mode: the plug-in type aerosol inhalation therapy adapter body 1 is arranged at an oxygen input port of a heating humidifier (a breathing machine or an adult high-flow oxygen therapy instrument), and is suitable for invasive mechanical ventilation, noninvasive mechanical ventilation or synchronous aerosol inhalation therapy of adults through nasal high-flow oxygen therapy.

Example 6: a device for strengthening oxygen therapy synchronous atomization inhalation therapy pipeline comprises a plug-in atomization therapy inhalation therapy adapter, a hollow piston 8 and an adult-child adapter 10. The plug-in type atomization therapy inhalation adapter, the hollow piston 8 and the adult-infant adapter 10 are all international standard diameters. The selected materials include: the plug-in type atomization therapy and inhalation therapy adapter is made of disposable medical high polymer materials such as medical ethylene-vinyl acetate copolymer resin; the hollow piston 8 is made of reusable medical metal; the adult-pediatric adapter 10 is a reusable medical metal or a disposable medical polymer material such as medical ethylene-vinyl acetate copolymer resin.

The utility model discloses strengthen the user state that oxygen therapy atomizes in step and inhales treatment pipeline includes 2 schemes:

the first protocol is suitable for adults. Adjusting treatment parameters of an adult respirator or an adult high-flow oxygen therapy instrument, installing an inserted atomization treatment inhalation adapter at a Wye end of a pipeline of the adult respirator or the adult high-flow oxygen therapy instrument, shaking up a prescribed pressure quantitative atomization inhalation mist storage tank, heating by hands, opening a dustproof cap, butting with a pressurization quantitative inhalation administration channel, pressing down the pressure quantitative atomization inhalation mist storage tank at the beginning of inhalation, driving for 30s twice at an interval, taking down the pressure quantitative atomization inhalation mist storage tank at the beginning of exhalation after 5min of single treatment is finished, covering the dustproof cap, and evaluating the treatment effect after 20 min. After the treatment is finished, the plug-in type atomization treatment inhalation treatment adapter is detached, and the treatment parameters of the adult respirator or the adult high-flow oxygen therapy instrument are adjusted.

The second protocol is suitable for pediatric use. Adjusting treatment parameters of the infant respirator, respectively butting two adult-infant adapter connectors 10 with an enhanced oxygen therapy input connection port and an enhanced oxygen therapy and atomization synchronous output port of an inserted atomization therapy inhalation treatment adapter, then installing the adapter connectors to a Wye end of a pipeline of the infant respirator, shaking up a prescribed pressure quantitative atomization inhalation mist storage tank, heating the tank by hands, opening a dustproof cap, butting with a pressurized quantitative inhalation administration channel 9, pressing down the pressure quantitative atomization inhalation mist storage tank when inhalation starts, driving the storage tank for 30s twice, taking down the pressure quantitative atomization inhalation mist storage tank when exhalation starts after 5min single treatment is finished, covering the dustproof cap, and evaluating the treatment effect after 20 min. After the treatment is finished, the plug-in type atomization treatment inhalation treatment adapter is detached, and the treatment parameters of the children breathing machine are adjusted.

Example 7: a device for strengthening oxygen therapy synchronous atomization inhalation therapy pipeline comprises a plug-in atomization therapy inhalation therapy adapter, a hollow piston 8, a telescopic threaded pipe 7 and an adult-child adapter 10. The selected materials include: the plug-in type atomization therapy and inhalation therapy adapter is made of disposable medical high polymer materials such as medical ethylene-vinyl acetate copolymer resin; the telescopic threaded pipe 7 is made of disposable medical high polymer materials such as polyvinyl chloride (PVC); the adult-pediatric adapter 10 is a reusable medical metal or a disposable medical polymer material such as medical ethylene-vinyl acetate copolymer resin.

The utility model enhances the use state of the oxygen therapy synchronous aerosol inhalation therapy and comprises 2 proposals:

the first protocol is suitable for adults. Adjusting the treatment parameters of an adult respirator or an adult high-flow oxygen therapy apparatus, adding prescription medicine into an ultrasonic atomization treatment apparatus, butting an ultrasonic atomization connecting port with an administration connecting port of an ultrasonic atomization apparatus host machine by using a telescopic threaded pipe 7, installing an inserted atomization treatment inhalation adapter at a Wye end of a pipeline of the respirator or the adult high-flow oxygen therapy apparatus, starting power supply of the ultrasonic atomization treatment apparatus to start continuous atomization inhalation treatment, closing the ultrasonic atomization apparatus after 15min, detaching the inserted atomization treatment inhalation adapter and disconnecting the ultrasonic atomization apparatus, evaluating the treatment effect, and adjusting the treatment parameters of the adult respirator or the adult high-flow oxygen therapy apparatus.

The second protocol is suitable for pediatric use. Adjusting the treatment parameters of the infant respirator, adding prescription medicine into the ultrasonic atomization treatment instrument, turning on a power supply, butting two adult-infant adapter connectors 10 with an enhanced oxygen therapy input connection port and an enhanced oxygen therapy and atomization synchronization output port of an inserted atomization treatment inhalation treatment adapter respectively, then installing the adapter connectors to a Wye end of a pipeline of the infant respirator, butting an ultrasonic atomization connection port with an administration connection port of an ultrasonic atomization instrument host machine by using a telescopic threaded pipe 7, closing the ultrasonic atomization instrument after continuous atomization inhalation treatment for 15min, detaching the inserted atomization treatment inhalation treatment adapter and disconnecting the ultrasonic atomization instrument, evaluating the treatment effect, and adjusting the treatment parameters of the infant respirator.

Example 8: a device for strengthening oxygen therapy synchronous atomization inhalation therapy pipeline comprises a plug-in atomization therapy inhalation therapy adapter and an adult-child adapter 10. The plug-in type atomization therapy inhalation therapy adapter and the adult-infant adapter 10 are all in international standard diameter. The selected materials include: the plug-in type atomization therapy and inhalation therapy adapter is made of disposable medical high polymer materials such as medical ethylene-vinyl acetate copolymer resin; the adult-pediatric adapter 10 is a reusable medical metal or a disposable medical polymer material such as medical ethylene-vinyl acetate copolymer resin.

The utility model enhances the use state of the oxygen therapy synchronous aerosol inhalation therapy and comprises 2 proposals:

the first protocol is suitable for adults. Adjusting the treatment parameters of the adult respirator or the adult high-flow oxygen therapy instrument, adding prescription drugs into a jet atomization inhaler, connecting the jet atomization inhaler to a jet atomization connecting port, installing an inserted atomization inhalation treatment adapter at the Wye end of a respirator pipeline, immediately opening oxygen drive of the adult respirator in a standard way or opening independent oxygen or compressed air drive (suitable for the adult respirator and the adult high-flow oxygen therapy instrument), continuously carrying out atomization inhalation treatment for 15min, then detaching the inserted atomization inhalation treatment adapter and disconnecting the jet wave atomization inhaler, evaluating the treatment effect, and adjusting the treatment parameters of the adult respirator or the adult high-flow oxygen therapy instrument.

The second protocol is suitable for pediatric use. Adjusting and adjusting treatment parameters of the infant respirator, adding a prescription medicine into the jet atomizer, connecting the jet atomizer to a jet atomization connecting port, butting two adult-infant adapter connectors with an enhanced oxygen therapy input connecting port and an enhanced oxygen therapy and atomization synchronization output port of the plug-in type atomization therapy inhalation treatment adapter respectively, then installing the adapter connectors to a Wye end of a pipeline of the infant respirator, immediately starting oxygen drive of standard configuration of the infant respirator or starting independent oxygen or compressed air drive, continuously carrying out atomization inhalation treatment for 15min, then detaching the plug-in type atomization therapy inhalation treatment adapter and disconnecting the jet wave atomization inhaler, evaluating treatment effects, and adjusting the treatment parameters of the infant respirator.

Example 9: a device for strengthening oxygen therapy synchronous atomization inhalation therapy pipeline comprises a plug-in atomization therapy inhalation therapy adapter, a telescopic threaded pipe 7 and an adult-child adapter 10. The plug-in type atomization therapy inhalation therapy adapter, the telescopic threaded pipe 7 and the adult-infant adapter 10 are all international standard diameters. The selected materials include: the plug-in type atomization therapy and inhalation therapy adapter is made of disposable medical high polymer materials such as medical ethylene-vinyl acetate copolymer resin; the telescopic threaded pipe 7 is made of disposable medical high polymer materials such as polyvinyl chloride (PVC); the adult-pediatric adapter 10 is a reusable medical metal or a disposable medical polymer material such as medical ethylene-vinyl acetate copolymer resin.

The utility model enhances the use state of the oxygen therapy synchronous aerosol inhalation therapy and comprises 2 proposals:

the first protocol is suitable for adults. Adjusting the treatment parameters of a breathing machine or a high-flow oxygen therapy apparatus for adults, butting the reinforced oxygen therapy input connection port of the plug-in type atomization therapy inhalation treatment adapter with the port of an oxygen therapy input branch threaded pipe of the breathing machine or the high-flow oxygen therapy apparatus for adults, butting the reinforced oxygen therapy and atomization synchronous output port with the air suction port 14 of a heating humidifier through a telescopic threaded pipe 7, adding prescription medicine into a vibrating mesh atomizer, butting the connecting port 13 of the vibrating mesh atomizer with the jet atomization connection port, closing the vibrating mesh atomizer after continuously carrying out atomization inhalation treatment for 30min, and evaluating the treatment effect. After the treatment course is finished, the plug-in type atomization therapy inhalation adapter is disassembled, the vibrating mesh atomizer is disconnected, and the therapy parameters of the adult respirator or the adult high-flow oxygen therapy instrument are adjusted.

The second protocol is suitable for pediatric use. Adjusting treatment parameters of the infant respirator, respectively butting two adult-infant adapter connectors 10 with an enhanced oxygen therapy input connection port and an enhanced oxygen therapy and atomization synchronous output port of an inserted atomization treatment inhalation therapy adapter, butting an air supply branch connection port of an infant respirator loop with an oxygen therapy input branch threaded pipe port of the infant respirator, butting a Y-shaped connector connection port of the infant respirator loop with an air suction port 14 of a heating humidifier of the infant respirator, adding prescription medicine into the vibrating mesh atomizer, butting a connecting port 13 of the vibrating mesh atomizer with a jet atomization connection port 8, closing the vibrating mesh atomizer after continuous atomization inhalation treatment for 30min, and evaluating treatment effects. After the treatment course is finished, the plug-in type atomization therapy inhalation adapter is disassembled, the vibrating mesh atomizer is disconnected, and the treatment parameters of the infant respirator or the adult high-flow oxygen therapy instrument are adjusted.

The utility model discloses synchronous atomization inhalation treatment pipeline is treated to strong oxygen mainly uses with breathing machine, adult high flow oxygen therapy appearance and ultrasonic atomization inhalation therapeutic instrument, vibration mesh atomizer, pressurization ration inhalation storage tank, efflux atomizing inhaler cooperation. The beneficial effects are that: firstly, the oxygen is delivered to a patient after the patient is connected with a breathing machine or an adult high-flow oxygen therapy instrument, and the oxygen therapy instrument is suitable for invasive mechanical ventilation or noninvasive ventilation of adults and children and adult high-flow oxygen therapy, and belongs to the field of enhanced oxygen therapy. Secondly, the oxygen therapy synchronous aerosol inhalation treatment device is synchronously connected and enhanced according to the requirements of the state of an illness, different aerosol inhalation treatment instruments or equipment are selectively used, so that the aim of synchronously enhancing the oxygen therapy and the aerosol inhalation treatment is fulfilled, and the potential life danger of 'interrupting and enhancing the oxygen therapy, atomizing inhalation treatment and continuing to enhance the oxygen therapy' is avoided.

Although the basic principles and essential features of the invention and the advantages of the invention have been shown and described, it will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, but may be embodied in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (10)

1. A device for strengthening a synchronous aerosol inhalation treatment pipeline of oxygen therapy is characterized in that an insertion type aerosol inhalation treatment adapter body (1) is in a hollow tee pipe shape, an air inlet (2) and an air outlet (3) which are communicated with each other correspondingly are arranged on the insertion type aerosol inhalation treatment adapter body (1), an insertion opening (4) which is communicated with the air inlet (2) and the air outlet (3) inwards is arranged on the insertion type aerosol inhalation treatment adapter body (1), and the insertion opening (4) is formed by sleeving an outer layer interface (5) and an inner layer interface (6) of two concentric hollow pipes which are connected with pipe orifices with different diameters; a piston (8) capable of sealing the inner layer interface (6) of the insertion opening (4) is arranged on the inner layer interface, and a medicine feeding channel (9) capable of pressurizing and quantitatively inhaling the inside of the insertion type atomization inhalation therapy adapter body (1) is arranged on the piston (8); the plug-in aerosol inhalation therapy adapter body (1) is connected to the pipeline of the enhanced oxygen therapy synchronous aerosol inhalation therapy pipeline through the air inlet (2) and the air outlet (3), and the medicine is administered into the pipeline of the enhanced oxygen therapy synchronous aerosol inhalation therapy pipeline through the insertion opening (4).

2. The device for enhancing the oxygen therapy synchronized aerosol inhalation therapy system according to claim 1, wherein the inlet port (2), the outlet port (3) and the insertion port (4) are provided with a threaded tube (7) and a connector (10) for facilitating connection to the enhanced oxygen therapy synchronized aerosol inhalation therapy system.

3. The device for strengthening the oxygen therapy synchronous aerosol inhalation therapy pipeline according to claim 2, characterized in that the connector (10) is a hollow straight pipe, and the two ends of the connector (10) are respectively provided with a left connector (11) and a right connector (12) which are convenient for connecting pipelines.

4. A device for enhancing the synchronous aerosol inhalation therapy circuit for oxygen therapy according to claim 3, wherein the diameters of the pipes of the left connection port (11) and the right connection port (12) are adjusted to be different from each other.

5. A device for enhancing the oxygen therapy synchronized aerosol inhalation therapy system according to claim 2, wherein said threaded tube (7) is a non-collapsible threaded tube that facilitates stretching and bending.

6. A device for enhancing the synchronous aerosol inhalation therapy system according to claim 1, characterized in that the space between the outer layer interface (5) and the inner layer interface (6) of the concentric hollow tubes which are sleeved on the insertion opening (4) is closed.

7. A device for enhancing the synchronous aerosol inhalation therapy channel for oxygen therapy according to claim 1, characterized in that the air inlet (2) and the air outlet (3) of the inserted aerosol inhalation therapy adapter body (1) are on the same horizontal line, and the air inlet (2) and the air outlet (3) are perpendicular to the insertion port (4).

8. A device for enhancing the synchronous aerosol inhalation therapy circuit for oxygen therapy according to claim 1, characterized in that the piston (8) is provided with a needle (15) for administration.

9. The device for reinforcing the oxygen therapy synchronous aerosol inhalation therapy pipeline according to claim 8, characterized in that the administration needle (15) is hollow tubular, and side holes (18) for entering and exiting the medicine are respectively arranged on the side surfaces of both ends of the administration needle (15).

10. An apparatus for enhancing the oxygen therapy synchronized aerosol inhalation therapy circuit according to claim 9, wherein the side holes (18) at both ends of the administration needle (15) communicate with the administration channel (17) therein.

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