CN104296301A - Aseptic humidifier - Google Patents

Abstract

The invention relates to an aseptic humidifier. The aseptic humidifier comprises a humidifier body assembly and a water tank assembly; the humidifier body assembly comprises a humidifier body upper shell arranged on a first water storage tank, a second water storage tank and a third water storage tank, an ultrasonic atomization assembly arranged at the third water storage tank, a heating assembly arranged at the second water storage tank and a heat exchanger arranged on the humidifier body upper shell; the interior of the first water storage tank is provided with an ejection rod and a first water outlet, a second water inlet and a second water outlet are formed in the second water storage tank, and a third water inlet is formed in the third water storage tank; the heat exchanger comprises a water inlet channel, a water outlet channel and a heat exchange wall, a fourth water inlet of the water inlet channel is in butt joint with the first water outlet of the first water storage tank, a fourth water outlet of the water inlet channel is in butt joint with the second water inlet of the second water storage tank, a fifth water inlet of the water outlet channel is in butt joint with the second water outlet of the second water storage tank, and a fifth water outlet of the water outlet channel is in butt joint with the third water inlet of the third water storage tank. Water mist sprayed out from the aseptic humidifier is free of bacteria, and the body health of a user cannot be influenced.

Description

Aseptic humidifier

 

[ technical field]

The present invention relates to air humidification, particularly relate to humidifier, particularly relate to and vibrate the humidifier of spraying by recycling ultrasonic wave after the killing bacteria in water.

[ background technology]

In air humidifier, ultrasonic humidifier is low and add the large advantage of moisture because having energy consumption, and commercially occupancy volume is maximum; The humidifier of this type adopts ultrasonic atomization assembly, utilizes ultrasonic wave water concussion to be nebulized, then blows in air, reach the object of humidifying air.Prior art humidifier has following weak point: when using humidifier, first can not ensure that everyone can use pure water to carry out humidification, and the water secondly in water tank is unavoidable meeting breed bacteria in put procedure; The water smoke produced due to prior art humidifier is droplet, so some bacteriums etc. in water can be diffused in air with water smoke, affects the healthy of user.

[ summary of the invention]

The technical problem to be solved in the present invention is avoid above-mentioned the deficiencies in the prior art part and provide a kind of aseptic humidifier, there is the advantages such as structure simple, safe and reliable and life-span is long, and the water smoke that this aseptic humidifier gushes out does not have bacterium, the healthy of user can not be affected.

The technical scheme that the present invention solve the technical problem employing is:

A kind of aseptic humidifier is provided, comprises frame assembly and be placed on the cistern assembly on this frame assembly, described cistern assembly comprises water tank, the valve part of the tank lid being provided with delivery port and the water outlet being arranged on tank lid, described water tank comprises the water storage cavity volume being provided with water filling port, go out mist passage and fog outlet, described valve part comprises valve rod, valve block and spring, be arranged on the water filling port place of the water storage cavity volume of described water tank described tank lid movable sealing, after described water tank dress water, to the valve rod of the described valve part of extrapolation under the elastic force effect of the spring of described valve part, the valve block of described valve part is from the interior delivery port sealing described tank lid, water in described water tank would not spill, described frame assembly comprises fuselage upper casing and ultrasonic atomization assembly, described fuselage upper casing is provided with the first aqua storage tank holding the water flowed out from described cistern assembly, in described first aqua storage tank, is provided with push rod, described first aqua storage tank is also provided with the first delivery port, described fuselage upper casing is also provided with the second aqua storage tank holding the water flowed out in described first aqua storage tank and the 3rd aqua storage tank holding the water flowed out in described second aqua storage tank, described second aqua storage tank is provided with the second water inlet and the second delivery port, and described 3rd aqua storage tank is provided with the 3rd water inlet, described ultrasonic atomization assembly is arranged on the 3rd aqua storage tank place of described fuselage upper casing, described frame assembly also comprises the heating component being heated to by the water in described second aqua storage tank seethe with excitement, and the heat exchanger of the metal material that described first aqua storage tank, the second aqua storage tank be connected with the 3rd aqua storage tank, heat exchanger generally adopts the metal materials such as aluminium alloy that heat conductivility is good and kirsite to make, described heating component is arranged on the second aqua storage tank place of described fuselage upper casing, described heat exchanger comprises the exhalant canal water of described first aqua storage tank guided to the intake tunnel in described second aqua storage tank and is guided to by the water of described second aqua storage tank in described 3rd aqua storage tank, and the heat exchange walls between described intake tunnel and exhalant canal, described heat exchanger is arranged on described fuselage upper casing, 4th water inlet of intake tunnel described in it and the first delivery port of described first aqua storage tank connect, 4th delivery port of described intake tunnel and the second water inlet of described second aqua storage tank connect, 5th water inlet of described exhalant canal and the second delivery port of described second aqua storage tank connect, 5th delivery port of described exhalant canal and the 3rd water inlet of described 3rd aqua storage tank connect.During work, the described cistern assembly that normal-temperature water is housed is placed on described frame assembly, the valve rod of the valve of cistern assembly described in the push rod jack-up of the first aqua storage tank of described fuselage upper casing, and push the valve block of the valve of the water outlet of the tank lid of cistern assembly described in shutoff open, normal-temperature water in the water tank of described cistern assembly flow in described first aqua storage tank, the normal-temperature water of described first aqua storage tank flow in the intake tunnel of described heat exchanger by its first delivery port through the 4th water inlet of the intake tunnel of described heat exchanger again, flow in described second aqua storage tank through the 4th delivery port of described intake tunnel and the second water inlet of described second aqua storage tank again, the 5th water inlet through the second delivery port of described second aqua storage tank and the exhalant canal of described heat exchanger after normal-temperature water in described second aqua storage tank is heated to boiling by described heating component flow in the exhalant canal of described heat exchanger, hot water in described exhalant canal carries out heat exchange by the heat exchange walls of described heat exchanger and the normal-temperature water of described intake tunnel, flow in described 3rd aqua storage tank through the 5th delivery port of described exhalant canal and the 3rd water inlet of described 3rd aqua storage tank after the hot water of described exhalant canal is lowered the temperature, flow into the water of having lowered the temperature in described 3rd aqua storage tank and become water smoke by described ultrasonic atomization assembly concussion, enter room air through fog outlet again from the mist passage that goes out of described water tank.

Described heating component is a kind of boiler components, and comprise boiler and the heater of metal material, described heater is arranged on the bottom of described boiler, described boiler comprises cavity volume, 6th water inlet and the 6th delivery port, described boiler is arranged in described second aqua storage tank, second water inlet of its 6th water inlet and described second aqua storage tank connects, 6th delivery port then connects with the second delivery port of described second aqua storage tank, the water flowed out in the second water inlet of described second aqua storage tank is made to flow directly in the cavity volume of described boiler by described 6th water inlet, the second delivery port through described 6th delivery port and the second aqua storage tank after water in the cavity volume of described boiler is heated to boiling by described heater flow in the exhalant canal of described heat exchanger.

Described heat exchanger is open type, its intake tunnel and exhalant canal are uncovered L-type groove, the intake tunnel of L-type groove and some laid out in parallel of exhalant canal of L-type groove define described heat exchange walls, and the water inlet of the intake tunnel at this heat exchange walls place is contrary with the water outlet direction of exhalant canal.Described frame assembly also comprises the gland for the steam explosion in by ebuillition of heated process of anti-sealing, and the heat exchanger of open type and described heating component cover by this gland.Described frame assembly also comprises for anti-sealing is produced the baffle plate that hot water flows back to the intake tunnel of described heat exchanger during ebuillition of heated, this baffle plate is arranged on the 4th water outlet of the exhalant canal of described heat exchanger, makes the 4th delivery port of described exhalant canal become one article of slit.

Or, described heat exchanger is closed, its intake tunnel and exhalant canal are closed pipeline, the intake tunnel of closed conduct and some laid out in parallel of the exhalant canal of closed conduct define described heat exchange walls, and the water inlet of the intake tunnel at this heat exchange walls place is contrary with the water outlet direction of exhalant canal.The part intake tunnel of laid out in parallel and exhalant canal have also wrapped up the heat exchange ring that a circle is used for carrying out heat exchange jointly.Described frame assembly also comprises the gland for the steam explosion in by ebuillition of heated process of anti-sealing, and described heating component 13 covers by this gland.

Or, described heat exchanger is closed, its intake tunnel and exhalant canal are closed pipeline, wherein some intake tunnel and some exhalant canal are arranged with one heart, the inside of concentric arrangement is exhalant canal, outside is intake tunnel, and the tube wall of the exhalant canal of the inside of so concentric arrangement just defines described heat exchange walls, and the water inlet of the intake tunnel at this heat exchange walls place is contrary with the water outlet direction of exhalant canal.Described frame assembly also comprises the gland for the steam explosion in by ebuillition of heated process of anti-sealing, and described heating component covers by this gland.

Compared with the existing technology comparatively, the beneficial effect of aseptic humidifier of the present invention is:

1, water becomes water smoke again and enters in air after being heated to boiling, and the bacterium in water is killed by high temperature, can not affect health;

2, because the core part of ultrasonic atomization assembly can not work for a long time under high water temperature, and the present invention is flowed to ultrasonic atomization assembly place by the water after heating again after cooled, can not damage be caused to the core part of ultrasonic atomization assembly, the service life of product can not be had influence on;

3, heat exchanger adopts water-cooling pattern, and structure is simple and safe and reliable.

In sum, aseptic humidifier of the present invention has the advantages such as structure simple, safe and reliable and life-span is long, and the water smoke that this aseptic humidifier gushes out does not have bacterium, can not affect the healthy of user.

[ accompanying drawing explanation]

Fig. 1 is the orthographic projection side cross sectional views of aseptic humidifier preferred embodiment one of the present invention;

Fig. 2 is that cross-sectional schematic is overlooked in the orthographic projection of described aseptic humidifier preferred embodiment one, and the arrow A in figure represents the direction of water flow;

Fig. 3 is the orthographic projection side partial schematic sectional view of described aseptic humidifier preferred embodiment one;

Fig. 4 is the axonometric projection schematic diagram of the frame assembly of described aseptic humidifier preferred embodiment one;

Fig. 5 is the axonometric projection schematic diagram of the heat exchanger of described aseptic humidifier preferred embodiment one;

Fig. 6 is the axonometric projection schematic diagram when heat exchanger in Fig. 5 placed gland and be assembled with baffle plate;

Fig. 7 is the orthographic projection side cross sectional views of aseptic humidifier preferred embodiment two of the present invention;

Fig. 8 is the axonometric projection schematic diagram of the frame assembly of described aseptic humidifier preferred embodiment two;

Fig. 9 is the orthographic projection side partial schematic sectional view of described aseptic humidifier preferred embodiment two;

Figure 10 is the axonometric projection schematic diagram of the heat exchanger of described aseptic humidifier preferred embodiment two;

Figure 11 is the axonometric projection schematic diagram after the heat exchanger in Figure 10 is partly cut across;

Figure 12 is the orthographic projection side cross sectional views of aseptic humidifier preferred embodiment three of the present invention;

Figure 13 is the axonometric projection schematic diagram of the frame assembly of described aseptic humidifier preferred embodiment three;

Figure 14 is the orthographic projection side partial schematic sectional view of described aseptic humidifier preferred embodiment three;

Figure 15 is the axonometric projection schematic diagram of the heat exchanger of described aseptic humidifier preferred embodiment three;

Figure 16 is the axonometric projection schematic diagram after the heat exchanger in Figure 15 is partly cut across.

[detailed description of the invention]

Below in conjunction with each accompanying drawing, the present invention is described in further detail.

See Fig. 1 to Figure 16, a kind of aseptic humidifier, the cistern assembly 2 comprising frame assembly 1 and be placed on this frame assembly 1, described cistern assembly 2 comprises water tank 21, the valve part 23 at the tank lid 22 being provided with delivery port 221 and delivery port 221 place being arranged on tank lid 22, described water tank 21 comprises the water storage cavity volume 211 being provided with water filling port, go out mist passage 212 and fog outlet 213, described valve part 23 comprises valve rod 231, valve block 232 and spring 233, be arranged on the water filling port place of the water storage cavity volume 211 of described water tank 21 described tank lid 22 movable sealing, after described water tank 21 fills water, to the valve rod 231 of the described valve part 23 of extrapolation under the elastic force effect of the spring 233 of described valve part 23, the valve block 232 of described valve part 23 is from the interior delivery port 221 sealing described tank lid 22, water in described water tank 21 would not spill, described cistern assembly 2 is prior aries, its concrete structure does not repeat them here, described frame assembly 1 comprises fuselage upper casing 11 and ultrasonic atomization assembly 12, described frame assembly 1 also comprises the base plate 19 closed by fuselage upper casing 11, the power line (not shown in FIG.) being arranged on the control circuit assembly (not shown in FIG.) in fuselage upper casing 11 and drawing in fuselage upper casing 11, base plate 19, control circuit assembly and power line are prior aries, also repeat no more at this, the effect of control circuit assembly is the work controlling ultrasonic atomization assembly 12 and heating component 13, the function also needing anti-dry had, they are all simple control circuits, also repeat no more at this, described fuselage upper casing 11 is provided with the first aqua storage tank 111 holding the water flowed out from described cistern assembly 2, in described first aqua storage tank 111, is provided with push rod 1111, described first aqua storage tank 111 is also provided with the first delivery port 1112, described fuselage upper casing 11 is also provided with the second aqua storage tank 112 holding the water flowed out in described first aqua storage tank 111 and the 3rd aqua storage tank 113 holding the water flowed out in described second aqua storage tank 112, described second aqua storage tank 112 is provided with the second water inlet 1121 and the second delivery port 1122, and described 3rd aqua storage tank 113 is provided with the 3rd water inlet 1131, described ultrasonic atomization assembly 12 is arranged on the 3rd aqua storage tank 113 place of described fuselage upper casing 11, described frame assembly 1 also comprises the heating component 13 being heated to by the water in described second aqua storage tank 112 seethe with excitement, and the heat exchanger 14 of the metal material that described first aqua storage tank 111, second aqua storage tank 112 is connected with the 3rd aqua storage tank 113, heat exchanger 14 generally adopts the metal materials such as aluminium alloy that heat conductivility is good and kirsite to make, described heating component 13 is arranged on the second aqua storage tank 112 place of described fuselage upper casing 11, described heat exchanger 14 comprises to be guided to the intake tunnel 141 in described second aqua storage tank 112 and the water of described second aqua storage tank 112 is guided to the exhalant canal 142 in described 3rd aqua storage tank 113 by the water of described first aqua storage tank 111, and the heat exchange walls 143 between described intake tunnel 141 and exhalant canal 142, described heat exchanger 14 is arranged on described fuselage upper casing 11, 4th water inlet 1411 of intake tunnel 141 described in it connects with the first delivery port 1112 of described first aqua storage tank 111, 4th delivery port 1412 of described intake tunnel 141 connects with the second water inlet 1121 of described second aqua storage tank 112, 5th water inlet 1421 of described exhalant canal 142 connects with the second delivery port 1122 of described second aqua storage tank 112, 5th delivery port 1422 of described exhalant canal 142 connects with the 3rd water inlet 1131 of described 3rd aqua storage tank 113.During work, the described cistern assembly 2 that normal-temperature water is housed is placed on described frame assembly 1, the valve rod 231 of the valve 23 of cistern assembly 2 described in push rod 1111 jack-up of the first aqua storage tank 111 of described fuselage upper casing 11, and push the valve block 232 of the valve 23 at delivery port 2241 place of the tank lid 22 of cistern assembly 2 described in shutoff open, normal-temperature water in the water tank 21 of described cistern assembly 2 flow in described first aqua storage tank 111, the normal-temperature water of described first aqua storage tank 111 flow in the intake tunnel 141 of described heat exchanger 14 by its first delivery port 1112 through the 4th water inlet 1411 of the intake tunnel 141 of described heat exchanger 14 again, flow in described second aqua storage tank 112 through the 4th delivery port 1412 of described intake tunnel 141 and the second water inlet 1121 of described second aqua storage tank 112 again, the 5th water inlet 1421 through the second delivery port 1122 of described second aqua storage tank 112 and the exhalant canal 142 of described heat exchanger 14 after normal-temperature water in described second aqua storage tank 112 is heated to boiling by described heating component 13 flow in the exhalant canal 142 of described heat exchanger 14, hot water in described exhalant canal 142 carries out heat exchange by the heat exchange walls 143 of described heat exchanger 14 with the normal-temperature water of described intake tunnel 141, flow in described 3rd aqua storage tank 113 through the 5th delivery port 1422 of described exhalant canal 142 and the 3rd water inlet 1131 of described 3rd aqua storage tank 113 after the hot water of described exhalant canal 142 is lowered the temperature, flow into the water of having lowered the temperature in described 3rd aqua storage tank 113 and become water smoke 9 by described ultrasonic atomization assembly 12 concussion, enter room air through fog outlet 213 again from the mist passage 212 that goes out of described water tank 21.

See Fig. 1 to Figure 16, described heating component 13 is a kind of boiler components, and comprise boiler 131 and the heater 132 of metal material, described heater 132 is arranged on the bottom of described boiler 131, described boiler 131 comprises cavity volume 1311, 6th water inlet 1312 and the 6th delivery port 1313, described boiler 131 is arranged in described second aqua storage tank 112, its the 6th water inlet 1312 connects with the second water inlet 1121 of described second aqua storage tank 112, 6th delivery port 1313 then connects with the second delivery port 1122 of described second aqua storage tank 112, the water flowed out in the second water inlet 1121 of described second aqua storage tank 112 is made to flow directly in the cavity volume 1311 of described boiler 131 by described 6th water inlet 1312, the second delivery port 1122 through described 6th delivery port 1313 and the second aqua storage tank 112 after water in the cavity volume 1311 of described boiler 131 is heated to boiling by described heater 132 flow in the exhalant canal 142 of described heat exchanger 14.

The effect of the heat exchange walls 143 of heat exchanger 14 of the present invention is that the hot water in exhalant canal 142 and the normal-temperature water in intake tunnel 141 or cold water carry out heat exchange, thus reduce the temperature of the hot water in exhalant canal 142, the 3rd aqua storage tank 113 is flow to after hot water in exhalant canal 142 is cooled, to protect the core part in ultrasonic atomization assembly 12 not damaged, meanwhile, normal-temperature water in intake tunnel 141 or cold water are because absorbing the heat of the hot water in exhalant canal 142, the water temperature flowing to the second aqua storage tank 112 is raised to some extent, save the working time of heating component 13 and saved the energy.

Because water smoke 9 during aseptic humidifier work of the present invention is blown outside water tank 21, so can ensure that water is flow to the second aqua storage tank 112 from the first aqua storage tank 111 of fuselage upper casing 11 to flow to the 3rd aqua storage tank 113 more all the time.

The water capacity at heat exchange walls 143 place of heat exchanger 14 of the present invention can be designed to be equal to or greater than aseptic humidifier of the present invention per minute go out fog amount, the volume of the cavity volume 1311 of boiler 131 to be far longer than aseptic humidifier of the present invention per minute go out fog amount, the volume of the cavity volume 1311 of general boiler 131 can be designed to the water of the cavity volume 1311 the being equal to or greater than boiler 131 boiled time be multiplied by aseptic humidifier of the present invention per minute go out fog amount, so just can ensure that water has enough heating and boiling time.

Preferred embodiment one:

See Fig. 1 to Fig. 6, a kind of aseptic humidifier, the cistern assembly 2 comprising frame assembly 1 and be placed on this frame assembly 1, described cistern assembly 2 comprises water tank 21, the valve part 23 at the tank lid 22 being provided with delivery port 221 and delivery port 221 place being arranged on tank lid 22, described water tank 21 comprises the water storage cavity volume 211 being provided with water filling port, go out mist passage 212 and fog outlet 213, described valve part 23 comprises valve rod 231, valve block 232 and spring 233, be arranged on the water filling port place of the water storage cavity volume 211 of described water tank 21 described tank lid 22 movable sealing, after described water tank 21 fills water, to the valve rod 231 of the described valve part 23 of extrapolation under the elastic force effect of the spring 233 of described valve part 23, the valve block 232 of described valve part 23 is from the interior delivery port 221 sealing described tank lid 22, water in described water tank 21 would not spill, described frame assembly 1 comprises fuselage upper casing 11 and ultrasonic atomization assembly 12, described fuselage upper casing 11 is provided with the first aqua storage tank 111 holding the water flowed out from described cistern assembly 2, in described first aqua storage tank 111, is provided with push rod 1111, described first aqua storage tank 111 is also provided with the first delivery port 1112, described fuselage upper casing 11 is also provided with the second aqua storage tank 112 holding the water flowed out in described first aqua storage tank 111 and the 3rd aqua storage tank 113 holding the water flowed out in described second aqua storage tank 112, described second aqua storage tank 112 is provided with the second water inlet 1121 and the second delivery port 1122, and described 3rd aqua storage tank 113 is provided with the 3rd water inlet 1131, described ultrasonic atomization assembly 12 is arranged on the 3rd aqua storage tank 113 place of described fuselage upper casing 11, described frame assembly 1 also comprises the heating component 13 being heated to by the water in described second aqua storage tank 112 seethe with excitement, and the heat exchanger 14 of the metal material be connected with the 3rd aqua storage tank 113 by described first aqua storage tank 111, second aqua storage tank 112, described heating component 13 is a kind of boiler components, comprise boiler 131 and the heater 132 of metal material, described heater 132 is arranged on the bottom of described boiler 131, described boiler 131 comprises cavity volume 1311, the 6th water inlet 1312 and the 6th delivery port 1313, described boiler 131 is arranged in described second aqua storage tank 112, its the 6th water inlet 1312 connects with the second water inlet 1121 of described second aqua storage tank 112, and the 6th delivery port 1313 then connects with the second delivery port 1122 of described second aqua storage tank 112, described heat exchanger 14 comprises to be guided to the intake tunnel 141 in described second aqua storage tank 112 and the water of described second aqua storage tank 112 is guided to the exhalant canal 142 in described 3rd aqua storage tank 113 by the water of described first aqua storage tank 111, and the heat exchange walls 143 between described intake tunnel 141 and exhalant canal 142, described heat exchanger 14 is arranged on described fuselage upper casing 11, 4th water inlet 1411 of intake tunnel 141 described in it connects with the first delivery port 1112 of described first aqua storage tank 111, 4th delivery port 1412 of described intake tunnel 141 connects with the second water inlet 1121 of described second aqua storage tank 112, 5th water inlet 1421 of described exhalant canal 142 connects with the second delivery port 1122 of described second aqua storage tank 112, 5th delivery port 1422 of described exhalant canal 142 connects with the 3rd water inlet 1131 of described 3rd aqua storage tank 113, described heat exchanger 14 is open type, its intake tunnel 141 and exhalant canal 142 are uncovered L-type groove, the intake tunnel 141 of L-type groove and some laid out in parallel of exhalant canal 142 of L-type groove define described heat exchange walls 143, the water inlet of the intake tunnel 141 at this heat exchange walls 143 place is contrary with the water outlet direction of exhalant canal 142, water inlet is normal-temperature water or cold water, water outlet is hot water, exchange heat is carried out at heat exchange walls 143 place's normal-temperature water or cold water and hot water, hot water temperature is reduced.During work, the described cistern assembly 2 that normal-temperature water is housed is placed on described frame assembly 1, the valve rod 231 of the valve 23 of cistern assembly 2 described in push rod 1111 jack-up of the first aqua storage tank 111 of described fuselage upper casing 11, and push the valve block 232 of the valve 23 at delivery port 2241 place of the tank lid 22 of cistern assembly 2 described in shutoff open, normal-temperature water in the water tank 21 of described cistern assembly 2 flow in described first aqua storage tank 111, the normal-temperature water of described first aqua storage tank 111 flow in the intake tunnel 141 of described heat exchanger 14 by its first delivery port 1112 through the 4th water inlet 1411 of the intake tunnel 141 of described heat exchanger 14 again, again through the 4th delivery port 1412 of described intake tunnel 141, second water inlet 1121 of described second aqua storage tank 112 and the 6th water inlet 1312 of described boiler 131 flow directly in the cavity volume 1311 of described boiler 131, through the 6th delivery port 1313 of described boiler 131 after water in the cavity volume 1311 of described boiler 131 is heated to seethe with excitement by described heater 132,5th water inlet 1421 of the second delivery port 1122 of the second aqua storage tank 112 and the exhalant canal 142 of described heat exchanger 14 flow in the exhalant canal 142 of described heat exchanger 14, hot water in described exhalant canal 142 carries out heat exchange by the heat exchange walls 143 of described heat exchanger 14 with the normal-temperature water of described intake tunnel 141, flow in described 3rd aqua storage tank 113 through the 5th delivery port 1422 of described exhalant canal 142 and the 3rd water inlet 1131 of described 3rd aqua storage tank 113 after the hot water of described exhalant canal 142 is lowered the temperature, flow into the water of having lowered the temperature in described 3rd aqua storage tank 113 and become water smoke 9 by described ultrasonic atomization assembly 12 concussion, enter room air through fog outlet 213 again from the mist passage 212 that goes out of described water tank 21.

See Fig. 3 to Fig. 6, in order to the steam explosion in by ebuillition of heated process of anti-sealing, described frame assembly 1 also comprises gland 15, the heat exchanger 14 of open type and described heating component 13 cover by this gland 15, and the steam of generation so just can be made together can only to enter room air from going out mist passage 212 with water smoke 9.

See Fig. 2 and Fig. 6, in order to anti-sealing is produced the intake tunnel 141 that hot water flows back to described heat exchanger 14 during ebuillition of heated, described frame assembly 1 also comprises baffle plate 16, this baffle plate 16 is arranged on the 4th delivery port 1412 place of the exhalant canal 142 of described heat exchanger 14, makes the 4th delivery port 1412 of described exhalant canal 142 become one article of slit.

Preferred embodiment two:

See Fig. 7 to Figure 11, the present embodiment is identical with the principle of preferred embodiment one, and structure is substantially identical, and just the structure of individual parts is slightly different, and its difference is:

1. the structure of heat exchanger 14 is different, the described heat exchanger 14 of the present embodiment is closed, its intake tunnel 141 and exhalant canal 142 are closed pipeline, the intake tunnel 141 of closed conduct and some laid out in parallel of exhalant canal 142 of closed conduct define described heat exchange walls 143, and the water inlet of the intake tunnel 141 at this heat exchange walls 143 place is contrary with the water outlet direction of exhalant canal 142;

2. the structure due to heat exchanger 14 is different, therefore the first aqua storage tank 111, second aqua storage tank 112 on fuselage upper casing 11 is slightly different with the structure of the 3rd aqua storage tank 113, and the 3rd water inlet 1131 structure being specially the second water inlet 1121 of the first delivery port 1112, second aqua storage tank 112 of the first aqua storage tank 111 and the second delivery port 1122 and the 3rd aqua storage tank 113 is slightly different;

3. can also jointly wrap up the heat exchange ring 144 that a circle is used for carrying out heat exchange on the part intake tunnel 141 of the laid out in parallel of heat exchanger 14 and exhalant canal 142, the effect of this heat exchange ring 144 is identical with the effect of heat exchange walls 143;

4. in order to the steam explosion in by ebuillition of heated process of anti-sealing, described frame assembly 1 yet comprises gland 15 ', but because described heat exchanger 14 is closed, the structure of this gland 15 ' is slightly different from gland 15 structure of preferred embodiment one, and described heating component 13 only need cover by this gland 15 '.

Preferred embodiment three:

See Figure 12 to Figure 16, the present embodiment is identical with the principle of preferred embodiment two, and structure is substantially identical, and just the structure of individual parts is slightly different, and its difference is:

1. the structure of heat exchanger 14 is slightly different, the described heat exchanger 14 of the present embodiment is also closed, its intake tunnel 141 and exhalant canal 142 are also closed pipeline, but wherein some intake tunnel 141 and some exhalant canal 142 are arranged with one heart, the inside of concentric arrangement is exhalant canal 142, outside is intake tunnel 141, the tube wall of the exhalant canal 142 of the inside of so concentric arrangement just defines described heat exchange walls 143, and the water inlet of the intake tunnel 141 at this heat exchange walls 143 place is contrary with the water outlet direction of exhalant canal 142;

2. heat exchanger 14 do not have heat exchange ring 144.

The above embodiment only have expressed the preferred embodiment of the present invention, and it describes comparatively concrete and detailed, but therefore can not be interpreted as the restriction to the scope of the claims of the present invention; It should be pointed out that for the person of ordinary skill of the art, without departing from the inventive concept of the premise, can also make some distortion and improvement, these all belong to protection scope of the present invention; Therefore, all equivalents of doing with the claims in the present invention scope and modification, all should belong to the covering scope of the claims in the present invention.

Claims (10)

1. an aseptic humidifier, comprises frame assembly (1) and is placed on the cistern assembly (2) on this frame assembly (1); Described frame assembly (1) comprises fuselage upper casing (11) and ultrasonic atomization assembly (12); Described fuselage upper casing (11) is provided with the first aqua storage tank (111) holding the water flowed out from described cistern assembly (2), in described first aqua storage tank (111), is provided with push rod (1111); It is characterized in that:

Described first aqua storage tank (111) is also provided with the first delivery port (1112); Described fuselage upper casing (11) is also provided with the second aqua storage tank (112) holding the water flowed out in described first aqua storage tank (111) and the 3rd aqua storage tank (113) holding the water flowed out in described second aqua storage tank (112), described second aqua storage tank (112) is provided with the second water inlet (1121) and the second delivery port (1122), and described 3rd aqua storage tank (113) is provided with the 3rd water inlet (1131); Described ultrasonic atomization assembly (12) is arranged on the 3rd aqua storage tank (113) place of described fuselage upper casing (11);

Described frame assembly (1) also comprises the heating component (13) being heated to by the water in described second aqua storage tank (112) seethe with excitement, and the heat exchanger (14) of the metal material described first aqua storage tank (111), the second aqua storage tank (112) are connected with the 3rd aqua storage tank (113); Described heating component (13) is arranged on the second aqua storage tank (112) place of described fuselage upper casing (11); described heat exchanger (14) comprises the exhalant canal (142) water of described first aqua storage tank (111) guided to the intake tunnel (141) in described second aqua storage tank (112) and is guided to by the water of described second aqua storage tank (112) in described 3rd aqua storage tank (113), and the heat exchange walls (143) be positioned between described intake tunnel (141) and exhalant canal (142), described heat exchanger (14) is arranged on described fuselage upper casing (11), 4th water inlet (1411) of intake tunnel described in it (141) and first delivery port (1112) of described first aqua storage tank (111) connect, 4th delivery port (1412) of described intake tunnel (141) and second water inlet (1121) of described second aqua storage tank (112) connect, 5th water inlet (1421) of described exhalant canal (142) and second delivery port (1122) of described second aqua storage tank (112) connect, 5th delivery port (1422) of described exhalant canal (142) and the 3rd water inlet (1131) of described 3rd aqua storage tank (113) connect,

During work, the described cistern assembly (2) that normal-temperature water is housed is placed on described frame assembly (1), the valve rod (231) of the valve (23) of cistern assembly (2) described in push rod (1111) jack-up of first aqua storage tank (111) of described fuselage upper casing (11), and push the valve block (232) of the valve (23) at delivery port (2241) place of the tank lid (22) of cistern assembly described in shutoff (2) open, normal-temperature water in the water tank (21) of described cistern assembly (2) flow in described first aqua storage tank (111), the normal-temperature water of described first aqua storage tank (111) flow in the intake tunnel (141) of described heat exchanger (14) by the 4th water inlet (1411) of the intake tunnel (141) of its first delivery port (1112) through described heat exchanger (14) again, flow in described second aqua storage tank (112) through the 4th delivery port (1412) of described intake tunnel (141) and second water inlet (1121) of described second aqua storage tank (112) again, the 5th water inlet (1421) through second delivery port (1122) of described second aqua storage tank (112) and the exhalant canal (142) of described heat exchanger (14) after normal-temperature water in described second aqua storage tank (112) is heated to boiling by described heating component (13) flow in the exhalant canal (142) of described heat exchanger (14), hot water in described exhalant canal (142) carries out heat exchange by the heat exchange walls (143) of described heat exchanger (14) and the normal-temperature water of described intake tunnel (141), flow in described 3rd aqua storage tank (113) through the 5th delivery port (1422) of described exhalant canal (142) and the 3rd water inlet (1131) of described 3rd aqua storage tank (113) after the hot water of described exhalant canal (142) is lowered the temperature, flow into the water of having lowered the temperature in described 3rd aqua storage tank (113) and become water smoke (9) by described ultrasonic atomization assembly (12) concussion, enter room air through fog outlet (213) again from the mist passage (212) that goes out of described water tank (21).

2. aseptic humidifier according to claim 1, is characterized in that:

Described heating component (13) is a kind of boiler components, and comprise boiler (131) and the heater (132) of metal material, described heater (132) is arranged on the bottom of described boiler (131), described boiler (131) comprises cavity volume (1311), 6th water inlet (1312) and the 6th delivery port (1313), described boiler (131) is arranged in described second aqua storage tank (112), its the 6th water inlet (1312) connects with second water inlet (1121) of described second aqua storage tank (112), 6th delivery port (1313) then connects with second delivery port (1122) of described second aqua storage tank (112), the water flowed out in second water inlet (1121) of described second aqua storage tank (112) is made to flow directly in the cavity volume (1311) of described boiler (131) by described 6th water inlet (1312), the second delivery port (1122) through described 6th delivery port (1313) and the second aqua storage tank (112) after water in the cavity volume (1311) of described boiler (131) is heated to boiling by described heater (132) flow in the exhalant canal (142) of described heat exchanger (14).

3. aseptic humidifier according to claim 1 and 2, is characterized in that:

Described heat exchanger (14) is open type, its intake tunnel (141) and exhalant canal (142) are uncovered L-type groove, the intake tunnel (141) of L-type groove and exhalant canal (142) some laid out in parallel of L-type groove define described heat exchange walls (143), and the water inlet of the intake tunnel (141) at this heat exchange walls (143) place is contrary with the water outlet direction of exhalant canal (142).

4. aseptic humidifier according to claim 3, is characterized in that:

Described frame assembly (1) also comprises the gland (15) for the steam explosion in by ebuillition of heated process of anti-sealing, and the heat exchanger (14) of open type and described heating component (13) cover by this gland (15).

5. aseptic humidifier according to claim 4, is characterized in that:

Described frame assembly (1) also comprises for anti-sealing is produced the baffle plate (16) that hot water flows back to the intake tunnel (141) of described heat exchanger (14) during ebuillition of heated, this baffle plate (16) is arranged on the 4th delivery port (1412) place of the exhalant canal (142) of described heat exchanger (14), makes the 4th delivery port (1412) of described exhalant canal (142) become one article of slit.

6. aseptic humidifier according to claim 1 and 2, is characterized in that:

Described heat exchanger (14) is for closed, its intake tunnel (141) and exhalant canal (142) are closed pipeline, the intake tunnel (141) of closed conduct and exhalant canal (142) some laid out in parallel of closed conduct define described heat exchange walls (143), and the water inlet of the intake tunnel (141) at this heat exchange walls (143) place is contrary with the water outlet direction of exhalant canal (142).

7. aseptic humidifier according to claim 6, is characterized in that:

The part intake tunnel (141) of laid out in parallel and exhalant canal (142) have also wrapped up the heat exchange ring (144) that a circle is used for carrying out heat exchange jointly.

8. aseptic humidifier according to claim 6, is characterized in that:

Described frame assembly (1) also comprises the gland (15 ') for the steam explosion in by ebuillition of heated process of anti-sealing, and described heating component (13) covers by this gland (15 ').

9. aseptic humidifier according to claim 1 and 2, is characterized in that:

Described heat exchanger (14) is for closed, its intake tunnel (141) and exhalant canal (142) are closed pipeline, wherein some intake tunnel (141) and some exhalant canal (142) are arranged with one heart, the inside of concentric arrangement is exhalant canal (142), outside is intake tunnel (141), the tube wall of the exhalant canal (142) of the inside of so concentric arrangement just defines described heat exchange walls (143), and the water inlet of the intake tunnel (141) at this heat exchange walls (143) place is contrary with the water outlet direction of exhalant canal (142).

10. aseptic humidifier according to claim 9, is characterized in that:

Described frame assembly (1) also comprises the gland (15 ') for the steam explosion in by ebuillition of heated process of anti-sealing, and described heating component (13) covers by this gland (15 ').