CN201787790U - Solar driven oxygen separator - Google Patents

Abstract

The utility model relates to a solar driven oxygen separator, which comprises a valve H. Energy storage liquid can flow through the valve H, the left end of the valve H is connected to the right end of a pump via a pipe, the left end of the pump is connected to the lower end of a liquid storage tank via a pipe, the right end of the liquid storage tank is communicated to the left end of a heat exchanger via a pipe, a plurality of nozzle condensers are uniformly arranged in a pipe which connects the right end of the liquid storage tank to the left end of the heat exchanger, a water inlet pipe and a water outlet pipe are respectively arranged at the left end and the right end of the lower surface of the heat exchanger, the heat exchanger is connected with the valve H via the water inlet pipe and is connected to the left end of a solar heat collector via the water outlet pipe, the right end of the solar heat collector is communicated to the heat exchanger via a pipe, a mains supply control circuit is arranged under the solar heat collector, and a pipe led from the pipe joint of the solar heat collector and the heat exchanger is connected with an oxygen separator. The solar driven oxygen separator has the advantages of simple structure, capability of saving energy, environmental protection, and the like.

Description

The oxygen separator of Driven by Solar Energy

Technical field:

The utility model relates to oxygen separator, and particularly a kind of oxygen separator of Driven by Solar Energy mainly is applicable to the separation of oxygen.

Background technology:

General oxygen separator is not that utilization solar energy provides power on the domestic market at present, major part is utilized electric energy, and neither environmental protection also is unfavorable for marketing, absorbs also more complicated of solar energy equipment, and the solar energy transfer rate is not high yet, safety coefficient is not too high, and manufactured materials consumption is big, oxygen separator the structure more complicated, isolated is not liquid oxygen, so be the gas that gas mixes other easily, it is not too thorough separating, and isolated oxygen is not too pure.

Summary of the invention:

The purpose of this utility model is in order to overcome above deficiency, provide a kind of simple in structure, cost is low, the oxygen separator of Driven by Solar Energy.

The purpose of this utility model is achieved through the following technical solutions: a kind of oxygen separator of Driven by Solar Energy, comprise valve H, valve H is mainly for by accumulation of energy liquid, valve H left end is by pipeline connected pump right-hand member, described pump left end links to each other with the fluid reservoir lower end by pipeline, fluid reservoir mainly is a savings accumulation of energy liquid, accumulation of energy liquid flows out from fluid reservoir under the effect of pump, described fluid reservoir right-hand member communicates with the heat exchanger left end by pipeline, evenly be provided with a plurality of nozzle condensers in the pipeline of the continuous described heat exchanger left end of described fluid reservoir right-hand member, described heat exchanger lower surface left end and right-hand member are respectively equipped with water inlet pipe and outlet pipe, described heat exchanger links to each other with described valve H by described water inlet pipe, heat exchanger is by the left end of the continuous solar thermal collector of described outlet pipe, described solar thermal collector right-hand member communicates with described heat exchanger by pipeline, described solar thermal collector below is provided with city's control circuit, described city control circuit is connected in the whole system by electric wire, the frequency of city's control circuit control whole system, the segment pipe that draw described solar thermal collector and heat-exchanger pipeline junction is connected with oxygen separator, described oxygen separator comprises piston, described piston right side links to each other with iron block B, described iron block B below is connected with iron block A, be equipped with valve J on the described iron block A, described iron block A lower right is provided with fan air intake, described fan air intake is installed on the pipeline, on the direction pipeline of pipeline, valve K is installed successively, valve C, valve D, be equipped with valve F on the pipeline of described valve D right side, pipeline between described valve D and the described valve F is provided with valve E, described valve F top pipeline is provided with valve G, described valve C, valve D, valve K, valve F, valve E and valve G are connected on the valve positioner by electric wire, and valve positioner is controlled the Kai Heguan of these valves.

The utlity model has following advantage: under the condition of liquid state, oxygen separation is come out, separate thoroughly.The power that uses is the energy-conserving and environment-protective of Driven by Solar Energy, this system architecture is also very simple, adopt valve to control, simple to operate, the efficient that solar energy converts heat energy to is also high, and the boiling point native system that does not need to reach accumulation of energy liquid also can carry out work, piston can directly compress heat energy, also greatly reduce the loss of energy, where the sun is easy to is calculated, does not need sensor to follow the tracks of.

Description of drawings:

Fig. 1 is a structural representation of the present utility model;

Number in the figure: 1-valve H, 2-pump, 3-fluid reservoir, 4-heat exchanger, 5-nozzle condenser, 6-water inlet pipe, 7-solar thermal collector, 8-city control circuit, 9-oxygen separator, 10-piston, 11-iron block B, 12-iron block A, 13-fan air intake, 14-valve J, 15-valve K, 16-valve C, 17-valve D, 18-valve F, 19-valve E, 20-valve G, 21-valve positioner, 22-outlet pipe.

The specific embodiment:

In order to deepen understanding of the present utility model, the utility model is described in further detail below in conjunction with embodiment and accompanying drawing, and this embodiment only is used to explain the utility model, does not constitute the qualification to the utility model protection domain.

Show the oxygen separator of a kind of Driven by Solar Energy of the utility model as Fig. 1, comprise valve H1, valve H1 is mainly for by accumulation of energy liquid, valve H1 left end is by pipeline connected pump 2 right-hand members, described pump 2 left ends link to each other with fluid reservoir 3 lower ends by pipeline, fluid reservoir 3 mainly is a savings accumulation of energy liquid, accumulation of energy liquid flows out from fluid reservoir 3 under the effect of pump 2, described fluid reservoir 3 right-hand members communicate with heat exchanger 4 left ends by pipeline, evenly be provided with a plurality of nozzle condensers 5 in the pipeline of continuous described heat exchanger 4 left ends of described fluid reservoir 3 right-hand members, nozzle condenser 5 mainly is the condensation for accumulation of energy liquid, described heat exchanger 4 lower surface left ends and right-hand member are respectively equipped with water inlet pipe 6 and outlet pipe 22, described heat exchanger 4 links to each other with described valve H1 by described water inlet pipe 6, heat exchanger 4 is by the left end of described outlet pipe 22 continuous solar thermal collectors 7, described solar thermal collector 7 right-hand members communicate with described heat exchanger 4 by pipeline, described solar thermal collector 4 belows are provided with city's control circuit 8, described city control circuit 8 is connected in the whole system by electric wire, the frequency of city's control circuit 8 control whole systems, the segment pipe that described solar thermal collector 7 and heat exchanger 4 pipeline junctions are drawn is connected with oxygen separator 9, described oxygen separator 9 comprises piston 10, described piston 10 right sides link to each other with iron block B11, described iron block B11 below is connected with iron block A12, be equipped with valve J14 on the described iron block A12, described iron block A12 lower right is provided with fan air intake 13, described fan air intake 13 is installed on the pipeline, on the direction pipeline of pipeline, valve K15 is installed successively, valve C16, valve D17, be equipped with valve F18 on the pipeline of described valve D17 right side, pipeline between described valve D17 and the described valve F18 is provided with valve E19, described valve F18 top pipeline is provided with valve G20, described valve C16, valve D17, valve K15, valve F18, valve E19 and valve G20 are connected on the valve positioner 21 by electric wire, the Kai Heguan of valve positioner 21 these valves of control.

The utility model is isolated oxygen from air overall thought is according to different gas different boiling points to be arranged, allow boiling point be lower than getting rid of earlier of oxygen, the condensation of pressurizeing then, liquid oxygen is extracted, last open more all valves, continue to enter ozone by fan air intake, enter next circulation.During use valve H1 is opened, accumulation of energy this moment liquid enters solar thermal collector 7, under the effect of sunshine, accumulation of energy liquid reaches certain temperature, transform light energy is a heat energy, part accumulation of energy liquid is through over-heat-exchanger 4, in cooling by nozzle condenser 5, get back to fluid reservoir 3, continue next circulation, the heat energy that produces promotes piston 10 motions of oxygen separator 9, by the control of valve positioner 21, the valve of oxygen separator 9 is all opened, and this moment, fan air intake 13 also entered fresh air, under heat energy promotes, iron block A12 compresses, and this moment, valve C16 and valve J14 opened valve E19, valve F18, valve G20, valve J14 and valve K15 close, to certain temperature, emit the gas that boiling point is higher than oxygen this moment, the condensation of pressurizeing again, valve D17 at this moment, valve F18 and valve J14 are opening, valve C16, valve E19, valve G20, K15 closes with valve, just can extract gaseous state oxygen.The utlity model has under the condition of liquid state oxygen separation is come out, separate thoroughly.The power that uses is the energy-conserving and environment-protective of Driven by Solar Energy, this system architecture is also very simple, adopt valve to control, simple to operate, the efficient that solar energy converts heat energy to is also high, and the boiling point native system that does not need to reach accumulation of energy liquid also can carry out work, piston can directly compress heat energy, also greatly reduce the loss of energy, where the sun is easy to is calculated, does not need sensor advantage such as to follow the tracks of.

Claims (1)

1. the oxygen separator of a Driven by Solar Energy, comprise valve H (1), it is characterized in that: described valve H (1) one end links to each other with pump (2) by pipeline, described pump (2) links to each other with fluid reservoir (3) by pipeline, described fluid reservoir (3) communicates with heat exchanger (4) by pipeline, evenly be provided with a plurality of nozzle condensers (5) in the pipeline between described fluid reservoir (3) and the heat exchanger (4), described heat exchanger (4) is provided with water inlet pipe (6) and outlet pipe (22), described heat exchanger (4) links to each other with described valve H (1) by described water inlet pipe (6), described heat exchanger (4) links to each other with an end of solar thermal collector (7) by described outlet pipe (6), the other end of described solar thermal collector (7) also communicates with described heat exchanger (4) by pipeline, the below of described heat exchanger (4) is provided with city's control circuit (8), described city control circuit (8) is connected on the described valve H (1) by electric wire, pipeline between described solar thermal collector (7) and the described heat exchanger (4) is connected with oxygen separator (9) by a segment pipe, described oxygen separator (9) comprises piston (10), pipeline between described solar thermal collector (7) and the described heat exchanger (4) is connected on the piston (10) by a segment pipe, one side of described piston (10) links to each other with iron block B (11), described iron block B (11) below is connected with iron block A (12), be equipped with valve J (14) on the described iron block A (12), the below of described iron block A (12) is provided with fan air intake (13), described fan air intake (13) is installed on the end of pipeline, along described fan air intake (13), valve K (15) also is installed on this pipeline successively, valve C (16), valve D (17), be equipped with valve F (18) on the pipeline of described valve D (17) right side, pipeline between described valve D (17) and the described valve F (18) is provided with valve E (19), described valve F (18) top pipeline is provided with valve G (20), described valve C (16), valve D (17), valve K (15), valve F (18), valve E (19) and valve G (20) are connected on the valve positioner (21) by electric wire.

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