CN1199843A - Heating type ultrasonic humidifier - Google Patents

Abstract

The invention provides a humidity regulator, which comprise a main body, a water tank for storing water which is installed on the main body, a heating portion which is communicated with the water tank through a first fluid channel, a supersonic wave portion which is communicated with a first assembly through a second fluid channel, a valve assembly and a switch portion, wherein the valve assembly which is formed by shape memory alloy is installed in the humidity regulator. The invention can be used as a heating type humidity regulator, or as a supersonic wave type humidity regulator, or as a heating/ supersonic type humidity regulator.

Description

Heating type ultrasonic humidifier

The present invention relates to humidistat, particularly a kind of heating type ultrasonic humidifier.

Humidistat is a kind ofly often to keep the device that humidity is used in the room by the mode that atomized water is provided in the room.In general, humidistat can be divided into hot type humidistat and ultrasonic type humidistat two classes.The hot type humidistat is by adding the mode of hot water, the atomized water that is stored in the water generates in the water storage container is injected in the room, the ultrasonic type humidistat is by the mode of vibration water, and the atomized water that is stored in the water generates in the water storage container is injected in the room.

Owing to will heat the water that is stored in the water storage container with heater, so the hot type humidistat will consume many energy, and the ultrasonic type humidistat is to make the water generates vibration by the ultrasonic wave that vibration produces, so compare the consumption that can significantly reduce energy with the hot type humidistat.

If the water in the water storage container has been preserved for a long time, rod bacterium can breed in water storage container, and rod bacterium can be injected into the outside, so in this regard, the hot type humidistat is harmful to human body.For this reason, U.S. Pat, 5,176,856 (authorizing Minaru Takahashi, Makoto Ono) disclose a kind of heating type ultrasonic humidifier that is used to reduce energy consumption and increases bactericidal effect.

As shown in Figure 1, this humidistat 100 has a housing 110, a water tank 120 that is installed in the upper portion in the housing 110, water storage container 130 lower portion that is installed in water tank 120, that be used to store the water that water tank 120 provides, a heater/vibrator assembly 140 that is fixed on water storage container 130 lower portion, an inner lower pressure fan assembly unit 170 part, that be used for blow air that is installed in housing 110, and an atomized water that is used for being produced guides to outside nozzle 180 by water storage container 130.

Lower portion at water tank 120 disposes valve 122, when being arranged on water tank 120 in the housing 110, and this valve open, and when water tank 120 takes out in by housing 110, this valve closes.The water that provides by valve 122 by water tank 120 is being provided in water storage container 130.Heater/vibrator assembly 140 is fixed on the lower portion of water storage container 130, is used for water is heated or vibrates.When heater/vibrator assembly 140 makes the water generates vibration, will produce water column 132 on the surface of water, and form atomizing.This atomized water is injected into outside the humidistat 100 by nozzle 180.

Side at housing 110 is formed with an air input hole 122 along the direction shown in the arrow 111, hair-dryer 170 blows by this hole 122 inhaled airs, and the atomized water that is produced is injected into the outside of humidistat 100 by the air that blows by water storage container 130.

Fig. 2 shows this heater/vibrator assembly 140.As shown in Figure 2, be formed with rectangular aperture 134 in the lower portion of water storage container 130, frame 142 is installed in the lower portion of this rectangular aperture 134.

Frame 142 be shaped as rectangle, and make by plastic material.Each frame 142 all is formed with the hole (not shown) in an one bight, so that frame is installed on the water storage container 130.Rectangle frame 142 has a upper plate that is positioned at its upper portion, also is formed with a circular open 146 on this upper plate 141.Circular open 146 is along being formed with the first circular line of rabbet joint 144 on its inside circumferential surface.The outer surface of circular conductive plate 148 can embed in the first circular line of rabbet joint 144.This circular conductive plate 148 is made by copper material and aluminium, and is used for the heat that heater 160 produces is passed to water.

On the other hand, the central upper portion part in frame also has a retainer 150.Vibrator 154 is installed on the inside part of retainer 150, and this retainer 150 is made by non-conductive material, is radiated to vibrator 154 so can prevent the heat that is produced by conductive plate 148.

On the outer circumference surface of retainer 150, also be formed with the second circular line of rabbet joint 152 along this outer circumference surface, therefore the inside circumferential surface of conductive plate 148 can be embedded in the second circular line of rabbet joint 152.So just, upper plate 141, conductive plate 148, retainer 150 and vibrator 154 are combined into one.

Vibrator 154 is keeping contacting with water, and vibrator 154 disposes first electrode 156 that is connected the downside surface of vibrator 154, and one is connected second electrode 158 first electrode, 156 lower parts, that its diameter is littler than the diameter of first electrode 156.Electrode 155 is configured in the bottom of vibrator 154, to provide electric power to vibrator 154.

Heater 160 is circumferential, and is divided into two parts around core centering.Because the heater 160 that is divided into two parts is separately positioned on the rear side surface of conductive plate 148, thus heater 160 not be stored in water storage container 130 in water contact.Usually can adopt P.T.C type heater (positive temperature coefficient ceramic heater) as heater 160.This P.T.C type heater can be controlled its temperature automatically, and does not need to adopt the temperature control equipment of independent setting again.

A plurality of electrode (not shown)s that provide electric power to use to heater 160 are provided a plurality of heaters 160.Non-temperature conduction plate 164 is installed in the bottom of a plurality of heaters 160, to stop temperature radiation to the loop 166.

Lower plate 168 is installed in the lower part of frame 142, is supporting the loop that electric power is provided to a plurality of heaters 160 and vibrator 154 thus.The wall (not shown) is formed on the circumferential section of frame 142.Frame 142 is installed in the downside surface of water storage container 130.Water proof element 169 is installed between the downside surface and frame 142 of water storage container 130, leaks to outside the humidistat 100 to prevent the water in the water storage container.

In humidistat 100, electric power is applied to humidistat 100, so that 160 intensifications of a plurality of heater, and make vibrator 154 vibrations simultaneously.At this constantly, the heat that is produced by a plurality of heaters 160 is passed to conductive plate 148.Like this, the temperature that is stored in the water in the water storage container 130 is risen, so that carry out sterilization.

Because the vibration effect that vibrator 154 produces, the water after the intensification is converted into atomized water, at this moment, because atomized water carried out sterilization, is atomized water after the sterilization so humidistat 100 is supplied to the room.

Yet this traditional humidistat is difficult to the environment according to the room, and suitable control provides the atomized water to the room.

The invention solves above-mentioned problem, one object of the present invention is exactly that a kind of humidistat that overcomes the problems referred to above will be provided.

In order to realize above-mentioned purpose, the invention provides a kind of humidistat, it includes:

A main body;

One is installed in water tank on the main body, that storage water is used;

A heating part that is connected with water tank by the first fluid path, this heating part are used to store and heat the water that provides by the first fluid path, to produce first atomized water;

A ultrasonic wave part that is connected with heater section by second fluid passage, this ultrasonic wave partly are used to make the water generates vibration, to produce second atomized water;

A valve member, this assembly are used for changing the pucker ﹠ bloat that is produced according to water temperature, and prevention selectively or permission water flow into the ultrasonic wave part by heating part;

A switch sections makes the heating part operation when this switch sections is chosen as first pattern, when being chosen as second pattern ultrasonic wave is partly moved, and makes the operation simultaneously of heating part and ultrasonic wave part when being chosen as three-mode.

According to the present invention, heating part includes first water storage container of the water that a storage provides by water tank and one and is installed in the heater first water storage container lower portion, that be used to produce heat.Ultrasonic wave partly include second water storage container of the water that a storage overflows by first water storage container and one be installed in the second water storage container lower portion, be used to produce hyperacoustic vibrator.

Second fluid passage is formed with a upper portion that is configured in the dividing plate between first and second water storage containers, and the inside part of second fluid passage disposes valve member.

Valve member according to the first embodiment of the invention formation, can include the housing that a shape is tetrahedral, on the first side wall that is formed on housing, make the water that is stored in first water storage container can flow into the input block of housing, one form on the housing, on second sidewall relative with the first side wall, make water flow into output block in second water storage container by housing, a spring element that is connected the housing the first side wall, and first valve that forms as one with spring element.

Spring element comprises a coil spring of being made by marmem.And, coil spring has a first end part that is connected with a side surface of first valve, the second end part on the groove that partly is oppositely arranged with first end with, be used to be fixed in the inner surface that is formed at the first side wall, and therefore coil spring can make first valve open or closed firmly output block according to the temperature generation expansion or the contraction of water.

In this embodiment, if water temperature is higher than predetermined temperature, then coil spring will expand, thereby make with first valve closes that the first end of coil spring partly is connected and live output block, to stop water to flow into second water storage container by first water storage container, if water temperature is lower than predetermined temperature, then coil spring will shrink, therefore make the first valve open output block that partly is connected with the first end of coil spring, so that water can flow into second water storage container by first water storage container.In general, this predetermined temperature is the 70-75 degree.

Valve member according to the second embodiment of the invention structure, include the housing that a shape is tetrahedral, on the first side wall that is formed on housing, make the water that is stored in first water storage container can flow into the input block of housing, one be formed on second sidewall on the housing, relative with the first side wall, make water flow into output block in second water storage container by housing, a bellows that is connected the first side wall of housing, and first valve that becomes one with bellow-shaped.Bellows is preferably made by metal sheet, and its inside has ethane class solution.

Bellows has a first end part that is connected with a side surface of first valve, the second end part on the groove that partly is oppositely arranged with first end with, be used to be fixed in the inner surface that is formed at the first side wall, and bellows can be according to the temperature expansion or the contraction of water, so that first valve open or closed firmly output block.

In this embodiment, if water temperature is higher than predetermined temperature, then bellows will expand, thereby make with first valve closes that the first end of bellows partly is connected and live output block, to stop water to flow into second water storage container by first water storage container, if water temperature is lower than predetermined temperature, then bellows will shrink, thereby make the first valve open output block that partly is connected with the first end of bellows, so that water can flow into second water storage container by first water storage container.It is filled with ethanol in the bellows, so that can expand or contraction according to variation of temperature.

Can also dispose valve member according to third embodiment of the invention.This valve member includes the housing that a shape is tetrahedral, on the first side wall that is formed on housing, make the water that is stored in first water storage container can flow into the input block of housing, one be formed on second sidewall on the housing, relative with the first side wall, make water flow into output block in second water storage container by housing, a cylinder shape assembly that is connected the first side wall of housing, and first valve that forms as one with cylinder shape assembly.

Cylinder shape assembly includes a sealed hollow shape cylinder with an end sections on the first side wall that is fixed on housing, one is slidingly mounted on piston in the cylinder, that have an end sections that connects as one with first valve, and one is installed in cylinder tension spring interior, that be used for the first side wall biases piston on housing.Be injected into paraffin in the cylindrical inside part, the second sidewall biases piston that can be on housing when rising with convenient temperature.

In this embodiment, if water temperature is higher than predetermined temperature, then cylinder will expand, thereby make with first valve closes that cylindrical the second end partly is connected and live output block, to stop water to flow into second water storage container by first water storage container, if water temperature is lower than predetermined temperature, then cylinder will shrink, thereby make the first valve open output block that partly is connected with cylindrical the second end, so that water can flow into second water storage container by first water storage container.

Switch sections includes a switch that is used to select heating mode, ultrasound mode and heating/ultrasound mode, and one that be connected with switch, be used for loop that heating part and ultrasonic wave are partly moved.

By utilizing switch to select, this humidistat can be used as a kind of hot type humidistat and uses, and also can be used as a kind of ultrasonic type humidistat and uses, and can also use as a kind of heating/ultrasonic type humidistat.At first, when selecting switch to be three-mode, a signal just is fed through the loop, and according to this signal electric power is applied to heater.So heater heats, thereby the water that is stored in first water storage container is heated up.Water after the intensification flows into valve member.At this moment, the temperature of water remains on 75 degree.

Water temperature in being stored in first water storage container rises to predetermined temperature, and when preferably 70-75 spends, the coil spring in the valve member will expand.First valve that partly is connected with the first end of coil spring will be closed be thereupon lived the output block in the valve member, so stop water to flow into second water storage container by first water storage container.

Be lower than predetermined temperature if be stored in the temperature of the water in first water storage container, when preferably 70-75 spends, then the coil spring in the valve member will shrink, thereby the output block of the first valve open valve member that partly is connected with the first end of coil spring is so make water flow into second water storage container by first water storage container.The ultrasonic wave that is produced by vibrator will act on the water that is stored in second water storage container, thereby produce atomized water.Like this, just, can will be supplied to required inner space to the harmless atomized water of user.

The user can select first or second pattern from three patterns.When the user was chosen as first pattern by switch, the heater operation heated up the water that is stored in first water storage container, by atomized water pipe inspection atomized water.

When the user turns to second pattern with switch, the electric power that then is applied to heater will be cut off, and then electric power be provided the vibrator to second water storage container of ultrasonic wave part.Therefore heater will cool off, and the temperature that is stored in the water in first water storage container descends, and valve member will be opened again, so make the water that is stored in first water storage container flow into second water storage container.Ultrasonic wave will make the water generates vibration that is stored in second water storage container then, therefore generate atomized water on the surface of water.This atomized water will be sucked into the atomizing water pipe, again by the outside of nozzle ejection to humidistat.

At this moment, if user's console switch once more switches to first pattern by second pattern, the electric power that then is supplied to vibrator will be cut off, and electric power will provide the heater to the heating part.Therefore heater will heat up once more with the generation heat, and then the temperature that is stored in the water in first water storage container is raise.This atomized water can be by the outside of nozzle ejection to humidistat.

In described each most preferred embodiment, humidistat disposes the valve member that is made of marmem, therefore according to the needs of internal environment, this humidistat can be used as a kind of hot type humidistat and uses, also can be used as a kind of ultrasonic type humidistat and use, can also use as a kind of heating/ultrasonic type humidistat.

With reference to the explanation of carrying out below in conjunction with accompanying drawing, can clearerly learn other purpose of the present invention and advantage to most preferred embodiment.

Fig. 1 is the schematic cross sectional view of the structure of the traditional humidistat of expression;

Fig. 2 is the profile of traditional heater humidistat, that the be installed in the water storage container lower portion/vibrator assembly unit of expression;

Fig. 3 is the section of structure of expression humidistat constructed according to the invention;

Fig. 4 is the plane of expression according to humidistat of the present invention;

Fig. 5 is the detailed cross sectional view of expression according to coil spring in the valve member unit of first embodiment of the invention structure;

Fig. 6 is the detailed cross sectional view of expression according to bellows in the valve member unit of second embodiment of the invention structure;

Fig. 7 is for representing according to cylindrical detailed cross sectional view in the valve member unit of third embodiment of the invention structure;

Fig. 8 is the plane of the switch in the expression humidistat constructed according to the invention.

Below with reference to accompanying drawing more detailed description most preferred embodiment of the present invention.

Fig. 3 is the section of structure of expression a kind of humidistat constructed according to the invention, and Fig. 4 is the plane of expression this humidistat constructed according to the invention.Just as shown in FIG., this humidistat 300 has a housing 305, a water tank part 310 that is installed in the upper inside part of housing 305, one is connected with water tank part 310, with the water of heating by 310 supplies of water tank part, thereby produce the heating part 320 of atomized water, one is connected with heating part 320 by second fluid passage 328, so that vibrate by the water generates of heating part 320 supplies, thereby produce the ultrasonic wave part 330 of atomized water, one is installed between heating part 320 and ultrasonic wave part 330, the valve member 340 of the inside part of second fluid passage, a blow air, will be injected into the pressure fan assembly 390 of humidistat 300 outside usefulness by the atomized waters of heating part and ultrasonic wave part 320 and 330 generations, one is used for atomized water is injected into atomizing water pipe 370 outside the humidistat 300, and a switch sections 395, its first pattern is used to move heating part 320, its second mode 3 99 is used to move ultrasonic wave part 330, its three-mode 398 is used for selectively moving heating/ ultrasonic wave part 320 and 330.

On the lower surface of water tank part 310, be formed with an outstanding laterally bossing 312, be formed with a hole 314 in the centre of bossing 312.Water tank 316 dismountable water tank part 310 places that are installed in also are equipped with a valve 318 at the downside of water tank 316.When water tank 316 was installed on the water tank part 310, the valve 318 on the water tank 316 ran through in the hole 314 that is inserted in the bossing 312.At this moment, the downside end part of valve 318, will with contact to the protruding pawl 319 of upper process by surface corresponding to the downside end of valve 318 part.Therefore the valve 318 on the water tank 316 will be opened by protruding pawl 319.

Heating part 320 links to each other with water tank part 310 by first fluid path 321, and the water that is stored in water tank 316 can be supplied to heating part 320 by this first fluid path 321.Heating part 320 disposes and stores first water storage container 324 that water uses and be installed in heater 322 first water storage container, 324 lower surface, that be used to produce heat.

Ultrasonic wave part 330 disposes second water storage container 334 that storage is used by the water of heating part 320 supplies, and is installed in vibrator 332 second water storage container, 334 lower surface, that be used to make the water generates vibration.

Second fluid passage 328 is configured between heating part 320 and the ultrasonic wave part 330, thereby makes the water that is stored in the heating part 320 flow into ultrasonic wave part 330 by second fluid passage 328.Valve member 340 is configured on the inside part of second fluid passage 328.

Fig. 5 shows a kind of valve member 340 according to the first embodiment of the invention structure.As shown in Figure 5, valve member 340 has the housing 342 that a shape is tetrahedral, on the first side wall 343 that is formed on housing 342, make the water that is stored in first water storage container 324 can be via the input block 344 of its inflow, one is formed on second sidewall 345 relative with the first side wall 343, make water can flow into output block 346 in second water storage container 334, a coil spring 348 that is connected the first side wall 343 of housing 342, and one with coil spring 348 on first valve 349 that connects as one of first end part 347.

Be formed with raised body 352 respectively to outer process at two outer wall 350 places of housing 342.Raised body 352 connects with groove 327 kissings that are formed on the inside part 329 on second fluid passage 328.Thus valve member unit 340 is fixed on the inside part of second fluid passage 328.

Input block 344 is connected with first water storage container 324, thereby makes the water that is stored in first water storage container 324 flow into valve member 340 by input block 344.Output block 346 is connected with second water storage container 334, thereby makes the water by valve member 340 can flow into second water storage container 334.

This coil is by the marmem manufacturing.Coil spring 348 have one with first valve 349 to connect into the first end part 347 of an integral body and one and first end part 347 that be oppositely arranged and be fixed to the second end part 353 on the groove 354 of the inner surface 353 that is formed at the first side wall 343.

If water temperature is higher than predetermined temperature, the coil spring 348 of valve member 340 will expand.Predetermined temperature is preferably the 70-75 degree.At this moment, the output block 346 that first valve 349 that is connected with the first end part 347 of coil spring 348 is lived valve member unit 340 with closure flows into second water storage container 334 to stop water by first water storage container 324.If water temperature is lower than predetermined temperature, when preferably 70-75 spends, then coil spring 348 will shrink, thereby the output block of first valve 349 is opened, and flow into second water storage container 334 to stop water by first water storage container 324.

As shown in Figure 3 and Figure 4, water can flow into second water storage container 334 of ultrasonic wave part 330 by second fluid passage 328.When the vibrator 332 to the lower surface that is installed in second water storage container 334 applies electric power, vibrator 332 will produce vibration, and then send ultrasonic wave.This ultrasonic wave is acted on be stored in waterborne in second water storage container 334, so that generate atomized water on the surface of water.

Atomizing water pipe 370 is pipelines of a hollow, and it is installed in the upper portion of first and second water storage containers 324 and 334, and vertically installs with respect to the base section 307 of housing 305.

By first and second water storage containers 324 and 334 atomized waters that produce, can be injected into the outside of humidistat 300 by atomizing water pipe 370.

Atomizing water pipe 370 has 320 and 330 corresponding with heating and ultrasonic wave part, as to suck an atomized water first end part 372, and one 372 that be oppositely arranged with the first end part, 380 that connect as one with nozzle, be used for guiding next atomized waters and be injected into the second end part 374 outside the humidistat 300 by atomizing water pipe 370.

On the other hand, pressure fan 390 is installed in base section 307 places of housing 305.Blown by pressure fan 390 by air hole 308 inhaled airs on the rear wall surface 309 that is formed on housing 305, so that atomized water is injected into outside the humidistat 300 by the air that blows.

Switch 395 is connected on the rear wall 309 of housing 305.With reference to Fig. 3 and Fig. 8, this switch has first mode 3 97 that humidistat 300 is used as a kind of hot type humidistat, make humidistat as second mode 3 99 that a kind of ultrasonic type humidistat uses, the three-mode 398 that humidistat 300 is used as a kind of heating/ultrasonic type humidistat.When switch is arranged on first mode 3 97, heater 322 operations in the heating part 320, when switch is arranged on second mode 3 99, vibrator 332 operations in the ultrasonic wave part 330, and when switch was arranged on three-mode 398, heater 322 and vibrator 332 moved simultaneously.

Fig. 6 shows a kind of valve member according to the second embodiment of the invention structure.As shown in Figure 6, valve member 440 has the housing 442 that a shape is tetrahedral, on the first side wall 443 that is formed on housing 442, make the water that is stored in first water storage container 324 can flow into the input block 444 of housing 442, one is formed on the housing 442, on second sidewall 345 relative with the first side wall 443, make water in first water storage container 324 can flow into output block 446 in second water storage container 334, a bellows 448 that is connected the first side wall 443 of housing 442, and one with ripple pipe 448 on first valve 449 that forms as one of first end part 447.

Two lateral wall 450 places at housing 442 are formed with the raised body 452 to outer process respectively.Raised body 452 connects with groove 327 kissings that are formed on the inside part 329 on second fluid passage 328.Therefore, valve member unit 440 is fixed on the inside part of second fluid passage 328.

Importation 444 is connected with first water storage container 324, thereby makes the water that is stored in first water storage container 324 flow into valve member unit 440 by input block 444.Output block 446 is connected with second water storage container 334, thereby makes the water by valve member 440 can flow into second water storage container 334.

This bellows 448 is by the metal sheet manufacturing, and side also is provided with vinyl or ethanol class material to the variations in temperature sensitivity within it.This bellows 448 has that a first end part 447 that is connected with first valve 449 and one and first end part are 447 that be oppositely arranged, configuration has the second end part 453 of the cylindrical section of predetermined length.This cylindrical section 454 is fixed on the inner surface of the first side wall 443 on the housing 442 by retaining element 455, so that bellows 448 is fixed on the housing 442.When temperature rose, the volume of ethene or ethanol also increased, and when temperature reduces, the volume of ethene or ethanol will reduce.Therefore, bellows 448 can be according to the temperature of the water that flows into housing 442 by input block 444 and contraction or expansion.

Along with the contraction or expansion of bellows 448, first valve 449 will move along direction to the left or to the right, thus opened/closed output block 446.

Fig. 7 shows a kind of valve member 540 according to the third embodiment of the invention structure.As shown in Figure 7, valve member 540 has the housing 542 that a shape is tetrahedral, on the first side wall 543 that is formed on housing 542, make the water that is stored in first water storage container 324 can flow into the input block 544 of housing 542, one is formed on the housing 542, on second sidewall 545 relative with the first side wall 543, make water in first water storage container 324 can flow into output block 546 in second water storage container 334, a cylinder shape assembly 548 that is connected the first side wall 543 places of housing 542, and first valve 549 that forms as one with cylinder shape assembly 548.

Two lateral wall 550 places at housing 542 are formed with the raised body 552 to outer process respectively.Raised body 552 connects with groove 327 kissings that are formed on inside part 329 places on second fluid passage 328.Therefore, valve member unit 540 is fixed on the inside part of second fluid passage 328.

Input block 544 is connected with first water storage container 324, thereby makes the water that is stored in first water storage container 324 flow into valve member 540 by input block 544.Output block 546 is connected with second water storage container 334, thereby makes the water by valve member 540 can flow into second water storage container 334.

Cylinder shape assembly 548 disposes the hollow shape cylinder 569 of a sealing, a piston 556 that is slidingly mounted in the cylinder 569, and one be installed in the cylinder 569, be used for tension spring 558 towards the first side wall 543 biases piston 556 of housing 542.

The first end part 560 of cylinder 569 is formed with a cylindrical section 557, and cylindrical section 557 is fixed on the first side wall 543 by retaining element 559.Be formed with a through hole 564 at core with first end part 560 opposite second end parts 562.

The first end part 547 of piston 556 is passed through hole 564 and is projected to outside the cylinder 569.First valve 549 forms as one with the first end part 547 of piston 556.Circular slab 556 with and first end part 547 opposite second end parts 568 form as one.Be formed with an inner space between the second end part 562 of circular slab 556 and cylinder 548, tension spring 558 just is installed in this inner space, so that with the first end part 547 bias voltage circular slabs 556 of tension spring 558 towards cylinder 548.

Be filled with the paraffin class material in second inner space 553 that between the first end part of circular slab 556 and cylinder 548, forms.In the time of on temperature rises to predetermined temperature, the volume of paraffin will increase, and under temperature drops to predetermined temperature the time, the volume of paraffin will reduce.

Therefore, cylinder shape assembly 548 can be according to the temperature of the water that flows into valve member 540 by input hole 544 and contraction or expansion.First valve 549 that forms as one with cylinder shape assembly 548 will be thereupon to the left or to the right direction move, and then by first valve, 549 open and close output blocks 546.

Below the method for operation according to the humidistat of first embodiment of the invention structure is described.

Just as shown in Figure 3 and Figure 4, water tank 316 is installed in water tank part 310 places.The end sections of valve 318 that is installed in the base section of water tank 316 contacts with bossing 319, so that valve 318 is moved up.At this moment, the water that is stored in the water tank 316 will flow into the lower part of water tank part 310 by valve 318.The water of being supplied with will be stored in first water storage container 324 of heating part 320 by first fluid path 321.When first water storage container 324 was filled to the water of scheduled volume, water will be by second water storage container 334 of valve member 340 overflows to the ultrasonic wave part 330.

Utilize switch 395 to select, humidistat can be used as the hot type humidistat and uses, and also can be used as the ultrasonic type humidistat and uses, and can also use as heating/ultrasonic type humidistat.When switch was set to three-mode 398, a signal just was fed through the loop, and can electric power be applied to heater 322 according to this signal.Therefore heater 322 heats, thereby the water that is stored in first water storage container 324 is heated up.Water after the intensification flows into valve member 340.At this moment water temperature remains on 75 degree.

As shown in Figure 5, the water temperature in being stored in first water storage container 324 surpasses predetermined temperature, and when preferably 70-75 spends, the coil spring 348 in the valve member 340 will expand.First valve 349 that partly is connected with the first end of coil spring 348 will be closed be thereupon lived the output block 346 in the valve member 340, thereby stops water to flow into second water storage container 334 by first water storage container 324.

Be lower than predetermined temperature if be stored in the temperature of the water in first water storage container 324, when preferably 70-75 spends, then the coil spring 348 in the valve member 340 will shrink, thereby open output block 346 in the valve member 340 with first valve 349 that the first end of coil spring 348 partly is connected, and then make water flow into second water storage container 334 by first water storage container 324.

Refer again to Fig. 3 and Fig. 4, the water after heating up in first water storage container 324 will flow into second water storage container 334 by valve member 340, and cooling therein.The ultrasonic wave that is produced by vibrator 332 acts on the water that is stored in second water storage container 334, thereby produces atomized water.Like this, just, can be the harmless atomized water of actor is supplied to required inner space.

The user can select first or second pattern as required from three patterns.When the user is chosen as first mode 3 97 by switch, the signal that switch 395 provides will be applied to the loop, and according to this signal electric power will be applied to heater 322.Therefore, heater 322 is heated, and the water that is stored in first water storage container 324 is heated up, to produce atomized water.

With reference to Fig. 5, the water temperature in being stored in first water storage container 324 surpasses predetermined temperature, and when preferably 70-75 spent, the coil spring 348 in the valve member 340 expanded.First valve 349 that partly is connected with the first end of coil spring 348 will be closed be thereupon lived the output block 346 in the valve member 340, thereby stops water to flow into second water storage container 334 by first water storage container 324.Subsequently as shown in Figure 3 and Figure 4, this atomized water will be sucked into atomizing water pipe 370, be injected into the outside of humidistat 300 again by nozzle 380.

Moreover, owing to the water that is stored in first water storage container 324 is heated up, so also the rod bacterium that breeds has been carried out sterilization in water.Therefore, can in the room, provide the atomized water harmless to the user.

When the user turns to second mode 3 99 with switch, the electric power that then is applied to heater 322 will be cut off, and electric power will provide the vibrator 332 to second water storage container 334 of ultrasonic wave part 330 then.Therefore heater 322 will cool off, and the temperature that is stored in the water in first water storage container 324 will descend, and valve member 340 will be opened again, thereby make the water that is stored in first water storage container 324 flow into second water storage container 334.Vibrator 332 produces ultrasonic wave then, and this ultrasonic wave makes the water generates vibration that is stored in second water storage container 334, thereby generates atomized water on the surface of water.This atomized water is sucked into atomizing water pipe 370, is injected into the outside of humidistat 300 again by nozzle 380.

At this moment, if user's console switch 395 once more switches to first mode 3 97 by second mode 3 99, the electric power that is supplied to vibrator 332 is cut off, and electric power will provide the heater 322 to the heating part 320.Therefore, heater 322 will heat up once more with the generation heat, and then the temperature that is stored in the water in first water storage container 324 is raise.The temperature of water will rise to predetermined temperature, and preferably the 70-75 degree makes the valve member 340 that is opened closed once more.Atomized water can produce in the water by intensification, and is sucked into atomizing water pipe 370, is injected into the outside of humidistat 300 again by nozzle 380.

The humidistat 300 of Gou Chenging according to a second embodiment of the present invention, other parts except coil spring 348 are all identical with parts in the first embodiment of the present invention, thereby omitted explanation except that each parts relevant with coil spring 348 at this.

As shown in Figure 6, the water temperature in being stored in first water storage container 324 surpasses predetermined temperature, and when preferably 70-75 spent, the bellows 448 in the valve member 440 expanded.Therefore, first valve 449 that partly is connected with the first end of bellows 448 will be closed be thereupon lived the output block 446 in the valve member 440, thereby stops water to flow into second water storage container 334 by first water storage container 324.Water temperature in being stored in first water storage container 324 is lower than predetermined temperature, when preferably 70-75 spends, bellows 448 in the valve member 440 will shrink, and make with first valve 449 that the first end of bellows 448 partly is connected and open output block 446 in the valve member 440, thereby make water flow into second water storage container 334 by first water storage container 324.

The humidistat 300 that a third embodiment in accordance with the invention constitutes, other parts except coil spring 348 are all identical with parts in the first embodiment of the present invention, thereby omitted explanation except that each parts relevant with coil spring 348 at this.

As shown in Figure 7, the water temperature in being stored in first water storage container 324 surpasses predetermined temperature, and when preferably 70-75 spends, the paraffin that is injected to the cylinder shape assembly 548 in the valve member 540 will expand.Therefore, first valve 549 that partly is connected with the first end of piston 566 will be closed be thereupon lived the output block 546 in the valve member 540, thereby stops water to flow into second water storage container 334 by first water storage container 324.Water temperature in being stored in first water storage container 324 is lower than predetermined temperature, when preferably 70-75 spends, cylinder shape assembly 548 in the valve member 540 will shrink, and make the output block 546 of opening valve member 540 with first valve 549 that the first end of cylinder shape assembly 548 partly is connected.So just, can make water flow into second water storage container 334 by first water storage container 324.

As these above-mentioned most preferred embodiments are described, the valve member that is made of marmem is installed in humidistat, therefore can be according to internal environment, this humidistat is used as a kind of hot type humidistat, use as a kind of ultrasonic type humidistat, or use as a kind of heating/ultrasonic type humidistat.

The present invention is described by most preferred embodiment, but is understood that, those skilled in the art can make various deformation and change shape in not break away from the theme of the present invention and scope that is defined by the appended claims in form and details.

Claims (18)

1. humidistat comprises:

A main body;

One is installed in water tank on the main body, that storage water is used;

First assembly that is connected with water tank by the first fluid path, this assembly are used to store and heat by the first fluid path provides next water, to produce first atomized water;

Second assembly that is connected with first assembly by second fluid passage, this assembly are used to make the water generates vibration to produce second atomized water;

One the 3rd assembly, this assembly are used for changing the pucker ﹠ bloat that is produced according to water temperature, and prevention selectively or permission water flow into second assembly by first assembly;

One the 4th assembly makes first assembly operating when this assembly is chosen as first pattern, make second assembly operating when being chosen as second pattern, and first and second assemblies are moved simultaneously.

2. humidistat as claimed in claim 1, wherein, first assembly includes first water storage container of the water that a storage provides by water tank and one and is installed in the heater first water storage container lower part, that be used to produce heat.

3. humidistat as claimed in claim 2, wherein, second assembly include second water storage container of the water that a storage overflows by first water storage container and one be installed in the second water storage container lower part, be used to produce hyperacoustic vibrator.

4. humidistat as claimed in claim 1, wherein, second fluid passage is formed on a dividing plate upper portion that is configured between first and second water storage containers, and second fluid passage is configured in the inside part of the 3rd assembly.

5. humidistat as claimed in claim 4, wherein, the 3rd assembly has a valve member, it includes the housing that a shape is tetrahedral, on the first side wall that is formed on housing, make the water that is stored in first water storage container can flow into the input block of housing, one be formed on second sidewall relative with the first side wall of housing, make water flow into output block in second water storage container by housing, a spring element that connects the first side wall of housing, and first valve that forms as one with spring element.

6. humidistat as claimed in claim 5, wherein, spring element includes a coil spring of being made by marmem.

7. humidistat as claimed in claim 6, wherein, coil spring has a first end part that is connected with a side surface of first valve, the second end part on the groove that partly is oppositely arranged with first end with, be used to be fixed in the inner surface that is formed at the first side wall, and coil spring is according to the temperature generation expansion or the contraction of water, so that first valve open or closed firmly output block.

8. humidistat as claimed in claim 7, wherein, if water temperature surpasses 70 degree basically, coil spring will expand, thereby make with first valve closes that the first end of coil spring partly is connected and live output block, to stop water to flow into second water storage container by first water storage container, if water temperature is lower than about 70 degree, coil spring will shrink, thereby make the first valve open output block that partly is connected with the first end of coil spring, so that water can flow into second water storage container by first water storage container.

9. humidistat as claimed in claim 4, wherein, the 3rd assembly has a valve member, it includes the housing that a shape is tetrahedral, on the first side wall that is formed on housing, make the water that is stored in first water storage container can flow into the input block of housing, one be formed on second sidewall relative with the housing the first side wall, make water flow into the output block of using in second water storage container by housing, a bellows that connects the first side wall of housing, and first valve that becomes one with bellow-shaped.

10. humidistat as claimed in claim 9, wherein, bellows is made by metal sheet, and its inside has ethane class solution.

11. humidistat as claimed in claim 10, wherein, bellows has a first end part that is connected with a side surface of first valve, the second end part on the groove that partly is oppositely arranged with first end with, be used to be fixed in the inner surface that is formed at the first side wall, and bellows is according to the temperature generation expansion or the contraction of water, so that first valve open or closed firmly output block.

12. humidistat as claimed in claim 11, wherein, if water temperature surpasses 70 degree basically, bellows will expand, thereby make with first valve closes that the first end of bellows partly is connected and live output block, to stop water to flow into second water storage container by first water storage container, if water temperature is lower than about 70 degree, bellows will shrink, thereby make the first valve open output block that partly is connected with the first end of bellows, so that water can flow into second water storage container by first water storage container.

13. a humidistat as claimed in claim 9 wherein, has ethanol in the bellows, so that it expands according to variation of temperature or shrinks.

14. humidistat as claimed in claim 4, wherein, the 3rd assembly has a valve member, it includes the housing that a shape is tetrahedral, on the first side wall that is formed on housing, make the water that is stored in first water storage container can flow into the input block of housing, one is formed on second sidewall relative with the first side wall of housing, make water flow into output block in second water storage container by housing, a cylinder shape assembly that connects the first side wall of housing, and first valve that forms as one with cylinder shape assembly.

15. humidistat as claimed in claim 14, wherein, cylinder shape assembly comprises a sealed hollow shape cylinder with end sections that is fixed on the housing the first side wall, one be slidingly mounted in the cylinder, have a piston that is coupled to the end sections of first valve, and one be installed in the cylinder, be used for tension spring towards the first side wall biases piston of housing.

16. a humidistat as claimed in claim 15 wherein, has paraffin in the cylinder, so as temperature when rising towards the second sidewall biases piston of housing.

17. humidistat as claimed in claim 16, wherein, if water temperature surpasses the 70-74 degree basically, cylinder will expand, thereby make with first valve closes that cylindrical the second end partly is connected and live output block, to stop water to flow into second water storage container by first water storage container, if water temperature is lower than about the 70-75 degree, cylinder will shrink, thereby make the first valve open output block that partly is connected with cylindrical the second end, so that water can flow into second water storage container by first water storage container.

18. humidistat as claimed in claim 1, wherein, the 4th assembly includes a switch that is used to select heating mode, ultrasound mode and heating/ultrasonic wave integrated mode, and that be connected with switch, as to be used for selectively making first and second assembly operatings loop.

Images