CN206152037U - Gas poisoning first aid breathing machine - Google Patents

Abstract

The utility model discloses a small in size, convenient to carry, treatment are good, the treatment is efficient can carry out the gas poisoning first aid breathing machine that treats fast to patient gas poisoning. The utility model discloses a machine case and with the patient respiratory tube group that the machine case is connected, patient respiratory tube group the machine incasement is provided with the controllable air inlet pipeline of oxygen group, the controllable air inlet pipeline of carbon dioxide group and gas mixing pipeline group respectively, patient respiratory tube group loops through gas mixing pipeline group and the controllable air inlet pipeline of oxygen group is connected with outside oxygen source, patient respiratory tube group loops through gas mixing pipeline group and the controllable air inlet pipeline of carbon dioxide is connected with outside carbon dioxide air supply, patient respiratory tube group still directly passes through the controllable air inlet pipeline of oxygen group is connected with outside oxygen source. The utility model discloses be applied to medical instrument's technical field.

Description

Gassing first-aid respirator

Technical field

The utility model is related to a kind of gassing first-aid respirator.

Background technology

For gassing, traditional treatment is that, by conveying patient hyperbaric oxygen chamber, hyperbaric oxygen chamber therapy is by the way that patient is put Lead to pure oxygen treatment in closed space, but hyperventilation can reduce the content of carbon dioxide, cause the respiratory rate of patient Weaken, the CBF of brain and be transported to brain amount of oxygen reduce.

Traditional hyperbaric oxygentherapy poisoning patient, because hyperbaric oxygen chamber does not possess the limitation such as mobility, time be longer, So that patient send control during there are apneic events.Give emergency treatment to a patient, very urgent, the time is longer, the treatment to patient is got over Difficulty, the sequelae for staying is more.Often many hospitals are connected to after poisoning patient, are just directly sent into hyperbaric oxygen chamber, are not but accounted for Whether patient has ready conditions carries out the treatment of oxygen cabin, causes the dangerous situation that some are unnecessary.

Utility model content

Technical problem to be solved in the utility model is to overcome the deficiencies in the prior art, there is provided a kind of compact, The gassing first aid that fast treating can be carried out to gassing patient that easy to carry, therapeutic effect is good, therapeutic efficiency is high Lung ventilator.

The technical scheme that the utility model is adopted is：The utility model includes cabinet and is connected with the cabinet Patient respiration pipeline group, is respectively arranged with oxygen Controllable Income Air pipeline group, dioxy in cabinet described in the patient respiration pipeline group Change carbon Controllable Income Air pipeline group and gas mixing pipeline group, the patient respiration pipeline group passes sequentially through the gas mixing tube Road group and the oxygen Controllable Income Air pipeline group are connected with external oxygen source of the gas, and the patient respiration pipeline group passes sequentially through institute State gas mixing pipeline group and the carbon dioxide Controllable Income Air pipeline to be connected with outside carbon dioxide air source, the patient Breathing pipeline group is also directly connected by the oxygen Controllable Income Air pipeline group with external oxygen source of the gas.

The oxygen Controllable Income Air pipeline group includes source of oxygen air inlet, oxygen gauge, oxygen pressure regulating valve, oxygen Flow control valve, the first oxygen gas outlet and the second oxygen gas outlet, the source of oxygen air inlet, the oxygen gauge, The oxygen pressure regulating valve, the oxygen flow rate adjusting valve and the first oxygen gas outlet pass sequentially through tracheae and are connected, institute State oxygen gauge to be connected by tracheae with the second oxygen gas outlet, the source of oxygen air inlet and external oxygen source of the gas It is connected.

The gas mixing pipeline group includes being sequentially connected by tracheae gas mixer, the demand valve and mixed for connecing Gas vent is closed, oxygen air inlet and carbon dioxide mouth, the oxygen air inlet are provided with the gas mixer It is connected with the first oxygen gas outlet.

The carbon dioxide Controllable Income Air pipeline group include passing sequentially through the carbon dioxide air source air inlet that tracheae is connected, Carbon dioxide air supply valve, pressurized carbon dioxide force regulating valve, pressure carbon dioxide table and carbon dioxide vent, the dioxy Change carbon gas source air inlet to be connected with outside carbon dioxide air source, the carbon dioxide vent and the carbon dioxide mouth It is connected.

The patient respiration pipeline group includes mixed gas supply pipe, bypass oxygen hose, oxygen bag and breathing mask, institute The main inlet end for stating mixed gas supply pipe is connected with the mixed gas outlet, on the leading portion of the mixed gas supply pipe It is respectively arranged with purity oxygen air inlet and oxygen bag connector, one end of the bypass oxygen hose and the second oxygen outlet Mouth is connected, and the other end is connected with the purity oxygen air inlet, and the oxygen bag connect setting is in the oxygen bag connector On, the breathing mask is arranged on the front port of the mixed gas supply pipe, on the leading portion of the mixed gas supply pipe Expiration port is additionally provided with, the expiration port is placed in the front port and the oxygen bag connector of the mixed gas supply pipe Between body on.

Be provided with from air bag on the mixed gas supply pipe, it is described from air bag connect setting in the expiration port On the body between the oxygen bag connector, also set on the body between air bag and the oxygen bag connector It is equipped with overflow valve.

One-way breather valve is provided with the back side gas outlet of the breathing mask, on the cabinet patient airway is additionally provided with Pressure gauge, the gas outlet of the one-way breather valve is connected with the manometric air inlet of the patient airway by tracheae.

The oxygen gauge shows face, the control handle of the oxygen pressure regulating valve and the oxygen flow The rotary switch of regulating valve is separately positioned on the upper surface of the cabinet, and the source of oxygen air inlet is arranged on the cabinet Side.

The carbon dioxide air source air inlet is arranged on the side of the cabinet, the carbon dioxide air supply valve, described The display face of the control handle of pressurized carbon dioxide force regulating valve and the pressure carbon dioxide table is separately positioned on the machine On the upper surface of case.

Siren is provided between the oxygen gauge and first oxygen outlet, the siren is arranged on described On cabinet.

The beneficial effects of the utility model are：Due to the utility model by oxygen Controllable Income Air pipeline group, carbon dioxide can Control air inlet pipeline group and gas mixing pipeline group are integrated in one, easy to carry, and it is mainly by pneumatically controlled, without the need for appointing What power supply, it is possible to providing treatment to poisoning patient in time；It is per minute logical that the utility model can increase poisoning patient The content of carbon dioxide is not reduced while tolerance, its internal CO gas can be fast and effeciently removed, raising is robbed Speed is rescued, the sequelae shape that patient produces because for the treatment of is reduced；Again because the oxygen absorbed that the utility model can control patient is expected The expiration amount of monitor in real time patient, it is possible to carrying out more accurate effectively treatment to patient.

Description of the drawings

Fig. 1 is cabinet inside gas circuit connection structure schematic diagram of the present utility model；

Fig. 2 is the structural representation of embodiment one of patient respiration pipeline group of the present utility model；

Fig. 3 is the structural representation of embodiment two of patient respiration pipeline group of the present utility model.

Specific embodiment

As shown in Figure 1, Figure 2, Figure 3 shows, the utility model includes cabinet and the patient respiration pipe being connected with the cabinet Road group, be respectively arranged with cabinet described in the patient respiration pipeline group oxygen Controllable Income Air pipeline group, carbon dioxide it is controllable enter Air pipe group and gas mixing pipeline group, the patient respiration pipeline group passes sequentially through the gas mixing pipeline group and institute State oxygen Controllable Income Air pipeline group to be connected with external oxygen source of the gas, the patient respiration pipeline group passes sequentially through the gas mixing Pipeline group and the carbon dioxide Controllable Income Air pipeline are connected with outside carbon dioxide air source, the patient respiration pipeline group Also directly it is connected with external oxygen source of the gas by the oxygen Controllable Income Air pipeline group.

The oxygen Controllable Income Air pipeline group include source of oxygen air inlet 1, oxygen gauge 2, oxygen pressure regulating valve 3, Oxygen flow rate adjusting valve 4, the first oxygen gas outlet and the second oxygen gas outlet, the source of oxygen air inlet 1, the oxygen pressure Power table 2, the oxygen pressure regulating valve 3, the oxygen gas outlet of the oxygen flow rate adjusting valve 4 and first pass sequentially through tracheae phase Connection, the oxygen gauge 2 is connected with the second oxygen gas outlet by tracheae, the source of oxygen air inlet 1 with it is outer Portion's oxygen source is connected.

The gas mixing pipeline group include being sequentially connected by tracheae connect gas mixer 5, demand valve 6 and Mixed gas outlet, is provided with oxygen air inlet and carbon dioxide mouth, the oxygen air inlet on the gas mixer 5 Mouth is connected with the first oxygen gas outlet.

The carbon dioxide Controllable Income Air pipeline group includes passing sequentially through the carbon dioxide air source air inlet that tracheae is connected 7th, carbon dioxide air supply valve 8, pressurized carbon dioxide force regulating valve 9, pressure carbon dioxide table 10 and carbon dioxide vent, institute State carbon dioxide air source air inlet 7 to be connected with outside carbon dioxide air source, the carbon dioxide vent and the titanium dioxide Carbon air inlet is connected.

The patient respiration pipeline group includes mixed gas supply pipe 11, bypass oxygen hose 12, oxygen bag 13 and breathing Mask 14, the main inlet end of the mixed gas supply pipe 11 is connected with the mixed gas outlet, and the mixed gas are supplied Should be respectively arranged with purity oxygen air inlet and oxygen bag connector on the leading portion of pipe 11, one end of the bypass oxygen hose 12 with The second oxygen gas outlet is connected, and the other end is connected with the purity oxygen air inlet, the connect setting of the oxygen bag 13 On the oxygen bag connector, the breathing mask 14 is arranged on the front port of the mixed gas supply pipe 11, described Expiration port 15 is additionally provided with the leading portion of mixed gas supply pipe 11, the expiration port 15 is placed in the mixed gas supply On body between the front port of pipe 11 and the oxygen bag connector.

It is provided with the mixed gas supply pipe 11 from air bag 16, it is described to exhale described from the connect setting of air bag 16 It is described between air bag 16 and the oxygen bag connector on body between gas port 15 and the oxygen bag connector Overflow valve 17 is additionally provided with body.

One-way breather valve 18 is provided with the back side gas outlet of the breathing mask 14, on the cabinet patient is additionally provided with Airway pressure gauge 19, the gas outlet of the one-way breather valve 18 passes through tracheae phase with the air inlet of the patient airway pressure gauge 19 Connection.

The oxygen gauge 2 shows face, the control handle of the oxygen pressure regulating valve 3 and the oxygen stream The rotary switch of adjustable valve 4 is separately positioned on the upper surface of the cabinet, and the source of oxygen air inlet 1 is arranged on the machine The side of case.

The carbon dioxide air source air inlet 7 is arranged on the side of the cabinet, the carbon dioxide air supply valve 8, institute The display face of the control handle and the pressure carbon dioxide table 10 of stating pressurized carbon dioxide force regulating valve 9 is separately positioned on institute State on the upper surface of cabinet.

Siren 20 is provided between the oxygen gauge 2 and first oxygen outlet, the siren 20 is arranged On the cabinet.

The utility model is applied to the technical field of medicine equipment.

Although embodiment of the present utility model is described with practical solution, do not constitute and the utility model is contained The restriction of justice, for those skilled in the art, according to this specification to the modification of its embodiment and the group with other schemes Conjunction will be apparent from.

Claims (10)

1. a kind of gassing first-aid respirator, it is characterised in that：It includes cabinet and the patient being connected with the cabinet Breathing pipeline group, is respectively arranged with oxygen Controllable Income Air pipeline group, carbon dioxide in cabinet described in the patient respiration pipeline group Controllable Income Air pipeline group and gas mixing pipeline group, the patient respiration pipeline group passes sequentially through the gas mixing pipeline group And the oxygen Controllable Income Air pipeline group is connected with external oxygen source of the gas, the patient respiration pipeline group passes sequentially through the gas Body mixed pipe line group and the carbon dioxide Controllable Income Air pipeline are connected with outside carbon dioxide air source, the patient respiration Pipeline group is also directly connected by the oxygen Controllable Income Air pipeline group with external oxygen source of the gas.

2. gassing first-aid respirator according to claim 1, it is characterised in that：The oxygen Controllable Income Air pipeline group Including source of oxygen air inlet（1）, oxygen gauge（2）, oxygen pressure regulating valve（3）, oxygen flow rate adjusting valve（4）, the first oxygen Gas gas outlet and the second oxygen gas outlet, the source of oxygen air inlet（1）, the oxygen gauge（2）, the oxygen pressure Regulating valve（3）, the oxygen flow rate adjusting valve（4）And first oxygen gas outlet pass sequentially through tracheae and be connected, the oxygen Pressure gauge（2）It is connected by tracheae with the second oxygen gas outlet, the source of oxygen air inlet（1）With external oxygen source of the gas It is connected.

3. gassing first-aid respirator according to claim 2, it is characterised in that：The gas mixing pipeline group includes The gas mixer for connecing is sequentially connected by tracheae（5）, demand valve（6）And mixed gas outlet, the gas mixing Device（5）On be provided with oxygen air inlet and carbon dioxide mouth, the oxygen air inlet and the first oxygen gas outlet It is connected.

4. gassing first-aid respirator according to claim 3, it is characterised in that：The carbon dioxide Controllable Income Air pipe Road group includes passing sequentially through the carbon dioxide air source air inlet that tracheae is connected（7）, carbon dioxide air supply valve（8）, titanium dioxide Carbon pressure force regulating valve（9）, pressure carbon dioxide table（10）And carbon dioxide vent, the carbon dioxide air source air inlet （7）It is connected with outside carbon dioxide air source, the carbon dioxide vent is connected with the carbon dioxide mouth.

5. gassing first-aid respirator according to claim 4, it is characterised in that：The patient respiration pipeline group includes Mixed gas supply pipe（11）, bypass oxygen hose（12）, oxygen bag（13）And breathing mask（14）, the mixed gas supply Pipe（11）Main inlet end be connected with the mixed gas outlet, the mixed gas supply pipe（11）Leading portion on set respectively It is equipped with purity oxygen air inlet and oxygen bag connector, the bypass oxygen hose（12）One end and the second oxygen gas outlet It is connected, the other end is connected with the purity oxygen air inlet, the oxygen bag（13）Connect setting connects in the oxygen bag On mouth, the breathing mask（14）It is arranged on the mixed gas supply pipe（11）Front port on, mixed gas supply Pipe（11）Leading portion on be additionally provided with expiration port（15）, the expiration port（15）It is placed in the mixed gas supply pipe（11） Front port and the oxygen bag connector between body on.

6. gassing first-aid respirator according to claim 5, it is characterised in that：The mixed gas supply pipe（11） On be provided with from air bag（16）, it is described from air bag（16）Connect setting is in the expiration port（15）Connect with the oxygen bag It is described from air bag on body between interface（16）Overflow valve is additionally provided with the body between the oxygen bag connector （17）.

7. gassing first-aid respirator according to claim 5, it is characterised in that：The breathing mask（14）The back side One-way breather valve is provided with gas outlet（18）, patient airway pressure gauge is additionally provided with the cabinet（19）, it is described unidirectionally to exhale Inhale valve（18）Gas outlet and the patient airway pressure gauge（19）Air inlet be connected by tracheae.

8. gassing first-aid respirator according to claim 2, it is characterised in that：The oxygen gauge（2）It is aobvious Show face, the oxygen pressure regulating valve（3）Control handle and the oxygen flow rate adjusting valve（4）Rotary switch difference It is arranged on the upper surface of the cabinet, the source of oxygen air inlet（1）It is arranged on the side of the cabinet.

9. gassing first-aid respirator according to claim 4, it is characterised in that：The carbon dioxide air source air inlet （7）It is arranged on the side of the cabinet, the carbon dioxide air supply valve（8）, the pressurized carbon dioxide force regulating valve（9）Control Knob processed and the pressure carbon dioxide table（10）Show face be separately positioned on the upper surface of the cabinet.

10. gassing first-aid respirator according to claim 2, it is characterised in that：The oxygen gauge（2）With institute State and be provided with siren between the first oxygen outlet（20）, the siren（20）It is arranged on the cabinet.