CN205307527U - Synchronous intelligent control subassembly is breathed to portable oxygen -increasing machine in plateau - Google Patents

Abstract

The utility model discloses a synchronous intelligent control subassembly is breathed to portable oxygen -increasing machine in plateau relates to the synchronous intelligent control subassembly that is used for the portable oxygen -increasing machine in plateau, belongs to the mechanical control field. The utility model discloses a be used for measuring the reciprocal meaurement of time device of light piston single, cylinder, control circuit board, solenoid valve, the check valve that admits air, air outlet one -way valve, subassembly income gas port and subassembly gas outlet. Control circuit board be used for receiving the reciprocal time signal of light piston single that the measuring device measurement was arrived, still be used for control solenoid to open and close to the extension is calculated and the memory function, realizes the size according to the people of difference intelligent regulation oxygen suppliment volume under the breathing state of difference through control circuit board's embedded algorithm. The utility model provides a problem be provide one kind can according to the people of difference under the breathing state of difference, the synchronous intelligent control subassembly is breathed to portable oxygen -increasing machine in plateau of the size of intelligent regulation oxygen suppliment volume has advantages such as small, light in weight, operation are reliable.

Description

A kind of plateau portable oxygenating machine synchronized with breath intelligent control assembly

Technical field

The disclosed a kind of plateau of the utility model portable oxygenating machine synchronized with breath intelligent control assembly, it relates to a kind of synchronous intelligent control unit for the portable oxygenating machine in plateau, belongs to Mechanical course field.

Background technology

The relevant many employings of control module in prior art, subcontrol pattern combines control and auxiliary two kinds of patterns. When patient exists autonomous respiration, trigger breathing machine can supply gas (pressure activated or flow triggering), show as assisted ventilation; If patient does not have autonomous respiration, or autonomous respiration frequency lower than predeterminated frequency time, respirator force supply gas (time triggered), show as control ventilation. Ultimate principle control and auxiliary mode can hold surely, it is also possible to level pressure, and feature is that the instruction that is that respirator is carried every time is ventilated. But wherein containing gas flow valve, the devices such as gas flow sensor, such design does not just meet the requirement being lightly convenient for carrying. Therefore, it is proposed to a kind of can according to different people under different breathing states, the plateau of the size of Intelligent adjustment oxygen-supplying amount portable oxygenating machine synchronized with breath intelligent control assembly has urgent needs.

Practical novel content

The disclosed a kind of plateau of the utility model portable oxygenating machine synchronized with breath intelligent control assembly, the technical problem solved be to provide a kind of can according to different people under different breathing states, the plateau of the size of Intelligent adjustment oxygen-supplying amount portable oxygenating machine synchronized with breath intelligent control assembly, described plateau portable oxygenating machine synchronized with breath intelligent control assembly has the advantages such as volume is little, weight is light, reliable.

The disclosed a kind of plateau of the utility model portable oxygenating machine synchronized with breath intelligent control assembly, comprises for measuring light piston list time that back and forth the measuring apparatus of time, cylinder, control circuit board, magnetic valve, air inlet check valve, outgassing nonreturn valve, assembly enter gas port and assembly air outlet. The light piston list that described control circuit board measures for receiving measuring apparatus time is time signal back and forth, also opens and closedown for Controlling solenoid valve.The gas port that enters of magnetic valve enters gas port with assembly and is connected, the air outlet of magnetic valve is connected with the steam inlet of cylinder by guide pipeline, light piston is positioned at cylinder interior, cylinder side has the cylinder lateral opening being connected with air inlet check valve, height when the described cylinder side aperture position being connected with air inlet check valve is positioned at bottom higher than light piston. The production well of air inlet check valve is connected with assembly air outlet. Cylinder side also has the cylinder lateral opening being connected with outgassing nonreturn valve, and the position of the described pore being connected with outgassing nonreturn valve should meet the cylinder lateral opening can closed when light piston is positioned at cylinder head and be connected with outgassing nonreturn valve. The cylinder head opening being connected with assembly air outlet is had above cylinder.

Described measuring apparatus preferred embodiment comprises photodiode and photovaristor, has for measuring the reciprocating hole of light piston list time at cylinder bottom side relative position, and photodiode is arranged on the outside corresponding with two holes respectively with photovaristor. Photodiode and photovaristor utilize light sense principle to measure light piston list time to-and-fro movement.

For realization can according to different people under different breathing states, the function of the size of Intelligent adjustment oxygen-supplying amount, control circuit board expansion is calculated and memory function, realizes the size according to different people Intelligent adjustment oxygen-supplying amount under different breathing states by embedding algorithm in control circuit board. The interior embedding algorithm of described control circuit board is: compare with the time length completing for the second time to breathe according to the time that first time has breathed, if second time is shorter than deadline first time, it is short of breath explanation anoxic, after control circuit board compares calculating, the time is opened in Controlling solenoid valve increase, otherwise then reduce Controlling solenoid valve and open the time, reach intelligence and adapt to the steady supply oxygen of user.

For utilizing the respiratory characteristic of people to make valve open and the closedown of air inlet check valve, described air inlet check valve, the preferred soft silica gel sheet of the spring members of outgassing nonreturn valve.

Disclosed in the utility model, the working process of the portable oxygenating machine in a kind of plateau synchronized with breath intelligent control assembly is, assembly enters the breathing pneumatic air making human body comfortable that gas port is added with statistic data and draws, on plateau, when people sucks air, producing negative pressure in breathing apparatus and make air inlet one-way valve opens, light piston is inhaled to top by negative pressure. So, just block without piston between photodiode and photovaristor, the light of photodiode injection just can be delivered to photovaristor, produce pulse signal to control circuit board, magnetic valve is opened by control circuit board, and the breathing pneumatic air making human body comfortable drawn by statistic data enters gas port, air inlet check valve, assembly air outlet inflow breather mask from assembly successively. It is postpone to close signal that light piston inhales what send to control circuit board behind top to high atmospheric pressure magnetic valve, automatically closes the valve of magnetic valve after people completes air-breathing, and high-pressure air is closed. During breath, light piston be pressed towards lower section, waste gas successively from assembly air outlet, outgassing nonreturn valve discharge. Again during air-breathing, light piston is attracted to again top, and control circuit board is got back pulse signal, opens solenoid valve, supply high-pressure air, starts next respiratory movement. The size according to different people Intelligent adjustment oxygen-supplying amount under different breathing states is realized by embedding algorithm in control circuit board.The interior embedding algorithm of described control circuit board is: compare with the time length completing for the second time to breathe according to the time that first time has breathed, if second time is shorter than deadline first time, it is short of breath explanation anoxic, control circuit board Controlling solenoid valve increase can open the time after comparing calculating, otherwise then reduce Controlling solenoid valve and open the time, reach intelligence and adapt to the steady supply oxygen of user.

The breathing pneumatic air making human body comfortable drawn by statistic data is an atmospheric air.

Useful effect:

1, the disclosed a kind of plateau of the utility model portable oxygenating machine synchronized with breath intelligent control assembly, by opening and the turn-off time of algorithm Controlling solenoid valve embedding in control circuit board, and then control light piston to-and-fro movement, it is achieved according to the size of different people Intelligent adjustment oxygen-supplying amount under different breathing states.

2, the disclosed a kind of plateau of the utility model portable oxygenating machine synchronized with breath intelligent control assembly, mainly realizes based on physical construction, therefore, serviceability height, not easily damages.

3, the disclosed a kind of plateau of the utility model portable oxygenating machine synchronized with breath intelligent control assembly, the measuring apparatus that adopts, control circuit board, magnetic valve, air inlet check valve, outgassing nonreturn valve, cylinder all have the features such as volume is little, light weight, and it is light that therefore described a kind of plateau portable oxygenating machine synchronized with breath intelligent control assembly can realize miniaturization, weight.

Accompanying drawing explanation

Fig. 1 is the disclosed a kind of plateau of the utility model portable oxygenating machine synchronized with breath intelligent control component diagram;

Wherein: 1 measuring apparatus, 2 cylinders, 3 control circuit boards, 4 magnetic valves, 5 air inlet check valves, 6 outgassing nonreturn valves, 7 light pistons, 8 cylinder lateral openings, 9 cylinder lateral openings, 10 assemblies as scheduled mouth, 11 assembly air outlets, 12 cylinder head openings.

Embodiment

In order to the purpose of this utility model and advantage are better described, below in conjunction with accompanying drawing and example, the novel content of practicality is described further.

Embodiment 1:

As shown in Figure 1, the disclosed a kind of plateau of the present embodiment portable oxygenating machine synchronized with breath intelligent control assembly, comprises for measuring light piston 7 single time that back and forth the measuring apparatus 1 of time, control circuit board 3, magnetic valve 4, air inlet check valve 5, outgassing nonreturn valve 6, cylinder 2, assembly enter gas port 10 and assembly air outlet 11. The light piston 7 that described control circuit board 3 measures for receiving measuring apparatus 1 single reciprocal time signal, also opens and closedown for Controlling solenoid valve 4. The gas port that enters of magnetic valve 4 enters gas port 10 and is connected with assembly, the air outlet of magnetic valve 4 is connected by the steam inlet of guide pipeline with cylinder 2, it is inner that light piston 7 is positioned at cylinder 2, cylinder 2 side has the cylinder lateral opening 8 being connected with air inlet check valve 5, height when described cylinder lateral opening 8 position being connected with air inlet check valve 5 is positioned at bottom higher than light piston 7. The production well of air inlet check valve 5 is connected with assembly air outlet 11. Cylinder 2 side also has the cylinder lateral opening 9 being connected with outgassing nonreturn valve 6, and the position of the described pore being connected with outgassing nonreturn valve 6 should meet the cylinder lateral opening 9 can closed when light piston 7 is positioned at cylinder 2 top and be connected with outgassing nonreturn valve 6. The cylinder head opening 12 being connected with assembly air outlet 11 is had above cylinder 2.

Described measuring apparatus 1 preferred embodiment comprises photodiode and photovaristor, having for measuring light piston 7 single reciprocating hole at cylinder 2 bottom sides relative position, photodiode is arranged on the outside corresponding with two holes respectively with photovaristor.Photodiode and photovaristor utilize light sense principle to measure light piston 7 single to-and-fro movement.

For realization can according to different people under different breathing states, the function of the size of Intelligent adjustment oxygen-supplying amount, control circuit board 3 is expanded calculate and memory function, realize the size according to different people Intelligent adjustment oxygen-supplying amount under different breathing states by embedding algorithm in control circuit board 3. The interior embedding algorithm of described control circuit board 3 is: compare with the time length completing for the second time to breathe according to the time that first time has breathed, if second time is shorter than deadline first time, it is short of breath explanation anoxic, after control circuit board 3 compares calculating, the time is opened in Controlling solenoid valve 4 increase, otherwise then reduce Controlling solenoid valve 4 and open the time, reach intelligence and adapt to the steady supply oxygen of user.

Disclosed in the present embodiment, the working process of the portable oxygenating machine in a kind of plateau synchronized with breath intelligent control assembly is, assembly enters gas port 10 and adds an atmospheric air, on plateau, when people sucks air, producing negative pressure in breathing apparatus makes air inlet check valve 5 open, and light piston 7 is inhaled to top by negative pressure. So, just block without piston between photodiode and photovaristor, the light of photodiode injection just can be delivered to photovaristor, produce pulse signal to control circuit board 3, magnetic valve 4 is opened by control circuit board 3, and the gas of a normal atmosphere enters gas port 10 from assembly successively, air inlet check valve 5, assembly air outlet 11 flow into breather mask. What light piston 7 inhaled that behind top control circuit board 3 sends to high atmospheric pressure magnetic valve is postpone to close signal, automatically closes the valve of magnetic valve 4 after people completes air-breathing, and high-pressure air is closed. During breath, light piston 7 is pressed towards lower section, waste gas successively from assembly air outlet 11, outgassing nonreturn valve 6 discharges. Again during air-breathing, light piston 7 is attracted to again top, and control circuit board 3 is got back pulse signal, opens solenoid valve 4, supply high-pressure air, starts next respiratory movement. The size according to different people Intelligent adjustment oxygen-supplying amount under different breathing states is realized by embedding algorithm in control circuit board 3. The interior embedding algorithm of described control circuit board 3 is: compare with the time length completing for the second time to breathe according to the time that first time has breathed, if second time is shorter than deadline first time, it is short of breath explanation anoxic, after control circuit board 3 compares calculating, the time is opened in Controlling solenoid valve 4 increase, otherwise then reduce Controlling solenoid valve 4 and open the time, reach intelligence and adapt to the steady supply oxygen of user.

Above-described specific descriptions; the novel object of practicality, technical scheme and useful effect are further elaborated; it is it should be understood that; the foregoing is only specific embodiment of the utility model; and be not used in and limit protection domain of the present utility model; all within spirit of the present utility model and principle, any amendment of making, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Claims (4)

1. a plateau portable oxygenating machine synchronized with breath intelligent control assembly, it is characterised in that: comprise for measuring single time of light piston (7) that back and forth the measuring apparatus (1) of time, cylinder (2), control circuit board (3), magnetic valve (4), air inlet check valve (5), outgassing nonreturn valve (6), assembly enter gas port (10) and assembly air outlet (11); The light piston (7) that described control circuit board (3) measures for receiving measuring apparatus (1) single reciprocal time signal, also opens and closedown for Controlling solenoid valve (4);The gas port that enters of magnetic valve (4) enters gas port (10) and is connected with assembly, the air outlet of magnetic valve (4) is connected by the steam inlet of guide pipeline with cylinder (2), it is inner that light piston (7) is positioned at cylinder (2), cylinder (2) side has the cylinder lateral opening (8) being connected with air inlet check valve (5), height when described cylinder lateral opening (8) position being connected with air inlet check valve (5) is positioned at bottom higher than light piston (7); The production well of air inlet check valve (5) is connected with assembly air outlet (11); Cylinder (2) side also has the cylinder lateral opening (9) being connected with outgassing nonreturn valve (6), and the position of the described pore being connected with outgassing nonreturn valve (6) should meet the cylinder lateral opening (9) can closed when light piston (7) is positioned at cylinder (2) top and be connected with outgassing nonreturn valve (6); Cylinder (2) top has the cylinder head opening (12) being connected with assembly air outlet (11).

2. a kind of plateau according to claim 1 portable oxygenating machine synchronized with breath intelligent control assembly, it is characterized in that: described measuring apparatus (1) preferred embodiment comprises photodiode and photovaristor, having for measuring light piston (7) single reciprocating hole at cylinder (2) bottom sides relative position, photodiode is arranged on the outside corresponding with two holes respectively with photovaristor; Photodiode and photovaristor utilize light sense principle to measure light piston (7) single to-and-fro movement.

3. a kind of plateau according to claim 1 and 2 portable oxygenating machine synchronized with breath intelligent control assembly, it is characterised in that: described air inlet check valve (5), the spring members of outgassing nonreturn valve (6) select soft silica gel sheet.

4. a kind of plateau according to claim 3 portable oxygenating machine synchronized with breath intelligent control assembly, it is characterized in that: described control circuit board (3) expansion calculates and memory function, realizes the size according to different people Intelligent adjustment oxygen-supplying amount under different breathing states by the interior embedding algorithm of control circuit board (3); The interior embedding algorithm of described control circuit board (3) is,

Compare with the time length completing for the second time to breathe according to the time that first time has breathed, if second time is shorter than deadline first time, it is short of breath explanation anoxic, after control circuit board (3) compares calculating, the time is opened in Controlling solenoid valve (4) increase, otherwise then reduce Controlling solenoid valve (4) and open the time, reach intelligence and adapt to the steady supply oxygen of user.