DE60030676T2 - humidifying - Google Patents

Abstract

There is provided is a humidifier that has a small amount of leak of air between its humidification passage and its moisture absorption passage and has a high humidification efficiency. A moisture absorption side fan motor 14 and a humidification side fan motor 17 are provided on the downstream side of a humidifying rotor 12, by which a humidification passage 13 and a moisture absorption passage 15 have negative pressures in the vicinity of an end surface of the humidifying rotor 12. Therefore, a pressure difference between air in the humidification passage 15 and air in the moisture absorption passage 13 is small in the vicinity of the end surface of the humidifying rotor 12, by which the leak of air is a little and the humidification efficiency is improved. The moisture absorption side fan motor_14 and the humidification side fan motor 17 are arranged on the same lower side of the humidifying rotor 12, making the humidifier compact. <IMAGE>

Description

technical area

The The present invention relates to a humidifier for humidification of air that is to be supplied to a room, for example, and in particular a humidifier for humidifying the air to be supplied by collecting moisture from the air, with no water supply unit provided is.

State of technology

Conventionally, there was a humidifier of this type as in 5 (Japanese Laid-Open Patent Publication No. HEI 8-141345). This humidifier has a humidifying rotor 2 on, consisting of an adsorbent of silica gel, zeolite or the like, arranged in a housing 1 , is constructed. A moisture absorption channel 3 and a humidification channel 5 extend through this moistening rotor 2 , The moistening rotor 2 performs a moisture absorption operation in the moisture absorption channel 3 and performs a moisture desorption operation in the humidification channel 5 out. A fan 6 is on the upstream side of the humidifying rotor 2 of the moisture absorption channel 3 provided to generate an airflow, as indicated by the arrows A and B, through which the moistening rotor 2 the moisture from the air in the moisture absorption channel 3 absorbed. On the other hand, a fan 7 and a heater 8th on the upstream side of the moistening rotor 2 of the humidification channel 5 arranged to provide an air flow, as indicated by arrows C and D, through the humidification channel 5 to create. The air that is in the humidification channel 5 located, and by the fan 7 Pressure is supplied and by the heater 8th is heated by the humidifying rotor 2 moistened (absorption moisture of moistening rotor 2 ) and an indoor unit through a conduit system (not shown) supplied.

The humidifying rotor absorbs in this humidifier 2 Moisture from the air in the moisture absorption channel 3 , and the moisture gets from the humidifying rotor 2 to the air in the humidification channel 5 issued. This arrangement has the advantage that no water supply unit is necessary.

However, in the above-mentioned conventional humidifier are the fan 6 in the moisture absorption channel 3 and the fan in the humidification channel 5 on the upstream side of the moistening rotor 2 arranged, and accordingly, this arrangement has the following problems. In general, a large amount of air (3 m ³ / min, for example) will pass through the moisture absorption channel 3 flowed to collect moisture from the air. The moisture absorption channel 3 has a relatively large cross-sectional area, and the fan 6 applies a pressure that is just enough to move the air through the humidifying rotor 2 to let occur. Therefore, a pressure at a point M on the upstream side of the moistening rotor 2 in the moisture absorption channel 3 about a pressure of 7 mm water column pressure. On the other hand, a relatively small amount of air (0.2 m ³ / min, for example) is the humidification channel 5 fed. The cross-sectional area of the humidification channel 5 is relatively small, and a pressure at a point L on the downstream side of the moistening fan 2 in the humidification channel 5 reaches a pressure of 50 to 80 mm water column pressure, the resistance of a long line to the indoor unit on the side of the humidification channel 5 to overcome. Accordingly, there is a problem that a pressure difference between the point M and the point L reaches a value of 43 to 73 mm water column pressure, and a large amount of humidified air from the humidifying passage 5 in the moisture absorption channel 3 flows. The moistening rotor 2 rotates about an axis 2a around, and therefore there is a gap between a wall 9 and the humidifying rotor 2 , where the wall 9 is arranged between the points L and M. A large amount of humidified air flows through this gap due to the large difference in pressure mentioned above. This leakage of humidified air results in reduced humidification efficiency (amount of humidification / feed).

Summary the invention

According to the present The invention provides an air humidifier comprising: a Humidification rotor, a moisture absorption channel, which itself extends through the moistening rotor, a moisture absorption fan, which is arranged in the moisture absorption channel, a humidification channel, which extends through the moistening rotor, a moistening fan, which is arranged in the humidification channel, and a heating means for heating the air in the humidifying passage, wherein the humidifying rotor Absorbs moisture from the air in the moisture absorption channel and humidifies the heated air in the humidification channel, wherein the humidification channel to the moisture absorption channel means an outdoor air area near the humidifying rotor borders.

In the humidifier having the above structure, the humidifying duct is adjacent to the moisture absorber via an outdoor air area near the humidifying rotor tion channel. Therefore, the pressure difference between the humidifying channel and the outdoor air portion can be made smaller than the pressure difference between the humidifying channel and the moisture absorbing channel. Therefore, the entry of dry air into the humidification channel can be reduced. Therefore, the humidifying efficiency can be increased.

In the humidifier of one of the embodiments of the present Invention is provided an air humidifier as described above, wherein the humidifying fan a channel portion of the humidification channel through the humidifying rotor and the outside not located opposite air area.

In the above embodiment the humidifying fan is located in a channel section of the humidifying channel through the humidifying rotor opposite and is the outdoor located air area at all not opposite. Therefore, although outside air from the outdoor air area into the duct section the humidification channel flows in, flows the outside air not directly into the humidifying fan through the humidifying rotor without to step through the channel section. Therefore, the amount of outside air, which are located directly in the humidifying fan from the outdoor Air area occurs, can be reduced, creating a larger amount of air heated by the heater through the humidifying rotor streamed which increases the humidification efficiency.

In further embodiments The present invention is the humidifier of the invention designed so that the moisture absorption fan in the Moisture absorption channel on the downstream side of the moistening rotor is arranged; and the humidifying fan in the humidifying passage on the downstream side the humidifying rotor is arranged.

In the humidifier having the above construction are the Moisture absorption fan and humidifying fan on the downstream side the moistening rotor arranged. The humidification channel and the Moisture absorption channel have negative pressures near the end face of the Moistening rotor on and have no high pressure such as the Moistened air, the pressure on the outside of the humidifying fan supplied shall be. Therefore, a pressure difference between the air in the humidification channel and the air in the moisture absorption channel or between the air in the humidification channel and the outside air small in the vicinity the end face of the Humidifying rotor, whereby the outflow of air from the humidification channel or the entry of outside air in the humidification channel is low. Therefore, the humidification efficiency is increased.

It also borders in these embodiments the humidification channel to the moisture absorption channel over the outdoor air area near the humidifying rotor, and therefore, the pressure difference between the air in the humidification channel and the air in the outdoor air area made smaller be considered the pressure difference between the humidification channel and the moisture absorption channel. Therefore, the outflow between reduces the outdoor air area and the humidification channel become. Furthermore none of the humidification side and the moisture absorption side will go through influenced the pressure deviations on the opposite side. Therefore, a constant flow in each channel, and the performance is stabilized.

In A first modification of this embodiment will be a section of the humidifying rotor from which the moisture desorbs through the air which is located in the humidification channel and by the heating means is heated by the flowing Preheated air which is to be moistened by the section and the preheated air is heated by the heating means and through given the moistening rotor.

In the first modification of the embodiment becomes the portion of the humidifying rotor from which the moisture Desorbed by the air, which is heated by the heating means is, by the flowing Preheated air which is to be moistened by the section and then the preheated air is heated by the heating means. Therefore the load of the heating medium is reduced, causing the heating medium can be made compact and an energy saving is achieved. In particular due to the interaction effect of the arrangement, that the outflow of air from the humidification channel or the inflow of Air in the humidification channel is low, and the above Preheating remarkably increases humidifying efficiency.

In Another variation of this embodiment is the moisture absorption fan and the humidifying fan on an identical side of the humidifying rotor arranged.

In this other modification of the embodiment, the moisture absorption fan and the humidifying fan are arranged on an identical side of the humidifying rotor. Therefore, the dimensions of the entire humidifier in the axial direction of the humidifying rotor become smaller than in the case where they are on both sides th moistening rotor are arranged. Thus, a humidifier having a low outflow of air, a high humidifying efficiency and a compact body is provided.

In a further modification of this embodiment is a heating, which serves as a heating medium, in the humidification channel on the upper Side of the humidifying rotor, and the humidifying fan is located on the lower side of the humidifying rotor.

In this further modification of the embodiment is the heater arranged on the upper side of the moistening rotor, and therefore The heater does not cause an electrical leak, even when a dew condensation occurs on the moistening rotor or the like. The of the Heating heated air is through the humidifying fan in Suctioned towards the bottom of the humidifying rotor.

In Yet another variation of this embodiment includes a motor to drive the humidifying fan on a housing, whose bottom portion with an opening is provided.

In this still other modification of the embodiment are water droplets, by dew condensation in the housing of the moistening fan motor be generated through the opening of the housing issued. Therefore, the engine suffers no damage. This arrangement Also prevents the generation of noise and the wear of the components because of the water.

In Yet another variation of this embodiment is a protective cover near the opening of the housing intended.

In The still further modification of the embodiment is the protective cover near the opening of the housing the motor of the humidifying fan provided. Therefore, if steam out of the opening the steam is not sprayed on other components as it spouts is interrupted by the protective cover.

Summary the drawings

Around a better understanding of the present invention, and to show how it can be realized will now be merely exemplary on the associated Drawings in which:

1 a schematic view of a humidifier is;

2 Fig. 11 is a top view of a humidifying rotor in the above embodiment;

3 Fig. 12 is a schematic view for explaining the operation of the above dampening rotor;

4 Fig. 12 is a schematic view of a humidifier according to the present invention;

5 a schematic view of a conventional humidifier is; and

6 a schematic view of a humidifier according to another embodiment is.

description

As in 1 shown, this humidifier has a disc-shaped Befeuchtungsrotor 12 on that in a housing 10 is arranged. This humidification rotor 12 is constructed by forming an adsorbent of silica gel, zeolite, aluminum, or the like in, for example, an honeycomb-like mold or a multipore multiparticulate mold, and is driven by an engine (not shown) about an axis 12a rotates around. The housing 10 is internally divided by a departmental plate 11 , wherein a moisture absorption channel 13 and a humidification channel 15 be formed, extending through the sections of the moistening rotor 12 extend.

A moisture absorption side fan motor 14 is on the downstream side of the humidifying rotor 12 and on the lower side of the humidifying rotor 12 in the moisture absorption channel 13 provided, wherein it generates an air flow by sucking the air, as indicated by the arrow A. Although not shown, this moisture absorption side fan motor 14 a moisture absorption fan (relating to a moisture absorption fan in the meaning of a fan disposed on the moisture absorption passage side) and a motor for driving this moisture absorption fan, which are integrated into one unit. The moistening rotor 12 absorbs moisture (adsorbs water) from the air in the direction of arrow A through the moisture absorption channel 13 flows. In the moisture absorption channel 13 is a pressure at a point S on the upstream side of the moistening rotor 12 about 0 mm water column pressure, and a negative pressure at a point M on the downstream side of the moistening rotor 12 is about -7 mm water column pressure.

On the other side is a humidification side fan motor 17 on the downstream side of the humidifying rotor 12 and on the lower side of the humidifying 12 in the humidification channel 15 arranged, wherein it generates an air flow by suction of the air, as indicated by the arrow B. Although not shown, this humidification side fan motor 17 from a humidifying fan (relating to a humidifying fan in the meaning of a fan arranged on the humidifying passage side) and a motor for driving this humidifying fan, which are integrated in one unit. A heater 16 serving as an example of a heating means is in a section above the moistening rotor 12 in the humidification channel 15 provided so that air, which has a temperature of 100 ° C or more, by this heating 16 was heated by the moistening rotor 12 is moistened (the moistening rotor 12 desorbs moisture) while passing through the moistening rotor 12 occurs. The air passing through humidification channel 15 flows, passes twice through the moistening rotor 12 in a canal section 15u which is arranged on the upstream side, and a channel section 15d that is on the downstream side of the heater 16 is arranged. An upward airflow Bu, first the humidification rotor 12 happens, takes heat from the moistening rotor 12 on, and a downstream air flow Bd, which has absorbed the above-mentioned heat and further through the heater 16 heated to a temperature of 100 ° C or more, absorbs moisture from the moistening rotor 12 , That is, like in the 2 and 3 shown that the moistening rotor 12 rotates in a direction indicated by an arrow R and thereby successively a section 12A which is the moisture absorption channel 13 opposite, a section 12bd , the down-channel section 15d of the humidification channel 15 opposite, and a section 12bu , which is the upstream section 15u of the humidification channel 15 is opposite, moved. As in 3 shown, the moisture passing through the moistening rotor 12 from the air A in the moisture absorption channel 13 is absorbed by the air Bd, which has a temperature of 100 ° C or more, by the heater 16 was heated, desorbed and on the lower side of the humidification channel 15 directed so that this air Bd is moistened.

The humidified air Bd is passed through the humidification side fan motor 17 , in 1 shown; sucked, further compressed, giving it a forced pressure of 50 to 80 mm water column pressure at the entrance of the pipe 19 having the resistance of the long line 19 overcomes, and a space through an indoor unit (not shown) supplied. The humidifier is installed on an outdoor unit (not shown), and therefore the duct is 19 , which is connected to the indoor unit, relatively long. In the humidification channel 15 is a negative pressure at a point L on the upstream side of the moistening rotor 12 about -3 mm water column pressure, and a negative pressure at a point N on the downstream side of the moistening rotor 12 is about -6 mm water column pressure.

On the other hand, as in 2 and 3 As shown, the upward air Bu to be humidified passes through the section 12bu of the humidifying rotor 12 which was heated by the heated air and from which the moisture was desorbed, with the air Bu passing through the heated section 12bu is preheated. From another point of view, this preheating means cooling the section 12bu of the humidifying rotor 12 through the air Bu before the section 12B the moisture absorption channel 13 opposite, and therefore the moistening rotor 12 sufficiently the moisture in the moisture absorption channel 13 absorb.

The airflow Bu and the airflow Bd are counterflows, and therefore, the thermal gradient of the airflow Bu and the thermal gradient in the thickness direction of the moistening rotor become 12 identical, whereby the air flow Bu efficiently heat from the humidifying rotor 12 can record.

As in 1 shown is the housing of the motor of the humidification side fan motor 17 with an opening 21 provided in its bottom portion, wherein water droplets condensed in this housing, through the opening 21 be delivered. With this arrangement, the engine suffers no damage. This arrangement also eliminates the generation of noise and the wear of components due to water. There is also a protective cover 22 near the opening 21 provided the housing, so that, if steam from the opening 21 prevents the steam from being sprayed on other components by being interrupted by means of the protective cover 22 ,

It should be noted that the reference numerals 31 . 32 and 33 Departments in 1 describe.

In the humidifier having the above construction, a portion adsorbed in the moisture absorption passage adsorbs 13 of the humidifying rotor 12 is arranged moisture from the air in the moisture absorption channel 13 , In the section of the humidifying rotor 12 , which has adsorbed the moisture, the moisture is desorbed by the air Bd, which is at a temperature of not less than 100 ° C by the heater 16 in the channel section 15d was heated, leading to the lower side of the humidification channel 15 is directed (the air Bd absorbs moisture). As described above, the air Bd, the moisture of the humidifying 12 has absorbed, ie the humidified air Bd, through the humidification side fan motor 17 blown to a forced pressure of 50 to 80 mm at the entrance of the pipe 19 to show the resistance of the long line 19 , which extends to the indoor unit to overcome.

The section of the humidifying rotor 12 which has been heated by the heated air Bd and from which the moisture has been desorbed, pre-heats the air Bd to be humidified passing through the duct section 15u when it flows in the channel section 15u leading to the upper side of the humidification channel 15 is directed, is arranged. This preheated air Bu is heated by the heater 16 is heated and is to the downflow air stream Bd, the moistening rotor 12 should be supplied and should be moistened. As described above, the air Bu is preheated using the heat of the heated humidifying rotor 12 , and therefore the heating can 16 have a lower load, be more compact and achieve energy savings.

The moisture absorption side fan motor 14 and the humidification side fan motor 17 suck in air, being on the downstream side of the humidifying rotor 12 are arranged, and therefore, the air has a negative pressure or an approximately zero pressure in the vicinity of the moistening rotor 12 on. That is, in the moisture absorption channel 13 is the pressure at the point S on the lower side of the moistening rotor 12 about 0 mm water column pressure, and the pressure at the point M on the upper side of the moistening rotor 12 -7 mm water column pressure. In the humidification channel 15 is the pressure at the point L on the upper side of the moistening rotor 12 -3 mm water column pressure, and the pressure at the point N on the lower side of the moistening rotor 12 -6 mm water column pressure. Therefore, a pressure difference between the point L and the point M on the upper side of the moistening rotor becomes 12 4 mm = (-3 mm - (-7 mm)) water column pressure, which is low. Therefore, the effluent of air from the humidification channel 15 to the moisture absorption channel 13 through the point L and the point M low. In addition, a pressure difference between the point S and the point N on the lower side of the moistening rotor becomes 12 6 mm = (0 mm - (-6 mm)) water column pressure, which is low. Therefore, the effluent of air from the moisture absorption channel 13 to the humidification channel 15 through the point S and the point N low.

As described above, the effluent of air is between the moisture absorption channel 13 and the humidification channel 15 low, and therefore the humidification efficiency (amount of humidification / feed) is remarkably increased. In particular, due to the interaction effect of this small outflow and the preheating of air to be humidified by the moistening rotor 12 , the humidification efficiency is greatly improved.

In the present embodiment, the moisture absorption side fan motor 14 and the humidification side fan motor 17 on the lower side or the same side with respect to the humidifying rotor 12 arranged, and therefore, the dimensions in the axial direction of the moistening rotor 12 of the entire humidifier can be reduced. As in the example of the prior art in 5 shown when the fan 6 of the moisture absorption channel 3 on one side of the humidifying rotor 2 is arranged, and the fan 7 of the humidification channel 5 on the other side of the humidifying rotor 2 is arranged, then there are the two fans 6 and 7 on both sides of the humidifying rotor 2 arranged, which leads to an increase in the dimensions of the entire device.

4 shows an air humidifier as claimed in the invention. The embodiment that is in 4 is different from the embodiment shown in FIG 1 is shown in that an outdoor air area 55 communicating with the outside air, through walls 51 and 52 a housing 50 is formed, and that the moisture absorption channel 13 and the humidification channel 15 are not directly related to each other, but by means of the outdoor air area 55 above the humidification rotor 12 , Therefore, the same components as those of the embodiment of the 1 provided with the same reference numerals, wherein no description is provided for it, and in the following, only the different components will be described.

In the moisture absorption channel 13 who in 4 is shown, the pressure at the point M on the upper side of the moistening rotor 12 -7 mm water column pressure. In the humidification channel 15 is the pressure at the point L on the upper side of the moistening rotor 12 -3 mm water column pressure. A pressure at a point Q of the outdoor air area 55 is of course 0 mm water column pressure. Therefore, the pressure difference between the point Q and the point L becomes on the upper side of the humidifying rotor 12 3 mm (0 mm (-3 mm)) water column pressure, which is less than 4 mm water column pressure of the embodiment of 1 , As described above, the pressure difference between the point Q of the outdoor air area 55 and the point L of the humidification channel 15 the small value of 3 mm water column pressure, and therefore the amount is Air, which is the humidification channel 15 from the outdoor air section 55 enters, low. In addition, the pressure on the outdoor air section 55 higher than the pressure in the vicinity of the humidifying rotor 12 in the humidification channel 15 , and therefore, the heated air does not flow out of the humidifying passage 15 from. Thus, the humidification efficiency is greatly improved. In particular, due to the interaction effect of the small outflow and the preheating of the air passing through the moistening rotor 12 humidification, the humidification efficiency is greatly improved. In addition, neither the humidification side nor the moisture absorption side is affected by the pressure fluctuations on the opposite side. Therefore, a constant current can be maintained in each channel, and the power is stabilized.

This in 6 The embodiment shown differs from that in FIG 4 shown embodiment in the arrangement of the humidification side fan motor 57 and is identical to the embodiment of 4 in the other points. Therefore, the same components as those of the embodiment of the 4 are denoted by the same reference numerals, with no description for them, and only different components will be described below.

In this embodiment of the 6 lies the moisture side fan motor 57 a channel section 15d on the upper side of the humidification channel 15 over the moistening rotor 12 opposite, and is the outdoor air section 55 not at all. Therefore, although the outside air passing through the point Q of the outdoor air section 55 flows, the channel section 15d of the humidification channel 15 on the upper side of the humidifying rotor 12 enters, the outside air does not flow directly into the humidifying fan motor 57 directly through the moistening rotor 12 , Therefore, the amount of air that comes from the outdoor air section 55 enters, be reduced, and an increased amount of air passing through the heater 16 is heated by the moistening rotor 12 pass through, whereby the moistening efficiency can be increased.

Although the heater 16 When the heating means is used in the aforementioned embodiment, it is acceptable to use the waste heat from the compressor of the outdoor unit or other heating means such as microwaves instead of this heater 16 to use.

Even though this humidifier on the outdoor unit of the Air conditioning is installed and the humidified air from the indoor unit in the aforementioned embodiment it is natural possible, to use this humidifier individually.

Although the fan motors 14 and 17 each obtained by integrating a fan and a motor used in the aforementioned embodiment, it is acceptable to use a fan and a motor with separate housings.

In these embodiments, in which the humidification channel directly to the moisture absorption channel near adjacent the humidifying rotor, the pressure difference between the air in the humidification channel and the air in the moisture absorption channel small in the vicinity the endface of the humidifying rotor. Therefore, the effluent of air from the humidification channel small, even if the humidification channel directly to the moisture absorption channel near adjacent to the moistening rotor.

One Advantage achieved by the present invention is the Providing a humidifier containing a small amount of Air outflow between its humidification channel and its moisture absorption channel and has a high humidification efficiency.

Claims (8)

A humidifier, comprising: a humidifying rotor ( 12 ); a moisture absorption channel ( 13 ), which passes through the moistening rotor ( 12 ), a moisture absorption fan located in the moisture absorption channel (FIG. 13 ), a humidification channel ( 15 ), which passes through the moistening rotor ( 12 ), a humidifying fan located in the humidification channel (FIG. 15 ), and a heating means ( 16 ) for heating the air in the humidification channel ( 15 ), wherein the moistening rotor ( 12 ) is arranged to remove moisture from the air in the moisture absorption channel ( 13 ) and the heated air in the humidification channel ( 15 ), characterized in that the humidification channel ( 15 ) to the moisture absorption channel ( 13 ) by means of an air area located outside ( 55 ) near the humidifying rotor ( 12 ) adjoins. A humidifier according to claim 1, wherein the humidifying fan is a duct section ( 15d ) of the humidification channel ( 15 ) through the moistening rotor ( 12 ) and the outdoor air area ( 55 ) is not opposite. A humidifier according to claim 1, wherein the moisture absorption fan in the moisture absorption channel ( 13 ) on the downstream side of the Humidifying rotor ( 12 ) and the humidifying fan in the humidification channel (FIG. 15 ) on the downstream side of the moistening rotor ( 12 ) is arranged. A humidifier according to claim 3, wherein a portion of the humidifying rotor ( 12 ) from which the moisture is desorbed by the air in the humidification channel ( 15 ) and by the heating means ( 16 ), is preheated by the flowing air, which is to be moistened by the section, and the preheated air by the heating means ( 16 ) and heated by the moistening rotor ( 12 ). A humidifier according to claim 3, wherein the moisture absorption fan and the humidifying fan are mounted on an identical side of the humidifying rotor (10). 12 ) are arranged. A humidifier according to claim 3, wherein a heater ( 16 ), which serves as a heating medium, in the humidification channel ( 15 ) on the upper side of the humidifying rotor ( 12 ) and the humidifying fan on the lower side of the humidifying rotor ( 12 ) is arranged. A humidifier according to claim 3, wherein a motor for driving the humidifying fan has a housing whose bottom portion is provided with an opening (Fig. 21 ) is provided. A humidifier according to claim 7, wherein a protective cover ( 22 ) near the opening ( 21 ) is provided.