CN206434676U - A kind of tidal volume visualizing monitor respirator - Google Patents

Abstract

The utility model discloses a kind of tidal volume visualizing monitor respirator, including lid, piston handle, connecting tube, the first turning connector, the second turning connector and oxygen hose on respiratory cavity, air bag, piston, respiratory cavity；Lid is arranged on the upside of respiratory cavity on respiratory cavity；The top covered on respiratory cavity is connected to the first turning connector bottom, and the first turning connector right-hand member is connected with connecting tube left end, and the right-hand member of connecting tube is connected to the left end of the second turning connector, and the bottom of the second turning connector is connected to air bag；The left end of respiratory cavity, which is provided with the upside of respiratory siphon, respiratory siphon, is provided with back seat, and back seat bottom is provided with fish mouth flap valve entrance, and back seat is connected with respiratory siphon, and back seat top is provided with fish mouth flap valve；It is provided with the left of respiratory siphon on piston, piston and is provided with piston handle；The lower end of respiratory siphon is provided with opening.The utility model can intuitively see the dynamic degree of the patient respiratory of state after anesthesia, improve clinical safety degree, and cheap, be moved easily.

Description

A kind of tidal volume visualizing monitor respirator

Technical field

The utility model is related to a kind of medical instruments field, specifically a kind of tidal volume visualizing monitor respirator.

Background technology

In clinical patients particularly local anaesthesia, Balance anesthesia need to patient carry out Breathing movement (tidal volume) supervise Survey；The anesthesia respirator for clinically there was only electronics now can intuitively see Breathing movement (tidal volume), but this breathing The high cost of machine, and it is not easily shifted, and the space of occupancy is big；And such lung ventilator feedback coefficient when monitoring patient's tidal volume According to having delay, if general patient can not autonomous respiration just have within 1 minute respective record alarm, doctor is short of hands, it is impossible to During the monitoring breath state of full energy, it is possible to because the delay of this minute cause should not malpractice, to patient and doctor Institute all brings huge loss；Simultaneously some emergency episodes cause patient stupor do not possess lung ventilator in the case of, doctor is even more The means of complexity are needed to monitor the breath state of patient.

Utility model content

The purpose of this utility model is to provide a kind of tidal volume visualizing monitor respirator, to solve above-mentioned background technology The problem of middle proposition.

To achieve the above object, the utility model provides following technical scheme：

A kind of tidal volume visualizing monitor respirator, including lid on respiratory cavity, air bag, piston, respiratory cavity, piston handle, Connecting tube, the first turning connector, the second turning connector and oxygen hose；Lid is arranged on the upside of respiratory cavity on respiratory cavity；It is described The top covered on respiratory cavity is connected to the first turning connector bottom, and the first turning connector right-hand member connects with connecting tube left end Connect, the right-hand member of the connecting tube is connected to the left end of the second turning connector, the bottom of the second turning connector is connected to Air bag；The left end of the respiratory cavity, which is provided with the upside of respiratory siphon, the respiratory siphon, is provided with back seat, and back seat bottom is provided with fish Mouth flap valve entrance, back seat is connected with respiratory siphon, and the back seat top is provided with fish mouth flap valve；It is provided with the left of the respiratory siphon Piston handle is provided with piston, piston；The right side closing of the respiratory siphon, the right side upper end of the respiratory siphon is provided with expiration Lid, right side lower end is provided with opening, and aperture position is corresponding with the position of patient respiration pipe.

It is used as further program of the utility model：The respiratory cavity top is provided with external screw thread, the respiratory cavity and covered Bottom is provided with the mating connection that lid passes through external screw thread and internal thread with respiratory cavity on internal thread, respiratory cavity.

It is used as the utility model further scheme：Telescopic mounting is provided with the connecting tube.

It is used as the utility model further scheme：On the respiratory cavity End-tidal carbon dioxide is additionally provided with lid Concentration monitor interface, End-tidal carbon dioxide concentration monitor interface is connected to gas concentration lwevel monitoring device.

It is used as the utility model further scheme：The respiratory cavity bottom is connected to patient respiration pipe.

It is used as the utility model further scheme：The top of the second turning connector is additionally provided with oxygen hose Hole, the oxygen hose passes through oxygen pore, and oxygen hose one end is connected to the oxygen tank other end and extended in air bag.

Compared with prior art, the beneficial effects of the utility model are：

The utility model can intuitively see the dynamic degree of the patient respiratory of state after anesthesia, and breathing can be improved to a certain extent The discovery rate of dynamic degree bad patient's very first time：So as to avoid unnecessary the medical tangle even generation of malpractice.Early Note abnormalities, give timely processing, increase the safety of patient, it is to avoid the unnecessary waste of medical resource.So as to improve clinical peace Whole degree.

The utility model is low-cost, portable, without space limitation, has oxygen to work, is moved easily.

All structures of the utility model are using sterilization preservation after demountable structure, convenient use is spliced, then to next Individual patient recycles, and medical treatment cost is low.

Brief description of the drawings

Fig. 1 is the structural representation of tidal volume visualizing monitor respirator.

Fig. 2 is the 1- respiratory cavity top views of tidal volume visualizing monitor respirator.

In figure：1- respiratory cavitys, 2- respiratory siphons, 3- End-tidal carbon dioxide concentration monitor interfaces, 4- fish mouth flap valves, 5- first Covered on turning connector, 6- connecting tubes, 7- the second turning connectors, 8- oxygen hoses, 9- air bags, 10- respiratory cavitys, 21- piston hands Handle, 22- pistons, 23- back seats, 24- expiration covers.

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the utility model embodiment is carried out Clearly and completely describe, it is clear that described embodiment is only a part of embodiment of the utility model, rather than whole Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not under the premise of creative work is made The every other embodiment obtained, belongs to the scope of the utility model protection.

Referring to Fig. 1, in the utility model embodiment, a kind of tidal volume visualizing monitor respirator, including respiratory cavity 1, Air bag 9, piston 22, lid 10, piston handle 21, connecting tube 6, the first turning connector 5, the second turning connector 7 on respiratory cavity With oxygen hose 8；The top of respiratory cavity 1 is provided with the bottom of lid 10 on external screw thread, the respiratory cavity and is provided with internal thread, respiratory cavity The mating connection that upper lid 10 passes through external screw thread and internal thread with respiratory cavity 1；Pass through lid 10 on screw thread group and respiratory cavity easy to connect Dismounting to clean；The bottom of respiratory cavity 1 is connected to patient respiration pipe；The top of lid 10 is connected on the respiratory cavity The bottom of first turning connector 5, the right-hand member of the first turning connector 5 is connected with the left end of connecting tube 6, the right side of the connecting tube 6 End is connected to the left end of the second turning connector 7, and the bottom of the second turning connector 7 is connected to air bag 9；Described second turn The top of curved connector 7 is additionally provided with oxygen pore, and the oxygen hose 8 passes through oxygen pore, and the one end of oxygen hose 8 is connected to oxygen The tank other end is extended in air bag 9；Telescopic mounting is provided with the connecting tube 6, can be according to patient expiration's situation or age Situation selects different length connecting tube, preferably to observe sacculus situation；The left end of the respiratory cavity 1 is provided with respiratory siphon 2, The upside of the respiratory siphon 2 is provided with back seat 23, and the bottom of back seat 23 is provided with fish mouth flap valve entrance, and back seat 23 connects with respiratory siphon 2 Logical, the top of back seat 23 is provided with fish mouth flap valve 4, and fish mouth flap valve 4 is opened when exhaling, closed during air-breathing；The respiratory siphon 2 Left side be provided with piston 22, piston 22 and be provided with piston handle 21, by promoting piston handle 21 to control piston 22 to block The amount of the fish mouth flap valve entrance of back seat 23, piston 22 can block or not block or partly block fish mouth flap valve entrance, so as to adjust Expiratory gas volume size, which changes, exhales gas concentration lwevel in chamber, Hypocapnia caused by prevention is excessively exhaled；The breathing The right side closing of pipe 2, the right side upper end of respiratory siphon 2 is provided with expiration cover 24, uses gas and enters fish mouth flap valve 4, breathing as far as possible The right side lower end of pipe 2 is provided with opening, and aperture position is corresponding with the position of patient respiration pipe；On the respiratory cavity on lid 10 also End-tidal carbon dioxide concentration monitor interface 3 is provided with, End-tidal carbon dioxide concentration monitor interface 3 is connected to dense carbon dioxide Spend monitoring device.

Operation principle of the present utility model is：

This lung ventilator is connected into patient respiratory pipe, during patient expiration, the gas of exhalation is breathed while entering by respiratory cavity 1 Pipe 2 enters back seat 23 by respiratory siphon 2, is then breathed out by fish mouth flap valve 4, and the gas push fish mouth flap valve 4 of exhalation is opened； The gas of exhalation is while enter End-tidal carbon dioxide concentration monitor interface 3 on respiratory cavity on lid 10 subsequently into titanium dioxide Carbon detection device carries out the gas concentration lwevel detection of exhaled gas；

During patient breaths, oxygen enters air bag 9 by oxygen hose 8, can increase the volume of air bag 9, then oxygen passes through Connecting tube 6 enters respiratory cavity 1 subsequently into patient respiration pipe, and now fish mouth flap valve 4 is closed；So in breathing During sacculus 9 can present change diminish greatly, fish mouth flap valve page 4 can present openings, closing do action, by observe sacculus with Fish mouth flap valve can find the situation of patient.

It is obvious to a person skilled in the art that the utility model is not limited to the details of above-mentioned one exemplary embodiment, and And in the case of without departing substantially from spirit or essential attributes of the present utility model, this practicality can be realized in other specific forms It is new.Therefore, no matter from the point of view of which point, embodiment all should be regarded as exemplary, and is nonrestrictive, this practicality New scope limits by appended claims rather than described above, it is intended that will fall equivalency in claim All changes in implication and scope are included in the utility model.Any reference in claim should not be considered as limit The involved claim of system.

Moreover, it will be appreciated that although the present specification is described in terms of embodiments, not each embodiment is only wrapped Containing an independent technical scheme, this narrating mode of specification is only that for clarity, those skilled in the art should Using specification as an entirety, the technical solutions in the various embodiments may also be suitably combined, forms those skilled in the art It may be appreciated other embodiment.

Claims (6)

1. a kind of tidal volume visualizing monitor respirator, it is characterised in that including respiratory cavity (1), air bag (9), piston (22), exhale Inhale lid (10), piston handle (21), connecting tube (6), the first turning connector (5), the second turning connector (7) and oxygen on chamber Manage (8)；(10) are covered on respiratory cavity to be arranged on the upside of respiratory cavity (1)；The top that (10) are covered on the respiratory cavity is connected to first turn Curved connector (5) bottom, the first turning connector (5) right-hand member is connected with connecting tube (6) left end, the connecting tube (6) Right-hand member is connected to the left end of the second turning connector (7), and the bottom of the second turning connector (7) is connected to air bag (9)；Institute The left end for stating respiratory cavity (1) is provided with the upside of respiratory siphon (2), the respiratory siphon (2) and is provided with back seat (23), back seat (23) bottom End is provided with fish mouth flap valve entrance, and back seat (23) is connected with respiratory siphon (2), and back seat (23) top is provided with fish mouth flap valve (4)；It is provided with the left of the respiratory siphon (2) on piston (22), piston (22) and is provided with piston handle (21)；The respiratory siphon (2) right side closing, the right side upper end of the respiratory siphon (2) is provided with expiration cover (24), the right side lower end of the respiratory siphon (2) Opening is provided with, aperture position is corresponding with the position of patient respiration pipe.

2. tidal volume visualizing monitor respirator according to claim 1, it is characterised in that respiratory cavity (1) top Be provided with external screw thread, the respiratory cavity cover (10) bottom be provided with internal thread, respiratory cavity cover (10) pass through with respiratory cavity (1) The mating connection of external screw thread and internal thread.

3. tidal volume visualizing monitor respirator according to claim 1, it is characterised in that set on the connecting tube (6) It is equipped with telescopic mounting.

4. tidal volume visualizing monitor respirator according to claim 1, it is characterised in that cover (10) on the respiratory cavity On be additionally provided with End-tidal carbon dioxide concentration monitor interface (3), End-tidal carbon dioxide concentration monitor interface (3) is connected to two Carbonoxide concentration monitoring device.

5. tidal volume visualizing monitor respirator according to claim 1, it is characterised in that respiratory cavity (1) bottom It is connected to patient respiration pipe.

6. tidal volume visualizing monitor respirator according to claim 1, it is characterised in that the second turning connector (7) top is additionally provided with oxygen pore, and the oxygen hose (8) passes through oxygen pore, and oxygen hose (8) one end is connected to oxygen tank The other end is extended in air bag (9).