CN204745280U

CN204745280U - Energy -conserving medical oxygenerator

Info

Publication number: CN204745280U
Application number: CN201520531975.7U
Authority: CN
Inventors: 刘大为
Original assignee: Yongchuan Hospital of Chongqing Medical University
Current assignee: Yongchuan Hospital of Chongqing Medical University
Priority date: 2015-07-22
Filing date: 2015-07-22
Publication date: 2015-11-11
Anticipated expiration: 2025-07-22

Abstract

The utility model relates to an energy -conserving medical oxygenerator, including the oxygenerator main part, oxygenerator main part both sides are provided with inlet tube, outlet duct respectively, the inlet tube is connected with the deionizer, the deionizer is connected with the filter through first inlet tube, be provided with the second inlet tube on the filter, the outlet duct is connected with gas separation unit, gas separation unit is connected with the flow control device through first outlet duct the upper end, the flow control device passes through the second outlet duct and is connected with the humidifying bottle, the gas separation unit lower extreme passes through the third outlet duct and is connected with the purification device, purification device both sides set up respectively fourth outlet duct, the 5th outlet duct the fourth outlet duct is connected with the waste gas bottle, the 5th outlet duct is connected with the burning generator, the burning generator passes through the wire and is connected with power storage device, power storage device is connected with the oxygenerator main part. The utility model discloses simple structure, quick, the low power dissipation of system oxygen, environmental protection, safety.

Description

A kind of energy-conservation medical oxygen generator

Technical field

This utility model relates to a kind of medical apparatus, particularly relates to a kind of energy-conservation medical oxygen generator.

Background technology

Along with the continuous renewal of Medical Technology and the variation for the treatment of means, the use amount of medical oxygen is increasing, and the quality standard of use is more and more higher.At present, the principle of medical oxygen producing and method have a variety of, and wherein brine electrolysis method is the most common, its principle is simple, with common water for raw material gains great popularity, but due to the power consumption of brine electrolysis method high, cause cost higher, hinder applying of the method.

Utility model content

It is simple that technical problem to be solved in the utility model is to provide a kind of structure, and oxygen is quick, cost is low, low in energy consumption, the medical oxygen generator of environmental protection, safety.

The technical scheme that this utility model solves the problems of the technologies described above is as follows: a kind of energy-conservation medical oxygen generator, comprise oxygenerator main body, described oxygenerator main body both sides are respectively arranged with water inlet pipe, escape pipe, described water inlet pipe is connected with deionizer, described deionizer is connected with filter by the first water inlet pipe, described filter is provided with the second water inlet pipe, described escape pipe device separated from the gas connects, described gas fractionation unit upper end is connected with volume control device by the first escape pipe, described volume control device is connected with humidification bottle by the second escape pipe, described gas fractionation unit lower end is connected with purifying plant by the 3rd escape pipe, described purifying plant both sides arrange the 4th escape pipe respectively, 5th escape pipe, described 4th escape pipe is connected with waste gas bottle, described 5th escape pipe is connected with burning generators, described burning generators is connected with electrical storage device by wire, described electrical storage device is connected with oxygenerator main body by wire.

On the basis of technique scheme, this utility model can also do following improvement.

Further; described oxygenerator main body comprises: control zone; air storage chamber, tank house; described control zone is provided with electrolysis power, earth leakage protective device, alarm device; described air storage chamber side is provided with dehumidifier, and opposite side is communicated with escape pipe, and described dehumidifier is communicated with tank house by connector; be provided with anode electrolysis rod, catholyte rod in described tank house, described tank house side is connected with water inlet pipe.

The electrolysis power arranged in described control zone supplies for the electric energy of water electrolysis; described earth leakage protective device is used for auto-breaking protection during oxygenerator electric leakage; described alarm device is for warning during oxygenerator fault and prompting; dehumidifier the screening out for steam arranged in described air storage chamber; the anode electrolysis rod arranged in described tank house produces oxygen for brine electrolysis, and the catholyte arranged in described tank house rod produces hydrogen for brine electrolysis.

Further, arrange the compound selection thin film of some ions in described deionizer, described deionizer utilizes the different ions screening property of the compound selection thin film of ion, thus realizes screening out of ion.

Further, described second water inlet pipe is provided with electronics ball valve, described electronics ball valve is used for the on-off control of the second water inlet pipe.

Further, described gas fractionation unit comprises: the first buffer area, the second buffer area, and the molecular screening device be arranged between the first buffer area, the second buffer area, described molecular screening device both sides arrange oxygen outlet, hydrogen outlet respectively, described molecular screening device is used for being separated of oxygen and hydrogen, described first buffer area is used for the buffer memory of oxygen, to reduce the pressure of oxygen in transmitting procedure, described second buffer area is used for the buffer memory of hydrogen, to reduce the pressure of hydrogen in transmitting procedure, avoid producing hidden danger.

Further, described volume control device is provided with effusion meter, described effusion meter is used for the detection of oxygen transmission concentration.

Utility model works principle is as follows: when oxygenerator starts, water source enters filter from the second water inlet pipe and carries out contaminant filter, and enter deionizer by the first water inlet pipe and carry out ion sieve and remove, then the tank house entered in oxygenerator main body by water inlet pipe is carried out cell reaction and produces oxygen, hydrogen, and be communicated with dehumidifier by connector, carry out screening out of steam, carry out the oxygen after the screening out of steam, hydrogen enters molecular screening device by escape pipe, carry out being separated of oxygen and hydrogen, oxygen enters the first buffer area by oxygen outlet, and enter volume control device by the first escape pipe, and it is for subsequent use to enter humidification bottle by the second escape pipe, hydrogen enters the second buffer area by hydrogen outlet, and enter purifying plant by the 3rd escape pipe and purify, waste gas enters waste gas bottle by the 4th escape pipe and collects, hydrogen after purification enters burning generators by the 5th escape pipe and carries out combustion power generation, burning generators by wire by electric energy storage in electrical storage device, electrical storage device is connected with oxygenerator main body by wire, realize the function of supplying power of self.

The beneficial effects of the utility model are: structure is simple, and oxygen is quick, cost is low, low in energy consumption, environmental protection more, safety.

Accompanying drawing explanation

Fig. 1 is a kind of energy-conservation medical oxygen generator structural representation of this utility model;

In accompanying drawing, list of parts representated by each label is as follows: 1, second water inlet pipe, 2, electronics ball valve, 3, filter, 4, first water inlet pipe, 5, deionizer, 6, the compound selection thin film of ion, 7, water inlet pipe, 8, dehumidifier, 9, connector, 10, tank house, 11, anode electrolysis rod, 12, catholyte rod, 13, control zone, 14, oxygenerator main body, 15, 4th escape pipe, 16, waste gas bottle, 17, electrolysis power, 18, earth leakage protective device, 19, alarm device, 20, gas fractionation unit, 21, escape pipe, 22, air storage chamber, 23, first escape pipe, 24, effusion meter, 25, volume control device, 26, humidification bottle, 27, first buffer area, 28, oxygen outlet, 29, molecular screening device, 30, hydrogen outlet, 31, second buffer area, 32, 3rd escape pipe, 33, second escape pipe, 34, 5th escape pipe, 35, wire, 36, electrical storage device, 37, combustion power generation device, 38, purifying plant.

Detailed description of the invention

Be described principle of the present utility model and feature below in conjunction with accompanying drawing, example, only for explaining this utility model, is not intended to limit scope of the present utility model.

As shown in Figure 1, a kind of energy-conservation medical oxygen generator, comprise oxygenerator main body 14, described oxygenerator main body 14 both sides are respectively arranged with water inlet pipe 7, escape pipe 21, described water inlet pipe 7 is connected with deionizer 5, described deionizer 5 is connected with filter 3 by the first water inlet pipe 4, described filter 3 is provided with the second water inlet pipe 1, described escape pipe 21 device 20 separated from the gas connects, described gas fractionation unit 20 upper end is connected with volume control device 25 by the first escape pipe 23, described volume control device 25 is connected with humidification bottle 26 by the second escape pipe 33, described gas fractionation unit 20 lower end is connected with purifying plant 38 by the 3rd escape pipe 32, described purifying plant 38 both sides arrange the 4th escape pipe 15 respectively, 5th escape pipe 34, described 4th escape pipe 15 is connected with waste gas bottle 16, described 5th escape pipe 34 is connected with burning generators 37, described burning generators 37 is connected with electrical storage device 36 by wire 35, described electrical storage device 37 is connected with oxygenerator main body 14 by wire 35.

Described oxygenerator main body 14 comprises: control zone 13; air storage chamber 22, tank house 10; described control zone 13 is provided with electrolysis power 17, earth leakage protective device 18, alarm device 19; described air storage chamber 22 side is provided with dehumidifier 8; opposite side is communicated with escape pipe 21; described dehumidifier 8 is communicated with tank house 10 by connector 9, is provided with anode electrolysis rod 11, catholyte rod 12 in described tank house 10, and described tank house 10 side is connected with water inlet pipe 7.

The electrolysis power 17 arranged in described control zone 13 supplies for the electric energy of water electrolysis; auto-breaking protection when described earth leakage protective device 18 leaks electricity for oxygenerator; described alarm device 19 is for warning during oxygenerator fault and prompting; dehumidifier 8 the screening out for steam arranged in described air storage chamber 22; the anode electrolysis rod 11 arranged in described tank house 10 produces oxygen for brine electrolysis, and the catholyte rod 12 arranged in described tank house 10 produces hydrogen for brine electrolysis.

Arrange the compound selection thin film 6 of some ions in described deionizer 5, described deionizer 5 utilizes the different ions screening property of the compound selection thin film 6 of ion, thus realizes screening out of ion.Described second water inlet pipe 1 is provided with electronics ball valve 2, and described electronics ball valve 2 is for the on-off control of the second water inlet pipe 1.Described gas fractionation unit 20 comprises: the first buffer area 27, second buffer area 31, and the molecular screening device 29 be arranged between the first buffer area 27, second buffer area 31, described molecular screening device 29 both sides arrange oxygen outlet 28, hydrogen outlet 30 respectively, described molecular screening device 29 is separated for oxygen and hydrogen, described first buffer area 27 is for the buffer memory of oxygen, to reduce the pressure of oxygen in transmitting procedure, described second buffer area 31 is for the buffer memory of hydrogen, to reduce the pressure of hydrogen in transmitting procedure, avoid producing hidden danger.Described volume control device 25 is provided with effusion meter 24, and described effusion meter 24 is for the detection of oxygen transmission concentration.

Utility model works principle is as follows: when oxygenerator starts, water source enters filter 3 from the second water inlet pipe 1 and carries out contaminant filter, and enter deionizer 5 by the first water inlet pipe 4 and carry out ion sieve and remove, then the tank house 10 entered in oxygenerator main body 14 by water inlet pipe 7 is carried out cell reaction and produces oxygen, hydrogen, and be communicated with dehumidifier 8 by connector 9, carry out screening out of steam, carry out the oxygen after the screening out of steam, hydrogen enters molecular screening device 20 by escape pipe 21, carry out being separated of oxygen and hydrogen, oxygen enters the first buffer area 27 by oxygen outlet 28, and enter volume control device 25 by the first escape pipe 23, and it is for subsequent use to enter humidification bottle 26 by the second escape pipe 33, hydrogen enters the second buffer area 31 by hydrogen outlet 30, and enter purifying plant 38 by the 3rd escape pipe 32 and purify, waste gas enters waste gas bottle 16 by the 4th escape pipe 15 and collects, hydrogen after purification enters burning generators 37 by the 5th escape pipe 34 and carries out combustion power generation, burning generators 37 by wire 35 by electric energy storage in electrical storage device 36, electrical storage device 36 is connected with oxygenerator main body 14 by wire 35, realize the function of supplying power of self.

The foregoing is only preferred embodiment of the present utility model, not in order to limit this utility model, all within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Claims

1. an energy-conservation medical oxygen generator, it is characterized in that, comprise oxygenerator main body, described oxygenerator main body both sides are respectively arranged with water inlet pipe, escape pipe, described water inlet pipe is connected with deionizer, described deionizer is connected with filter by the first water inlet pipe, described filter is provided with the second water inlet pipe, described escape pipe device separated from the gas connects, described gas fractionation unit upper end is connected with volume control device by the first escape pipe, described volume control device is connected with humidification bottle by the second escape pipe, described gas fractionation unit lower end is connected with purifying plant by the 3rd escape pipe, described purifying plant both sides arrange the 4th escape pipe respectively, 5th escape pipe, described 4th escape pipe is connected with waste gas bottle, described 5th escape pipe is connected with burning generators, described burning generators is connected with electrical storage device by wire, described electrical storage device is connected with oxygenerator main body by wire.

2. a kind of energy-conservation medical oxygen generator according to claim 1; it is characterized in that; described oxygenerator main body comprises: control zone; air storage chamber, tank house, described control zone is provided with electrolysis power, earth leakage protective device, alarm device, and described air storage chamber side is provided with dehumidifier; opposite side is communicated with escape pipe; described dehumidifier is communicated with tank house by connector, and be provided with anode electrolysis rod, catholyte rod in described tank house, described tank house side is connected with water inlet pipe.

3. a kind of energy-conservation medical oxygen generator according to claim 1, is characterized in that, arrange the compound selection thin film of some ions in described deionizer.

4. a kind of energy-conservation medical oxygen generator according to claim 1, is characterized in that, described second water inlet pipe is provided with electronics ball valve.

5. a kind of energy-conservation medical oxygen generator according to claim 1, it is characterized in that, described gas fractionation unit comprises: the first buffer area, the second buffer area, and the molecular screening device be arranged between the first buffer area, the second buffer area, described molecular screening device both sides arrange oxygen outlet, hydrogen outlet respectively.

6. a kind of energy-conservation medical oxygen generator according to claim 1, is characterized in that, described volume control device is provided with effusion meter.