CN109990405A - A kind of anti-infection care device of division of respiratory disease - Google Patents

Abstract

The invention discloses a kind of anti-infection care devices of division of respiratory disease, including cabinet and the chamber door for being hinged on cabinet side, axial flow blower is provided on the lateral surface of the cabinet, air filter is provided at the air intake vent of the axial flow blower, connecting gas transmission pipe at the air outlet of the axial flow blower, the other end of the appendix is connected to drier, cylinder is eliminated with ozone and is connected in the gas outlet of the drier, the outlet side that the ozone eliminates cylinder is connected to by pipeline with the inside bottom of Ozone Absorption case, inorganic metal salting liquid is loaded in the Ozone Absorption case, Ozone Absorption case upper end is plugged with escape pipe.Beneficial effect is: a kind of anti-infection care device of division of respiratory disease of the present invention can thoroughly sterilize air and steam, guarantee that the spore in humid air, sporangiocyst and virus are thoroughly killed, Disinfection Effect is better than by the way of disinfection by ultraviolet light.

Description

A kind of anti-infection care device of division of respiratory disease

Technical field

The present invention relates to medical instruments fields, and in particular to a kind of anti-infection care device of division of respiratory disease.

Background technique

With the development of the social economy, air quality is worse and worse, especially in completed region of the city, haze is very serious, Therefore in recent years whenever winter approached, the division of respiratory disease patient of hospital admission is gone just to increase sharply, patient's cross-infection in order to prevent, breathing Section is generally fitted provided with anti-infection care device, however, the anti-infection care device of common division of respiratory disease is in reality currently on the market There are still some problems in use process；

For example application No. is 201820170223.6 Chinese patents, disclose a kind of anti-infection care device of division of respiratory disease, Including cavity, inside cavity is equipped with water tank, filter chamber, exhaust fan, heating room, gas degerming room and respirator disinfection room, wherein Filter chamber is communicated by exhaust fan with gas degerming room；The first ultraviolet lamp is equipped in gas degerming room, gas degerming room is connected with One dismountable respirator；Water tank is equipped with the electric atomizing head of an insertion gas degerming chamber interior；It heats to be equipped in room and add Heat pipe；Infrared shooting device and the second ultraviolet lamp are equipped in respirator disinfection room, infrared shooting device is electrically connected the second purple Outer lamp；

The above-mentioned anti-infection care device of division of respiratory disease carries out sterilizing to humid air using ultraviolet light, and ultraviolet light is easy By many material absorbings in water, therefore, it is difficult to guarantee disinfection fully and completely, and when disinfection by ultraviolet light needs certain irradiation Between, the speed air flow in the above-mentioned anti-infection care device of division of respiratory disease is very fast, not can guarantee air at all by thorough whole Disinfection, in addition, ultraviolet light is poor to the bactericidal effect of spore, sporangiocyst and virus, because spore, sporangiocyst and virus tolerance are high, In addition irradiation time is not grown, and therefore, it is difficult to guarantee that spore, sporangiocyst and virus are thoroughly killed.

Summary of the invention

The object of the invention is that a kind of anti-infection care device of division of respiratory disease is provided to solve the above-mentioned problems, with solution Certainly the anti-infection care device of division of respiratory disease is poor using ultraviolet radiation for sterilizing and disinfecting effect in the prior art, can not be fully and completely to sky Gas and steam carry out sterilizing.In many technical solutions provided by the invention preferred technical solution can be realized to air and The technologies effects such as steam is thoroughly sterilized, and guarantees that the spore in humid air, sporangiocyst and virus are thoroughly killed, and Disinfection Effect is good Fruit, elaboration as detailed below.

To achieve the above object, the present invention provides following technical schemes:

The anti-infection care device of a kind of division of respiratory disease provided by the invention, including cabinet and the chamber door for being hinged on cabinet side, It is provided with axial flow blower on the lateral surface of the cabinet, air filter is provided at the air intake vent of the axial flow blower, it is described The other end of connecting gas transmission pipe at the air outlet of axial flow blower, the appendix is connected to drier, the outlet of the drier Mouth is eliminated cylinder with ozone and is connected to, and the outlet side that the ozone eliminates cylinder is connected to by pipeline with the inside bottom of Ozone Absorption case, Inorganic metal salting liquid is loaded in the Ozone Absorption case, Ozone Absorption case upper end is plugged with escape pipe, the outlet Flow direction on pipe along gas is sequentially installed with semiconductor cooler, moisture filter and humidity sensor；

The processor being electrically connected with humidity sensor is installed on the chamber door medial surface, is installed on the chamber door lateral surface The current regulator for having the display being electrically connected with processor and being electrically connected with semiconductor cooler；

The ozone eliminates cylinder and includes the cylinder being connected to drier and be mounted on the intracorporal ozone decomposition catalyst of cylinder；

The moisture filter includes connecting the shell of escape pipe and being mounted on the intracorporal waterproof ventilated membrane of shell；

The appendix is also connected to air supply pipe, and the other end of the air supply pipe is connected to ozone generator, the ozone The air inlet of generator is equipped with air pump, is also equipped with check valve on the air supply pipe.

As the significant design of this case, blender, the upper table of the Ozone Absorption case are installed in the Ozone Absorption case Face is equipped with stirring motor, and the stirring motor and blender are sequentially connected.

As the optimization design of this case, condenser is also equipped on the escape pipe, the condenser is located at semiconductor system Between cooler and Ozone Absorption case.

As the optimization design of this case, the semiconductor cooler is cylindrical, and is tightly placed on escape pipe, wherein cylinder Inner wall be semiconductor cooler cold end face.

As the optimization design of this case, multiple radiator fans are installed on the chamber door, it is corresponding with fan on the cabinet Position be provided with vent window；

Wherein, the semiconductor cooler, moisture filter and condenser are between fan and vent window.

As the optimization design of this case, observation window, the Ozone Absorption are provided on the chamber door and Ozone Absorption case Filling opening is additionally provided on case.

As the optimization design of this case, electric heater is installed in bottom in the Ozone Absorption case.

Beneficial effect is: a kind of anti-infection care device of division of respiratory disease of the present invention can carry out air and steam Thoroughly disinfection guarantees that the spore in humid air, sporangiocyst and virus are thoroughly killed, and Disinfection Effect is than using disinfection by ultraviolet light Mode is good.

Detailed description of the invention

In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, to embodiment or will show below There is attached drawing needed in technical description to be briefly described, it should be apparent that, the accompanying drawings in the following description is only this Some embodiments of invention for those of ordinary skill in the art without creative efforts, can be with It obtains other drawings based on these drawings.

Fig. 1 is main view of the invention；

Fig. 2 is left view of the invention；

Fig. 3 is the cross-sectional view of Fig. 1 of the invention；

Fig. 4 is the structural schematic diagram after chamber door of the present invention is opened；

Fig. 5 is the partial enlarged view of Fig. 3 of the present invention.

The reference numerals are as follows:

1, cabinet；2, chamber door；3, axial flow blower；4, air filter；5, appendix；6, ozone generator；7, air pump；8, Air supply pipe；9, check valve；10, drier；11, cylinder；12, ozone decomposition catalyst；13, Ozone Absorption case；14, observation window； 15, filling opening；16, blender；17, stirring motor；18, escape pipe；19, condenser；20, semiconductor cooler；21, shell； 22, waterproof ventilated membrane；23, humidity sensor；24, processor；25, display；26, electric heater；27, current regulator；28, Vent window；29, radiator fan.

Specific embodiment

To make the object, technical solutions and advantages of the present invention clearer, technical solution of the present invention will be carried out below Detailed description.Obviously, described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.Base Embodiment in the present invention, those of ordinary skill in the art are obtained all without making creative work Other embodiment belongs to the range that the present invention is protected.

Referring to shown in Fig. 1-Fig. 5, a kind of anti-infection care device of division of respiratory disease provided by the invention, including cabinet 1 and hinged Chamber door 2 in 1 side of cabinet is provided with axial flow blower 3 on the lateral surface of cabinet 1, and axial flow blower 3 is for sucking outside air In appendix 5, air filter 4 is provided at the air intake vent of axial flow blower 3, air filter 4 can first carry out outside air Coarse filtration, filters out the objects such as dust, the impurity in air, connecting gas transmission pipe 5 at the air outlet of axial flow blower 3, appendix 5 it is another End is connected to drier 10, and in order to extend the service life of ozone decomposition catalyst 12, special install additional in ozone elimination cylinder front end is done Dry device 10 guarantees that it is dry for entering the gaseous mixture that ozone is eliminated in cylinder for being filtered to the steam in air ozone gaseous mixture Dry, because steam can reduce the service life of ozone decomposition catalyst 12, the gas outlet of drier 10 and ozone are eliminated cylinder and are connected Logical, the outlet side that ozone eliminates cylinder is connected to by pipeline with the inside bottom of Ozone Absorption case 13, and Ozone Absorption case 13 is used for pair Ozone in air carries out secondary filter absorption, and ozone before eliminates cylinder and is used to absorb the ozone in air for the first time, Ozone is free of in certifiable air by absorbing twice, is loaded with inorganic metal salting liquid in Ozone Absorption case 13, it is contemplated that smelly Solubility of the oxygen in inorganic metal salting liquid is bigger than pure water, therefore spy absorbs ozone with inorganic metal salting liquid, and ozone is inhaled It receives 13 upper end of case and is plugged with escape pipe 18, be sequentially installed with semiconductor cooler along the flow direction of gas on escape pipe 18 20, moisture filter and humidity sensor 23, semiconductor cooler 20 are used to adjust the temperature of air, and moisture filter was used for Liquid water molecules in air filtering, in addition, outlet can also be adjusted by being matched by semiconductor cooler 20 and moisture filter The temperature and humidity for the air that pipe 18 is discharged, detailed adjusting method are described later；

Referring to shown in Fig. 1 and Fig. 4, the processor 24 being electrically connected with humidity sensor 23, case are installed on 2 medial surface of chamber door The display 25 being electrically connected with processor 24 and the current regulation being electrically connected with semiconductor cooler 20 are installed on 2 lateral surfaces of door Device 27, humidity sensor 23 detects the humidity for the air that escape pipe 18 is discharged and humidity information is passed to processor 24, through locating Reason device 24 is shown on display 25 after handling, and current regulator 27 is used to adjust the electric current for flowing through semiconductor cooler 20, after And control the heating speed or refrigerating speed of semiconductor cooler 20；

Shown in Figure 3, ozone eliminates cylinder and includes the cylinder 11 being connected to drier 10 and be mounted on smelly in cylinder 11 Oxygen decomposition catalyst 12；

Shown in Figure 3, moisture filter includes the waterproof for connecting the shell 21 of escape pipe 18 and being mounted in shell 21 Ventilated membrane 22；

Referring to figure 1 and figure 2, appendix 5 is also connected to air supply pipe 8, the other end and ozone generator 6 of air supply pipe 8 Connection, the air inlet of ozone generator 6 are equipped with air pump 7, and check valve 9 is also equipped on air supply pipe 8, and setting check valve 9 can be prevented Only the air in appendix 5 is escaped from air supply pipe 8.

As optional embodiment, blender 16, the upper surface of Ozone Absorption case 13 are installed in Ozone Absorption case 13 Stirring motor 17 is installed, stirring motor 17 and blender 16 are sequentially connected, and increasing blender 16 can accelerate ozone in inorganic gold Belong to the decomposition rate in salting liquid.

Be also equipped with condenser 19 on escape pipe 18, condenser 19 be located at semiconductor cooler 20 and Ozone Absorption case 13 it Between, condenser 19 is used to carry out vapor tentatively cooling, the water vapor in air being discharged in Ozone Absorption case 13 just now after all Bigger, if not pre-cooling a part of vapor, Subsequent semiconductor refrigerator 20 can not cool down largely in a short time Vapor.

Semiconductor cooler 20 is cylindrical, and is tightly placed on escape pipe 18, and wherein the inner wall of cylinder is semiconductor system The cold end face of cooler 20.

Multiple radiator fans 29 are installed, position corresponding with fan is provided with vent window 28 on cabinet 1 on chamber door 2；

Wherein, semiconductor cooler 20, moisture filter and condenser 19 are set in this way between fan and vent window 28 Meter, can in time cool down to semiconductor cooler 20, moisture filter and condenser 19 when summer outside air temperature is higher, guarantee Semiconductor cooler 20, moisture filter and condenser 19 work normally.

It is provided with observation window 14 on chamber door 2 and Ozone Absorption case 13, filling opening 15 is additionally provided on Ozone Absorption case 13.

Electric heater 26 is installed, setting electric heater 26 is for accelerating ozone inorganic in Ozone Absorption case 13 in bottom Decomposition rate and solution rate in metal salt solution.

The above-mentioned anti-infection care device of division of respiratory disease, in the course of work, axial flow blower 3 is by outside air through air filter 4 It is sent into appendix 5 after filtering, enters ozone then along appendix 5 and eliminate in cylinder, when air passes through ozone generator 6, The ozone of generation is sent into air clean with filtering in appendix 5 by air supply pipe 8 and mixed by ozone generator 6, relies on The powerful oxidation susceptibility of ozone thoroughly kills various bacteriums, microorganism, virus, spore, the sporangiocyst etc. in air, in addition ozone It is dissolved in water, so even there was dampness in the air, also it doesn't matter, and ozone in the same old way can kill the microorganisms such as virus, bacterium in water, and And it is shorter the time required to ozonization, almost instantaneously just air sterillization is finished, ozone can kill various bacteriums, micro- in addition Biology, virus, spore, sporangiocyst are a kind of good wide-spectrum bactericides, therefore disinfection efficiency and Disinfection Effect compare conventional ultra-violet The mode of line disinfection will be got well, and in order to guarantee that ozone can be adequately disinfected to air, appendix 5 is programmable longer, guarantee to enter Ozone is eliminated the air in cylinder and is all sterilized completely, since ozone has penetrating odor, and is harmful to the human body, therefore need Remaining ozone in purified air is eliminated, although ozone is unstable, oxygen is readily decomposed to, in gas transmission It does not ensure that ozone all decomposes in pipe 5, therefore installs ozone additional in the other end of appendix 5 and eliminate cylinder, ozone is eliminated in cylinder Ozone decomposition catalyst 12 ozone can be carried out to be decomposed to form oxygen, in this way, by ozone eliminate cylinder after air in it is several Ozone is free of, but has a possibility that ozone to prevent also remaining in air, eliminates the air after cylinder is eliminated by ozone It also needs to be sent into Ozone Absorption case 13 and secondary filter is carried out to air, absorb remaining ozone in air, guarantee that air is pure Ozone free residual, inorganic metal salting liquid in Ozone Absorption case 13 can dissolved ozone, solubility property is more taller than pure water, adds Ozone it is unstable in water, be easy to decompose, and temperature is higher, and decomposition rate is faster, it is therefore desirable to start electric heater 26 Inorganic metal salting liquid is heated, to promote the solubility and decomposition rate of ozone, while controlling the drive of stirring motor 17 The rotation stirring inorganic metal salting liquid of blender 16, further speeds up the decomposition of ozone, ozone formed after decomposing oxygen and with original Air is mixed into escape pipe 18, and the semiconductor cooler 20 being mounted on escape pipe 18 can adjust the temperature of air Section, makes it suitable for sufferer use, moisture filter for filtering air in liquid water steamed because inorganic metal salting liquid is heated The vapor that hair is formed can make air humidity bigger, therefore in order to adjust the humidity of air, can pass through 20 He of semiconductor cooler Condenser 19 cools down to air, and vapor is made to liquefy to the cold, and the water after liquefying in this way will be by anti-in moisture filter Water ventilated membrane 22 stops, and then reduces the humidity of air, and liquid water flows back to Ozone Absorption case finally along the tube wall of escape pipe 18 In 13, and then it is admitted in respirator across waterproof ventilated membrane 22 from the pure air that escape pipe 18 is discharged and is used for sufferer, In actual use, in order to adjust the discharge of escape pipe 18 air humidity, can be by control semiconductor cooler 20 come real It is existing, when needing to increase air humidity, air can be heated by semiconductor cooler 20, increase air themperature, accordingly Liquefied vapor is just reduced in escape pipe 18, and the vapor across waterproof ventilated membrane 22 just increases, corresponding 18 row of escape pipe The humidity of air out just rises, and when needing reduces air humidity, can be dropped by semiconductor cooler 20 to air Temperature, in this way, liquefied vapor just increases in escape pipe 18, the liquid water being liquefied as increases, and passes through waterproof and breathable accordingly The steam vapour amount of film 22 is just reduced, and the humidity for the air that last escape pipe 18 is discharged just declines, i.e., semiconductor cooler 20 heats The humidity of air, the air that escape pipe 18 is discharged increases, 20 cooling air of semiconductor cooler, the air that escape pipe 18 is discharged Humidity reduces, and certainly in actual use, air can not be heated too hot, it is also not possible to which cooled is too cold, empty Temperature degree is typically all to float in a small range, and the humidity of respective air also slightly changes.

The above description is merely a specific embodiment, but scope of protection of the present invention is not limited thereto, any Those familiar with the art in the technical scope disclosed by the present invention, can easily think of the change or the replacement, and should all contain Lid is within protection scope of the present invention.Therefore, protection scope of the present invention should be based on the protection scope of the described claims.

Claims (7)

1. a kind of anti-infection care device of division of respiratory disease, including cabinet (1) and it is hinged on the chamber door (2) of cabinet (1) side, feature It is: is provided with axial flow blower (3) on the lateral surface of the cabinet (1), is arranged at the air intake vent of the axial flow blower (3) free Air filter (4), connecting gas transmission pipe (5) at the air outlet of the axial flow blower (3), the other end of the appendix (5) and dry Dry device (10) connection, the gas outlet of the drier (10) are eliminated cylinder with ozone and are connected to, and the outlet side that the ozone eliminates cylinder is logical Piping is connected to the inside bottom of Ozone Absorption case (13), and it is molten to be loaded with inorganic metal salt in the Ozone Absorption case (13) Liquid, Ozone Absorption case (13) upper end is plugged with escape pipe (18), along the flow direction of gas on the escape pipe (18) It is sequentially installed with semiconductor cooler (20), moisture filter and humidity sensor (23)；

The processor (24) being electrically connected with humidity sensor (23) is installed, the chamber door (2) is outside on chamber door (2) medial surface The display (25) being electrically connected with processor (24) and the electric current tune being electrically connected with semiconductor cooler (20) are installed on side It saves device (27)；

It includes that the cylinder (11) being connected to drier (10) and the ozone being mounted in cylinder (11) are decomposed that the ozone, which eliminates cylinder, Catalyst (12)；

The moisture filter includes the waterproof ventilated membrane for connecting the shell (21) of escape pipe (18) and being mounted in shell (21) (22)；

The appendix (5) is also connected to air supply pipe (8), and the other end of the air supply pipe (8) is connected to ozone generator (6), The air inlet of the ozone generator (6) is equipped with air pump (7), is also equipped with check valve (9) on the air supply pipe (8).

2. the anti-infection care device of a kind of division of respiratory disease according to claim 1, it is characterised in that: the Ozone Absorption case (13) it is equipped with blender (16) in, the upper surface of the Ozone Absorption case (13) is equipped with stirring motor (17), the stirring Motor (17) and blender (16) are sequentially connected.

3. the anti-infection care device of a kind of division of respiratory disease according to claim 1 or 2, it is characterised in that: the escape pipe (18) be also equipped on condenser (19), the condenser (19) be located at semiconductor cooler (20) and Ozone Absorption case (13) it Between.

4. the anti-infection care device of a kind of division of respiratory disease according to claim 3, it is characterised in that: the semiconductor cooler (20) cylindrical, and be tightly placed on escape pipe (18), wherein the inner wall of cylinder is the cold end face of semiconductor cooler (20).

5. the anti-infection care device of a kind of division of respiratory disease according to claim 4, it is characterised in that: pacify on the chamber door (2) Equipped with multiple radiator fans (29), position corresponding with fan is provided with vent window (28) on the cabinet (1)；

Wherein, the semiconductor cooler (20), moisture filter and condenser (19) are located between fan and vent window (28).

6. the anti-infection care device of a kind of division of respiratory disease according to claim 4 or 5, it is characterised in that: the chamber door (2) and It is provided on Ozone Absorption case (13) observation window (14), is additionally provided with filling opening (15) on the Ozone Absorption case (13).

7. the anti-infection care device of a kind of division of respiratory disease according to claim 6, it is characterised in that: the Ozone Absorption case (13) it is equipped in interior bottom electric heater (26).