CN105169537A - Breathing machine and using method thereof - Google Patents

Abstract

The invention discloses a breathing machine and a using method thereof. The breathing machine comprises a breathing machine mainframe and a breathing machine running module. The breathing machine mainframe is detachably connected with the breathing machine running module and provided with a first air supply interface. The breathing machine running module is provided with a second air supply interface, a third air supply interface and a patient breathing interface which are correspondingly matched with the first air supply interface. An ICU treatment breathing machine and a first-aid transfer breathing machine are integrated. If a patient needs to be transferred to other departments to be examined, medical workers take the breathing machine running module out of the breathing machine mainframe, at the time the breathing machine running module plays a role of the first-aid transfer breathing machine, the treatment and the transfer ventilation are replaced quickly, the seamless connection from a treatment mode to a transfer mode is achieved, and the patient life supporting risk is reduced. The same breathing accessories are used, the patient side does not need to increase extra breathing accessories, the cost is reduced, and the breathing machine is simple in structure and convenient to use.

Description

A kind of respirator and using method thereof

Technical field

The present invention relates to respirator technical field, particularly relate to a kind of respirator and using method thereof.

Background technology

Respirator is divided into emergency transportation respirator by function and usage, treatment respirator, home ventilator etc.Wherein, treat and used for respiratorsly carry out respiratory therapy in serious symptom wards such as ICU (intensive care unit), CCU (CCU), emergency transportation used for respirators before institute or first aid in hospital transhipment patient, home ventilator be used for domestic sleeping treatment.At present, ICU respirator is all main equipment, and its weight reaches more than 100kg, and due to needs compressed air and compressed oxygen air feed, is unfavorable for patient's emergency transportation.Emergency transportation respirator is small and exquisite portable, usually only carry the transhipment that compressed oxygen cylinder or even compressed oxygen airbag can complete patient, and the weight of emergency transportation respirator is usually about 5kg to 10kg, convenient operation and carrying.In performance, ICU treatment respirator is more powerful relative to emergency transportation respirator, and function is also more complete.When such as conveying patient being done the physical examinations such as CT, MRI from ICU transhipment patient to other section office in clinical, often need to adopt emergency transportation respirator.Now critically ill patient will face the life support risk changed respirator and bring, and change different breathing pipelines and corresponding adnexa owing to adopting different respirators to need, not only there is life and support risk, treatment cost is also high simultaneously.Simultaneously owing to adopting two kinds of different respirators, and be generally the respirator of Liang Ge producer, between transit period, the life supported data of patient cannot be treated respirator with ICU and converged, be unfavorable for clinical treatment, and by the process of transportation of patients, often the doctor in charge cannot monitor the life support parameter of patient between transit period in real time, and makes the control adjustment of life support ventilation in time.

Summary of the invention

The invention provides a kind of respirator and using method thereof, simple to operation, safety is high, is convenient to transportation of patients, and also cost is low.

The present invention is by the following technical solutions:

First aspect, the invention provides a kind of respirator, comprise respirator main frame and respirator transhipment module, described respirator main frame and described respirator are transported module and are removably connected, described respirator main frame is provided with the first air feed interface, and described respirator transhipment module installation has and the second air feed interface of described first air feed interface Corresponding matching, the 3rd air feed interface and patient respiration interface.

Further, described first air feed interface comprises the first oxygen interface and the first air interface, described second air feed interface comprises the second oxygen interface docked with described first oxygen interface and the second air interface docked with described first air interface, and described patient respiration interface comprises patient end gas outlet and patient end air inlet.

Further, described respirator main frame is provided with the first wireless communication module, and described respirator transhipment module installation has the second wireless communication module carrying out data transmission with described first wireless communication module.

Further, described respirator main frame comprise base, gripper shoe, for connecting and fixing the described respirator transhipment deck of module and main frame, one end of described gripper shoe is fixed on described base, described deck is fixed on the other end of described gripper shoe, and described main frame is fixed on the upper end of described deck.

Further, described deck comprises the first side plate, the second side plate and the 3rd side plate, described first side plate and the second side plate are oppositely arranged, described 3rd side plate is fixedly connected to form " U " shape deck with the same side of described first side plate, the second side plate respectively, and described 3rd side plate is fixed in described gripper shoe.

Further, described first side plate and the second side plate be arranged in parallel and form a bayonet socket with described 3rd side plate, described first oxygen interface and the first air interface are all arranged on described 3rd side plate, described respirator transhipment module comprises epipleural, lower side panel, left plate, right plate, front side board and back side panel, described back side panel is provided with described second oxygen interface and the second air interface, described trioxid interface is arranged on described right plate, described patient end gas outlet and patient end air inlet are all arranged on described left plate, described front side board is provided with display.

Further, described respirator transhipment module also comprises charge power supply and power interface, described power interface is arranged on described back side panel, described 3rd side plate is provided with the power socket mated with described power interface, when described respirator transhipment module snaps in described deck, described power interface inserts described power socket.

Further, described epipleural is provided with groove, rotatablely in described groove is provided with handle.

Further, described respirator transhipment module also comprises the display lamp being used to indicate duty.

Further, described Its lower side is provided with roller.

Second aspect, the invention provides a kind of using method of respirator, comprising:

By the main frame of respirator main frame, transhipment ventilation parameters is set, automatically switch to oxygen cylinder or the oxygen bag air feed of the 3rd air feed interface connection, enter transhipment pattern, respirator is transported module to take out from respirator main frame, respirator transhipment module the first wireless communication module by the life supported data real-time Transmission of patient to respirator main frame;

Respirator is transported module and insert respirator main frame, automatically switch to the first air feed interface and the second air feed interface air feed, enter Therapeutic mode, all patients ' lives supported datas respirator being transported module are synchronized to respirator main frame.

Technical scheme provided by the invention brings following beneficial effect:

Respirator main frame and respirator are transported module and are removably connected, Therapeutic mode and transhipment pattern use identical patient respiration interface, during Therapeutic mode, it is patient's air feed that gas arrives patient respiration interface by the first air feed interface and the second air feed interface successively, when client need is transported, duty is switched to transhipment pattern, automatically switch is by the 3rd air feed interface air feed, it is patient's air feed that gas arrives patient respiration interface, then respirator is transported module to be separated transportation of patients to walk with respirator main frame, ICU is treated respirator and emergency transportation respirator unites two into one, patient carries out in respirator treatment process at ICU, if need to be transported to other section office when checking, medical personnel can take out respirator transhipment module from respirator main frame, now respirator transhipment module shoulders the role of emergency transportation respirator, treatment and transhipment ventilation are changed fast, seamless link, reduce patients ' lives and support risk, use adnexa of sharing a common fate mutually, patient end, without the need to increasing extra breathing adnexa, reduces cost, and structure is simple, easy to use.

Accompanying drawing explanation

In order to be illustrated more clearly in the technical scheme in the present invention, below the accompanying drawing used required in describing the present invention is briefly described, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to content of the present invention and these accompanying drawings.

Fig. 1 is the structural representation of the respirator transhipment module taking-up state of respirator provided by the invention.

Fig. 2 is the structural representation of respirator treatment state provided by the invention.

Fig. 3 is respirator decomposition texture schematic diagram provided by the invention.

Fig. 4 is respirator front upper right view provided by the invention.

Fig. 5 is the left back top view of respirator provided by the invention.

Fig. 6 is the schematic diagram that respirator provided by the invention is in Therapeutic mode.

Fig. 7 is the schematic diagram that respirator provided by the invention is in transhipment pattern.

Fig. 8 is the method flow diagram of the using method of respirator provided by the invention.

Detailed description of the invention

The technical problem solved for making the present invention, the technical scheme of employing and the technique effect that reaches are clearly, below in conjunction with accompanying drawing, technical scheme of the present invention is described in further detail, obviously, described embodiment is only the present invention's part embodiment, instead of whole embodiments.Based on the embodiment in the present invention, those skilled in the art, not making the every other embodiment obtained under creative work prerequisite, belong to the scope of protection of the invention.

Fig. 1 is the structural representation of the respirator transhipment module taking-up state of respirator provided by the invention.Fig. 2 is the structural representation of respirator treatment state provided by the invention.Shown in figure 1, Fig. 2, this respirator comprises respirator main frame 1 and respirator transhipment module 2, described respirator main frame 1 is transported module 2 with described respirator and is removably connected, described respirator main frame 1 is provided with the first air feed interface, and described respirator transhipment module 2 is provided with and the second air feed interface of described first air feed interface Corresponding matching, the 3rd air feed interface 22 and patient respiration interface.

The respirator main frame of respirator provided by the invention and respirator are transported module and are removably connected, Therapeutic mode and transhipment pattern use identical patient respiration interface, during Therapeutic mode, it is patient's air feed that gas arrives patient respiration interface by the first air feed interface and the second air feed interface successively, when client need is transported, duty is switched to transhipment pattern, automatically switch is by the 3rd air feed interface air feed, it is patient's air feed that gas arrives patient respiration interface, then respirator is transported module to be separated transportation of patients to walk with respirator main frame, ICU is treated respirator and emergency transportation respirator unites two into one, patient carries out in respirator treatment process at ICU, if need to be transported to other section office when checking, medical personnel can take out respirator transhipment module from respirator main frame, now respirator transhipment module shoulders the role of emergency transportation respirator, treatment and transhipment ventilation are changed fast, seamless link, reduce patients ' lives and support risk, use adnexa of sharing a common fate mutually, patient end, without the need to increasing extra breathing adnexa, reduces cost, and structure is simple, easy to use.

Particularly, described first air feed interface comprises the first oxygen interface 10 and the first air interface 11, described second air feed interface comprises the second oxygen interface 20 docked with described first oxygen interface 10 and the second air interface 21 docked with described first air interface 11, and described patient respiration interface comprises patient end gas outlet 23 and patient end air inlet 24.When respirator transhipment module 2 is connected with respirator main frame 1, compressed oxygen enters respirator transhipment module 2 through the first oxygen interface 10 and the second oxygen interface 20 successively, compressed air enters respirator transhipment module 2 through the first air interface 11 and the second air interface 21 successively, be patient's air feed through patient end air inlet 24 after compressed oxygen and compressed air process in respirator transhipment module 2, the gas that patient breathes out enters respirator transhipment module 2 and processes through patient end gas outlet 23; When client need is transported, enter transhipment pattern, the first oxygen interface 10 and the first air interface 11 are closed, and source of the gas are switched to the oxygen cylinder or oxygen bag air feed that are connected by the 3rd air feed interface 22; After transportation of patients terminates, respirator transhipment module 2 is connected with respirator main frame 1 again, and the first oxygen interface 10 and the first air interface 11 are opened, and pass into compressed oxygen and compressed air, trioxid interface 22 is closed, and enters Therapeutic mode.

Preferably, described respirator main frame 1 is provided with the first wireless communication module (not shown), and described respirator transhipment module 2 is provided with the second wireless communication module (not shown) of carrying out data transmission with described first wireless communication module.The life supported data of patient between transit period can inhale machine host by the callback of wireless network real-time Transmission, the doctor in charge can by the situation in the real-time monitor patients transport process of display screen of respirator main frame, if there is abnormal conditions, can find the very first time and take corresponding emergency treatment, the better life security ensureing patient, and the life supported data real-time synchronization of respirator transhipment module is to respirator main frame.

Preferably, Fig. 3 is respirator decomposition texture schematic diagram provided by the invention.Shown in composition graphs 3, described respirator main frame 1 comprise base 12, gripper shoe 13, for connecting and fixing the described respirator transhipment deck 14 of module 2 and main frame 15, one end of described gripper shoe 13 is fixed on described base 12, described deck 14 is fixed on the other end of described gripper shoe 13, and described main frame 1 is fixed on the upper end of described deck 14.Further, roller 40 is provided with on the downside of described base 12.In the present embodiment, the structure that module transported by the structure of deck and respirator matches, respirator transhipment module can be made to snap in deck to be realized detachable fixing, be convenient to the taking-up of respirator transhipment module and snap in, further roller is set at Its lower side, 4 rollers are set in the present embodiment, are convenient to the position adjustment of respirator complete machine, save manpower.

Preferably, shown in composition graphs 3, described deck 14 comprises the first side plate 140, second side plate 141 and the 3rd side plate 142, described first side plate 140 and the second side plate 141 are oppositely arranged, described 3rd side plate 142 is fixedly connected to form " U " shape deck 14 with the same side of described first side plate 140, second side plate 141 respectively, and described 3rd side plate 142 is fixed in described gripper shoe 13.The concrete shape of deck is only described as an instantiation, and not as limitation of the present invention, in some other embodiment, the shape of deck can also transport for other and respirator the shape that modular structure matches.

Preferably, Fig. 4 is respirator front upper right view provided by the invention.Fig. 5 is the left back top view of respirator provided by the invention.Composition graphs 4, shown in Fig. 5, described first side plate 140 and the second side plate 141 be arranged in parallel and form roughly " U " type bayonet socket 16 with described 3rd side plate 142, described first oxygen interface 10 and the first air interface 11 are all arranged on described 3rd side plate 142, described respirator transhipment module 2 comprises epipleural 25, lower side panel (not shown), left plate 26, right plate 27, front side board 28 and back side panel 29, described back side panel 29 is provided with described second oxygen interface 20 and the second air interface 21 matched with described first oxygen interface 10 and the first air interface 11, described trioxid interface 22 is arranged on described right plate 27, described patient end gas outlet 23 and patient end air inlet 24 are all arranged on described left plate 26, described front side board 28 is provided with display 280.When client need is transported, respirator transhipment module is taken out from bayonet socket, by the sick bed being positioned over patient, after patient gets back to ward, respirator is transported module to install back bayonet socket and fix, easy to use, patient, can by the life supported data of display Real Time Observation patient in transport process.

Preferably, described respirator transhipment module 2 also comprises charge power supply (not shown) and power interface 30, described power interface 30 is arranged on described back side panel 29, described 3rd side plate 142 is provided with the power socket (not shown) of mating with described power interface 30, when described respirator transhipment module 2 snaps in described deck 14, described power interface 30 inserts described power socket.When respirator transhipment module snaps in deck, the charge power supply being respirator transhipment module by main frame is charged and is that module for power supply transported by respirator, and when respirator transhipment module takes out deck, it is independently-powered by charge power supply that module transported by respirator, structure is simple, easy to use.

Preferably, described epipleural 25 is provided with groove (not shown), rotatablely in described groove is provided with handle (not shown).Handle is convenient to the taking and placing of respirator transhipment module in transport process.

Preferably, Fig. 6 is the schematic diagram that respirator provided by the invention is in Therapeutic mode.Fig. 7 is the schematic diagram that respirator provided by the invention is in transhipment pattern.Described respirator transhipment module also comprises the display lamp (not shown) being used to indicate duty.In the present embodiment, display lamp comprises therapeutic state display lamp and transhipment status indicator lamp, and when respirator transhipment module snaps in respirator main frame, when respirator is in Therapeutic mode, therapeutic state display lamp glimmers; When respirator transhipment module takes out respirator main frame, respirator is in transhipment pattern, the flicker of transhipment status indicator lamp.

Fig. 8 is the method flow diagram of the using method of respirator provided by the invention.The using method of this respirator is applied to above-mentioned respirator, comprising:

S101, transhipment ventilation parameters is set by the main frame of respirator main frame, automatically switch to oxygen cylinder or the oxygen bag air feed of the 3rd air feed interface connection, enter transhipment pattern, respirator is transported module to take out from respirator main frame, respirator transhipment module the first wireless communication module by the life supported data real-time Transmission of patient to respirator main frame.

Particularly, respirator transhipment module snap in the deck of respirator main frame, clamping and convenient separation quick.

When client need transports out ICU ward, first transhipment ventilation parameters is set on main frame, source of the gas automatically switches to oxygen cylinder or the oxygen bag air feed of the 3rd air feed interface connection, enter transhipment pattern, then respirator is transported module to take out from respirator main frame, realize the seamless link of Therapeutic mode to transhipment pattern.

S102, respirator transported module and insert respirator main frame, automatically switch to the first air feed interface and the second air feed interface air feed, enter Therapeutic mode, all patients ' lives supported datas respirator being transported module are synchronized to respirator main frame.

When patient go back to ICU ward treat time, first respirator is transported module and inserts respirator main frame, can by arranging treatment parameter at main frame, source of the gas switches to the first air feed interface and the second air feed interface air feed, enters Therapeutic mode; Also screens switch or sensor can be used to detect induction respirator transhipment module insert in respirator main frame, then source of the gas be switched to the first air feed interface and the second air feed interface air feed, enter Therapeutic mode.Realize the seamless link of transhipment pattern to Therapeutic mode.

To sum up, ICU is treated respirator to the using method of respirator provided by the invention and emergency transportation respirator unites two into one, patient carries out in respirator treatment process at ICU, if need to be transported to other section office when checking, first medical personnel arrange transhipment parameter and make respirator enter transhipment pattern, then be separated from respirator main frame and take out respirator transhipment module, now respirator transhipment module shoulders the role of emergency transportation respirator, treatment and transhipment ventilation are changed fast, achieve the seamless link of Therapeutic mode to transhipment pattern, reduce patients ' lives and support risk, use adnexa of sharing a common fate mutually, patient end, without the need to increasing extra breathing adnexa, reduces cost, and structure is simple, easy to use.

Above content is only preferred embodiment of the present invention, and for those of ordinary skill in the art, according to thought of the present invention, all will change in specific embodiments and applications, this description should not be construed as limitation of the present invention.

Claims (10)

1. a respirator, it is characterized in that, comprise respirator main frame and respirator transhipment module, described respirator main frame and described respirator are transported module and are removably connected, described respirator main frame is provided with the first air feed interface, and described respirator transhipment module installation has and the second air feed interface of described first air feed interface Corresponding matching, the 3rd air feed interface and patient respiration interface.

2. respirator according to claim 1, it is characterized in that, described first air feed interface comprises the first oxygen interface and the first air interface, described second air feed interface comprises the second oxygen interface docked with described first oxygen interface and the second air interface docked with described first air interface, and described patient respiration interface comprises patient end gas outlet and patient end air inlet.

3. respirator according to claim 1, is characterized in that, described respirator main frame is provided with the first wireless communication module, and described respirator transhipment module installation has the second wireless communication module carrying out data transmission with described first wireless communication module.

4. respirator according to claim 1, it is characterized in that, described respirator main frame comprise base, gripper shoe, for connecting and fixing the described respirator transhipment deck of module and main frame, one end of described gripper shoe is fixed on described base, described deck is fixed on the other end of described gripper shoe, and described main frame is fixed on the upper end of described deck.

5. respirator according to claim 4, it is characterized in that, described deck comprises the first side plate, the second side plate and the 3rd side plate, described first side plate and the second side plate are oppositely arranged, described 3rd side plate is fixedly connected to form " U " shape deck with the same side of described first side plate, the second side plate respectively, and described 3rd side plate is fixed in described gripper shoe.

6. respirator according to claim 5, it is characterized in that, described first side plate and the second side plate be arranged in parallel and form a bayonet socket with described 3rd side plate, described first oxygen interface and the first air interface are all arranged on described 3rd side plate, described respirator transhipment module comprises epipleural, lower side panel, left plate, right plate, front side board and back side panel, described back side panel is provided with described second oxygen interface and the second air interface, described trioxid interface is arranged on described right plate, described patient end gas outlet and patient end air inlet are all arranged on described left plate, described front side board is provided with display.

7. respirator according to claim 4, it is characterized in that, described respirator transhipment module also comprises charge power supply and power interface, described power interface is arranged on described back side panel, described 3rd side plate is provided with the power socket mated with described power interface, when described respirator transhipment module snaps in described deck, described power interface inserts described power socket.

8. respirator according to claim 6, is characterized in that, described epipleural is provided with groove, rotatablely in described groove is provided with handle.

9. respirator according to claim 1, is characterized in that, described Its lower side is provided with roller.

10. a using method for respirator, is characterized in that, comprising:

By the main frame of respirator main frame, transhipment ventilation parameters is set, automatically switch to oxygen cylinder or the oxygen bag air feed of the 3rd air feed interface connection, enter transhipment pattern, respirator is transported module to take out from respirator main frame, respirator transhipment module the first wireless communication module by the life supported data real-time Transmission of patient to respirator main frame;

Respirator is transported module and insert respirator main frame, automatically switch to the first air feed interface and the second air feed interface air feed, enter Therapeutic mode, all patients ' lives supported datas respirator being transported module are synchronized to respirator main frame.