CN108578864A - A kind of Respiratory Medicine respirator - Google Patents

Abstract

The invention belongs to the field of medical instrument technology, specifically a kind of Respiratory Medicine respirator, including mask, guide valve, heating tube, piston cylinder module, air inlet pipe, oxygen gas-storing bag and detection module, mask is mounted on the lower section of guide valve, and mask is connected by gas-guide tube with piston cylinder module；Closing of the guide valve for regulating and controlling gas-guide tube；Detection module is connected by hose with guide valve, and the gas of patient's exhalation enters in detection module；Heating tube is used for oxygen heating；Piston cylinder module is used to carry out oxygen uptake treatment to patient；The air inlet pipe other end is connected with oxygen gas-storing bag；Oxygen gas-storing bag is for storing oxygen.This present invention proposes a kind of Respiratory Medicine respirator, present invention is mainly used for hospital's Respiratory Medicine patient respirations, accurately control the tidal volume being pushed into every time, it attached detection module, the gas of patient's exhalation is detected, it is heated further for the oxygen of human body sucking, promotes the comfort of patient.

Description

A kind of Respiratory Medicine respirator

Technical field

The invention belongs to the field of medical instrument technology, specifically a kind of Respiratory Medicine respirator.

Background technology

The bag respirator of Clinical practice is also referred to as ball or respiratory hag, is respirator the simplest, is not having In the case of standby lung ventilator or power failure or lung ventilator failure etc. are a variety of, bag respirator is unique hand that artificial ventilation is carried out to patient Section.Existing common bag respirator is generally made of the part such as sacculus, breather check valve, outgassing nonreturn valve and mask, is utilized The compression of sacculus realizes artificial respiration purpose with diastole.The bag respirator of this structure can not define every in use It is secondary to squeeze the ventilatory capacity generated, i.e. tidal volume, it usually operates by rule of thumb, different medical staff is by operating habit, hand in addition The factors such as type difference in size influence so that each tidal volume has more uncertainty when existing bag respirator operation, and right In the different patient of the factors such as weight, gender and age, required tidal volume is different, and utilizes existing this simple breathing Device short-term operation is fine, but prolonged application do not have due to then can be excessive or very few because of ventilatory capacity expected from rescue effect, or even danger And patient vitals.

Also occur some bag respirators in the prior art, such as application No. is 201410533408.5 China is special Profit discloses a kind of Respiratory Medicine bag respirator, including mask, gas-guide tube, sphere, oxygen gas-storing bag, intake valve, air guide Valve, flow diverter, air outlet valve, safe tracheae and safety valve, mask are connect by gas-guide tube with sphere side, the connection of the sphere other side There is oxygen gas-storing bag, intake valve is equipped between oxygen gas-storing bag and sphere, guide valve is installed in gas-guide tube, gas-guide tube side connects It is equipped with flow diverter, flow diverter is connected with air outlet valve.But the technical solution cannot realize essence to the tidal volume sucked to patient Quasi- control, it is unfavorable to the rehabilitation of patient, there is no detection device further for the gas of patient's exhalation.

In consideration of it, a kind of Respiratory Medicine respirator of the present invention, can to the sucking tidal volume difference of patient into Row effectively control, also attached the detection module of patient's exhaled gas, is detected to the exhaled gas of patient, joined for doctor It examines.

Invention content

In order to make up for the deficiencies of the prior art, the present invention proposes a kind of Respiratory Medicine respirator, and the present invention mainly uses It is used in hospital's Respiratory Medicine patient respiration, accurately controls the tidal volume being pushed into every time, attached detection module, patient is exhaled The gas gone out is detected, and is heated further for the oxygen of human body sucking, promotes the comfort of patient.

The technical solution adopted by the present invention to solve the technical problems is：A kind of Respiratory Medicine breathing of the present invention Device, including mask, guide valve, heating tube, piston cylinder module, air inlet pipe, oxygen gas-storing bag and detection module, mask peace Mounted in the lower section of guide valve, mask is connected by gas-guide tube with piston cylinder module；The guide valve is for regulating and controlling gas-guide tube It closes；The detection module is connected by hose with guide valve, and the gas of patient's exhalation enters in detection module；Described adds Heat pipe is mounted on the left side of piston cylinder module, and heating tube is used for oxygen heating；The piston cylinder module right end and air inlet pipe Connection, piston cylinder module are used to carry out oxygen uptake treatment to patient；The air inlet pipe other end is connected with oxygen gas-storing bag；It is described Oxygen gas-storing bag for storing oxygen.When work, mask is covered on into patient on the face, the oxygen in oxygen gas-storing bag enters In piston cylinder module, oxygen is pushed into heating tube by piston cylinder module to be heated, and the oxygen after heating is inhaled by a patient, Bing Renhu The gas gone out is entered by guide valve in detection module, and the gas that detection module breathes out patient is detected.

Preferably, the detection module includes condensation chamber and sensing chamber, the air that the condensation chamber breathes out patient It is condensed；The sensing chamber is detected condensed liquid.When work, gas that detection module breathes out patient into Row detects ingredient therein after being cooled to liquid.

Preferably, the piston cylinder module includes piston, piston cylinder, micromotor, screw rod, guide rod, annulus, sliding block And link block, the piston are located in piston cylinder, and magnet is equipped in piston；The piston cylinder left end is connected with heating tube, The right end of piston cylinder is connected with air inlet pipe；The micromotor is mounted on piston cylinder；The screw rod and micromotor Motor shaft be fixedly connected, screw rod passes on left guide rod on the piston cylinder；The annulus is sleeved on the outer of piston cylinder Side, annulus can move left and right on piston cylinder, and the material of annulus is magnet；Threaded hole, screw rod are equipped in the sliding block Across the threaded hole of sliding block, electromagnet is installed in sliding block；The link block is for making sliding block that annulus be driven to move left and right.Work When making, when using tidal volume breathing is automatically controlled, micromotor is powered, link block moves up, and sliding block enters connection In the upper grooves of block, the groove below link block is still stuck on annulus, and screw rod rotation, band movable slider moves left and right, sliding Block by link block with and, drive annulus to horizontally slip, piston released oxygen by the magneticaction of annulus；Work as utilization When manually controlling tidal volume breathing, micromotor no power, link block leaves sliding block, and link block is stuck on annulus, pushes manually The i.e. controllable piston of annulus moves left and right.

Preferably, the link block upper and lower surface respectively opens up fluted, and link block is located at the upper surface of annulus, link block Upper grooves in be inlaid with magnet, when sliding block is powered, link block, which moves up, blocks sliding block, and sliding block is located at link block at this time In upper grooves, the lower recess of link block is stuck on annulus.

Preferably, the piston includes piston door, fixed link one, blade one and microgenerator one, the piston Offer circular hole；The piston door hinge is connected on piston, and piston door is located at the left side of circular hole；The fixed link one fixes peace In the circular hole of piston, fixed link one is used for fixed blade one；The blade one is mounted on by shaft in fixed link one； The microgenerator provides electric energy and is used for heating tube and micromotor using the rotation power generation of blade one.When work, piston It is moved to the left, the right side of piston cylinder forms negative pressure, and the oxygen in oxygen gas-storing bag is entered by check valve in piston cylinder, and work is worked as When plug moves right, closed check valve, piston door is pushed open by oxygen, and oxygen pushes blade one to rotate, and drives microgenerator one Power generation, microgenerator one are electrically connected heating tube and micromotor.

Preferably, fixed link two, blade two and microgenerator two, the fixed link are installed in the air inlet pipe Two are installed into tracheal strips；The blade two is mounted on by shaft in fixed link two；The micromotor two utilizes blade Two rotation power generations.When work, when the oxygen in oxygen gas-storing bag passes through air inlet pipe, band movable vane piece two rotates, microgenerator two Power generation.

Preferably, the micromotor is equipped with governor, governor electrical connection and ECG monitor, according to patient's Physical condition, micromotor velocity of rotation are different.When work, micromotor changes rotating speed, provides according to the physical condition of patient Different tidal volumes.

The beneficial effects of the invention are as follows：

1. a kind of Respiratory Medicine respirator of the present invention, piston cylinder module of the present invention coordinates oxygen gas storage Bag and mask, may be implemented to accurately control to the sucking tidal volume of patient, micromotor that piston cylinder module includes, sliding block, work Plug, annulus and link block coordinate each other, and realization automatically controls and manually control push-in tidal volume, and two kinds of selections are for medical staff Selection, micromotor connect electrocardio surveying instrument, may be implemented to automatically adjust push-in tidal volume according to the physical condition of patient, reduce The workload of medical staff.

2. detection module of the present invention realizes the gas breathed out to patient and is detected, referred to for doctor.

3. piston of the present invention includes blade one and microgenerator one, set for itself using the flow electricity generation of oxygen Standby consumption, it is energy saving.

Description of the drawings

The invention will be further described below in conjunction with the accompanying drawings.

Fig. 1 is the sectional view of the present invention；

Fig. 2 is enlarged drawing at A in Fig. 1；

In figure：Mask 1, guide valve 2, heating tube 3, piston cylinder module 4, piston 7, piston door 71, fixed link 1, blade One 73, piston cylinder 41, micromotor 42, screw rod 43, guide rod 44, annulus 45, sliding block 46, link block 47, air inlet pipe 5, fixation Bar 2 51, blade 2 52, oxygen gas-storing bag 6, detection module 8.

Specific implementation mode

In order to make the technical means, the creative features, the aims and the efficiencies achieved by the present invention be easy to understand, tie below Specific implementation mode is closed, the present invention is further explained.

As depicted in figs. 1 and 2, a kind of Respiratory Medicine respirator of the present invention, including mask 1, guide valve 2, heating Pipe 3, piston cylinder module 4, air inlet pipe 5, oxygen gas-storing bag 6 and detection module 8, the mask 1 are mounted under guide valve 2 Side, mask 1 are connected by gas-guide tube and piston cylinder module 4；Closing of the guide valve 2 for regulating and controlling gas-guide tube；Described Detection module 8 is connected by hose and guide valve 2, and the gas of patient's exhalation enters in detection module 8；The heating tube 3 is pacified Mounted in the left side of piston cylinder module 4, heating tube 3 is used for oxygen heating；4 right end of piston cylinder module and air inlet pipe 5 connect It connects, piston cylinder module 4 is used to carry out oxygen uptake treatment to patient；5 other end of air inlet pipe and oxygen gas-storing bag 6 connect；Institute The oxygen gas-storing bag 6 stated is for storing oxygen.When work, mask 1 is covered on into patient on the face, the oxygen in oxygen gas-storing bag 6 It enters in piston cylinder module 4, oxygen is pushed into heating tube 5 and heats by piston cylinder module 4, and the oxygen after heating is inhaled by patient Enter, the gas of patient's exhalation is entered by guide valve 2 in detection module 8, and the gas that detection module 8 breathes out patient is examined It surveys.

As one embodiment of the present invention, the detection module 8 includes condensation chamber and sensing chamber, the condensation Room condenses the air that patient breathes out；The sensing chamber is detected condensed liquid.When work, detection module The gas of 8 couples of patients exhalation carries out detecting ingredient therein after being cooled to liquid.

As one embodiment of the present invention, the piston cylinder module 4 includes piston 7, piston cylinder 41, micromotor 42, screw rod 43, guide rod 44, annulus 45, sliding block 46 and link block 47, the piston 7 is located in piston cylinder 41, in piston 7 Equipped with magnet；41 left end of piston cylinder and heating tube 3 connect, right end and air inlet pipe 5 connection of piston cylinder 41；Described is micro- Type motor 42 is mounted on piston cylinder 41；The screw rod 43 is fixedly connected with the motor shaft of micromotor 42, screw rod 43 Pass on left guide rod 44 on the piston cylinder 41；The annulus 45 is sleeved on the outside of piston cylinder 41, and annulus 45 can be It is moved left and right on piston cylinder 41, the material of annulus 45 is magnet；Threaded hole is equipped in the sliding block 46, screw rod 43, which passes through, to be slided The threaded hole of block 46 is equipped with electromagnet in sliding block 46；The link block 47 is for making sliding block 46 that annulus 45 or so be driven to move It is dynamic.When work, when using tidal volume breathing is automatically controlled, micromotor 42 is powered, link block 47 moves up, sliding block 46 It enters in the upper grooves of link block 47, the groove of 47 lower section of link block is still stuck on annulus 45, and screw rod 43 rotates, band Movable slider 46 moves left and right, sliding block 46 by link block 47 with and, drive annulus 45 to horizontally slip, piston 7 is by annulus 45 Magneticaction, oxygen is released；When using manually control tidal volume breathe when, 42 no power of micromotor, link block 47 from Sliding block 46 is opened, link block 47 is stuck on annulus 45, pushes annulus 45 piston 7 to can control to move left and right manually.

As one embodiment of the present invention, 47 upper and lower surface of link block respectively opens up fluted, link block 47 Positioned at the upper surface of annulus 45, it is inlaid with magnet in the upper grooves of link block 47, when sliding block 46 is powered, link block 47 is to moving up Dynamic to block sliding block 46, sliding block 46 is located in the upper grooves of link block 47 at this time, and the lower recess of link block 47 is stuck in annulus 45 On.

As one embodiment of the present invention, the piston 7 includes piston door 71, fixed link 1, blade 1 With microgenerator one, the piston 7 offers circular hole；The piston door 71 is hinged on piston 7, and piston door 71 is located at The left side of circular hole；The fixed link 1 is fixedly mounted in the circular hole of piston 7, and fixed link 1 is used for fixed blade one 73；The blade 1 is mounted on by shaft in fixed link 1；The microgenerator is rotated using blade 1 Power generation provides electric energy and is used for heating tube 3 and micromotor 42.When work, piston 7 is moved to the left, the right side shape of piston cylinder 41 At negative pressure, the oxygen in oxygen gas-storing bag 6 is entered by check valve in piston cylinder 41, when piston 7 moves right, check valve It closes, piston door 71 is pushed open by oxygen, and oxygen pushes blade 1 to rotate, and drives microgenerator one to generate electricity, microgenerator One electrical connection heating tube and micromotor 42.

As one embodiment of the present invention, fixed link 2 51, blade 2 52 and micro- are installed in the air inlet pipe 5 Generator two, the fixed link 2 51 are installed in air inlet pipe 5；The blade 2 52 is mounted on fixed link two by shaft On 51；The micromotor 42 2 utilizes the rotation power generation of blade 2 52.When work, oxygen in oxygen gas-storing bag 6 by into When tracheae 5, band movable vane piece 2 52 rotates, and microgenerator two generates electricity.

As one embodiment of the present invention, the micromotor 42 is equipped with governor, governor electrical connection with ECG monitor, according to the physical condition of patient, micromotor velocity of rotation is different.When work, micromotor 42 is according to patient Physical condition, change rotating speed, different tidal volumes is provided.

When work, mask 1 is covered on into patient on the face, the oxygen in oxygen gas-storing bag 6 enters in piston cylinder module 4, When using tidal volume breathing is automatically controlled, micromotor 42 is powered, link block 47 moves up, and sliding block 46 enters connection In the upper grooves of block 47, the groove of 47 lower section of link block is still stuck on annulus 45, and screw rod 43 rotates, and band movable slider 46 is left Move right, sliding block 46 by link block 47 with and, drive annulus 45 to horizontally slip, piston 7 by annulus 45 magneticaction, Oxygen is released；When using tidal volume breathing is manually controlled, 42 no power of micromotor, link block 47 leaves sliding block 46, even It connects block 47 to be stuck on annulus 45, pushes annulus 45 piston 7 to can control to move left and right manually；Piston 7 is moved to the left, piston cylinder 41 Right side form negative pressure, the oxygen in oxygen gas-storing bag 6 is entered by check valve in piston cylinder 41, when piston 7 moves right When, closed check valve, piston door 71 is pushed open by oxygen, and oxygen pushes blade 1 to rotate, and microgenerator one is driven to generate electricity, micro- Generator one is electrically connected heating tube and micromotor 42；Oxygen is pushed into heating tube 5 and heats by piston cylinder module 4, heating Oxygen afterwards is inhaled by a patient, and the gas of patient's exhalation is entered by guide valve 2 in detection module 8, and detection module 8 is to patient The gas of exhalation carries out detecting ingredient therein after being cooled to liquid.

The basic principles, main features and advantages of the invention have been shown and described above.The technical staff of the industry should Understand, the present invention is not limited to the above embodiments, and the above embodiments and description only describe the originals of the present invention Reason, without departing from the spirit and scope of the present invention, various changes and improvements may be made to the invention, these changes and improvements It all fall within the protetion scope of the claimed invention.The claimed scope of the invention is by appended claims and its equivalent circle It is fixed.

Claims (7)

1. a kind of Respiratory Medicine respirator, it is characterised in that：Including mask (1), guide valve (2), heating tube (3), piston cylinder Module (4), air inlet pipe (5), oxygen gas-storing bag (6) and detection module (8), the mask (1) are mounted under guide valve (2) Side, mask (1) are connected by gas-guide tube and piston cylinder module (4)；Closing of the guide valve (2) for regulating and controlling gas-guide tube； The detection module (8) is connected by hose and guide valve (2), and the gas of patient's exhalation enters in detection module (8)；It is described Heating tube (3) be mounted on piston cylinder module (4) left side, heating tube (3) be used for oxygen heating；The piston cylinder module (4) right end and air inlet pipe (5) connection, piston cylinder module (4) are used to carry out oxygen uptake treatment to patient；The air inlet pipe (5) is another One end and oxygen gas-storing bag (6) connection；The oxygen gas-storing bag (6) is for storing oxygen.

2. a kind of Respiratory Medicine respirator according to claim 1, it is characterised in that：Detection module (8) packet Condensation chamber and sensing chamber are included, the condensation chamber condenses the air that patient breathes out；The sensing chamber is to condensed Liquid is detected.

3. a kind of Respiratory Medicine respirator according to claim 1, it is characterised in that：The piston cylinder module (4) Including piston (7), piston cylinder (41), micromotor (42), screw rod (43), guide rod (44), annulus (45), sliding block (46) and connect Block (47) is connect, the piston (7) is located in piston cylinder (41), and magnet is equipped in piston (7)；Described piston cylinder (41) left end It is connected with heating tube (3), right end and air inlet pipe (5) connection of piston cylinder (41)；The micromotor (42) is mounted on piston On cylinder (41)；The screw rod (43) is fixedly connected with the motor shaft of micromotor (42), and screw rod (43) pass on left Guide rod (44) is mounted on piston cylinder (41)；The annulus (45) is sleeved on the outside of piston cylinder (41), and annulus (45) can be Piston cylinder moves left and right on (41), and the material of annulus (45) is magnet；Threaded hole, screw rod are equipped in the sliding block (46) (43) threaded hole of sliding block (46) is passed through, electromagnet is installed in sliding block (46)；The link block (47) is for making sliding block (46) annulus (45) is driven to move left and right.

4. a kind of Respiratory Medicine respirator according to claim 3, it is characterised in that：The link block (47) is up and down Surface respectively opens up fluted, and link block (47) is located at the upper surface of annulus (45), is inlaid in the upper grooves of link block (47) Magnet.

5. a kind of Respiratory Medicine respirator according to claim 3, it is characterised in that：The piston (7) includes living Cock (71), fixed link one (72), blade one (73) and microgenerator one, the piston (7) offer circular hole；Described Piston door (71) is hinged on piston (7), and piston door (71) is located at the left side of circular hole；The fixed link one (72) is fixedly mounted In the circular hole of piston (7), fixed link one (72) is used for fixed blade one (73)；The blade one (73) is installed by shaft In fixed link one (72)；The microgenerator using blade one (73) rotation power generation, provide electric energy for heating tube (3) and Micromotor (42) uses.

6. a kind of Respiratory Medicine respirator according to claim 1, it is characterised in that：Peace in the air inlet pipe (5) Equipped with fixed link two (51), blade two (52) and microgenerator two, the fixed link two (51) is installed in air inlet pipe (5)； The blade two (52) is mounted on by shaft in fixed link two (51)；The micromotor (42) two utilizes blade two (52) rotation power generation.

7. a kind of Respiratory Medicine respirator according to claim 3, it is characterised in that：Micromotor (42) peace Equipped with governor, governor electrical connection and ECG monitor, according to the physical condition of patient, micromotor velocity of rotation is different.