CN105465939A - Air feeder - Google Patents

Abstract

The invention provides an air feeder comprising the following structures: a body with a box type frame and arranged in a ceiling; an outer air suction port arranged on a side face of the frame so as to suck the outdoor air into the body; an indoor blow port arranged on the frame so as to blow the air from the body to the indoor environment; an indoor suction inlet arranged on the bottom of the frame and used for sucking the indoor air into the body; a spiral type housing arranged in the frame; a centrifuge air supply blade arranged in the housing; a fan motor unit of a motor driving the centrifuge air supply blade in a rotary manner. An indoor suction part and a decoration panel are arranged below the frame; the decoration panel covers an opening of the ceiling, and is provided with a suction port used for guiding the indoor air to the opening of the ceiling; the indoor suction part is in a cylinder shape, can wrap the indoor suction inlet, and connects the indoor suction inlet with the ceiling opening.

Description

Feeder

Technical field

The present invention relates to be embedded in be arranged at ceiling opening, be connected in ceiling with the pipeline that is communicated with outside room, to the feeder of indoor air feed.

Background technology

In prior art, as this feeder, there will be a known by carrying out the feeder of taking a breath outdoor to the indoor air supply taking ventilation as object.(for example, referring to patent document 1).

Below, with reference to Fig. 7, this feeder is described.

Fig. 7 is the side view representing existing feeder.As shown in Figure 7, indoor 101, there is the housing 103 being adjacent to the appropriate location of outdoor 102 arrange.Air-feeding ventilator 104 and the air supply opening 105 being arranged on its downstream is provided with in the upside of housing 103.The one end of the pipeline 106 forming air feed path is connected with at air supply opening 105.The other end of pipeline 106 is connected with the blow-off outlet 108 being arranged on ceiling 107.Air-feeding ventilator 104 can utilize inverter 109 to carry out air quantity adjustment.Be provided with in the downside of housing (Casing) 103 and the interconnecting part 110 of indoor and the interconnecting part 111 with outside.Interconnecting part 110 is provided with air door (Damper) 112 and filter 114.Interconnecting part 111 is provided with air door 113 and filter 115.Air door 112 can be remotely controlled as MOD.Be arranged on the control part 116 of hull outside, monitor the temperature sensor 117 be arranged in pipeline 106.When the measured value of temperature sensor 117 is reduced to setting value, control part 116 control inverter 109 and air door 112, carry out the control increasing air quantity.

In existing feeder, attract room air and outdoor air by the action of air-feeding ventilator 104.Room air flow in housing 103 by air door 112, from filter 114 by afterwards, mixes with the outdoor air through air door 113, filter 115.Then, flow through pipeline 106 by air-feeding ventilator 104, flow to indoor 101 from blow-off outlet 108.Now, the room air of corresponding with the amount of the outdoor air flowing into housing 103 amount is expelled to outdoor through omitting illustrated gas extraction system.

When proceeding above ventilation action, be reduced to the value predicting the setting that can produce condensation by the temperature of the air of air feed.Temperature sensor 117 is utilized to detect it.Like this, control part 116 makes the rotating speed of air-feeding ventilator 104 rise by inverter 109, and makes the aperture of air door 112 become large, increases the air quantity of room air.Therefore, it is possible to suppress the generation of condensation.

Prior art document

Patent document

Patent document 1: Japanese Unexamined Patent Publication 2004-301416 publication

Summary of the invention

At so existing feeder, as shown in Figure 7, need to guarantee outside interconnecting part, mode disposed in the interior for indoor interconnecting part is arranged housing.Thus, the equipment that there is premises arranges the various restriction of middle generation, the problem that housing project is restricted.

So, the object of the invention is to, provide and can be arranged on ordinary residence with few restriction, prevent the feeder of the generation condensed.

In order to reach this object, feeder of the present invention comprises: be arranged in ceiling, has the main body of the framework of box like; Be arranged on frame facet, the air from outdoor is taken into the extraneous air suction inlet of main body.In addition, comprising: be arranged at framework, from main body by the indoor blow-off outlet of Air blowing to indoor; With the bottom surface being arranged at framework, the air from indoor is taken into the indoor suction inlet of main body.In addition, comprising: be arranged on the volute housing in framework; Be arranged on the centrifugal wind feeding blades in housing; With the fan motor unit of motor with the centrifugal wind feeding blades of rotary actuation.In addition, indoor inhalation part and decoration panel is also provided with in the below of framework.In addition, decoration panel is arranged in the mode covering ceiling opening, has the air entry air of indoor being guided to ceiling opening.In addition, indoor inhalation part makes the mode of indoor suction inlet and ceiling open communication to be formed as tubular with suction inlet in embracing chamber.Reach desired object thus.

According to the present invention, when extraneous air is cool, the cool extraneous air sucked by fan motor unit is mixed with the warm air of the indoor sucked by fan motor unit.Therefore, blow-off outlet spues the air warmer than extraneous air indoor.Condensation can be prevented thus.

Accompanying drawing explanation

Fig. 1 is the side cross-sectional, view of the feeder representing embodiments of the present invention 1.

Fig. 2 is the side cross-sectional, view of the feeder representing embodiments of the present invention 2.

Fig. 3 be the feeder representing embodiments of the present invention 2 covering chamber in suction inlet shutter member (shutter) part top perspective view.

Fig. 4 is the below stereogram of the slider bar part of the feeder representing embodiments of the present invention 2.

Fig. 5 is the control pattern card being detected the operating condition obtained by temperature sensor of the feeder representing embodiments of the present invention 2.

Fig. 6 is the side cross-sectional, view of the feeder representing embodiments of the present invention 2 Do.

Fig. 7 is the side view representing existing feeder.

Symbol description

1 framework

2 main bodys

3 ceilings are inner

4 extraneous air suction inlets

5 is outdoor

6 indoor blow-off outlets

7 fan motor unit

8 motor

9 motor mounting plates

10 Sirocco fans

11 housings

12 chambers

13 the 1st filters

14 indoor suction inlets

15 indoor inhalation parts

16 ceilings

17 ceiling openings

18 is indoor

19 air entries

20 decoration panels

21 the 1st streamlines

22 the 2nd streamlines

23 temperature sensors

24 shutter member

25 shutter member motor

26 control parts

27 wind direction boards

28 frame portions

29 flange parts

30 slider bar

31 seals

32 the 2nd filters

33 arrows

Detailed description of the invention

Below, with reference to accompanying drawing, embodiments of the present invention are described.

(embodiment 1)

Fig. 1 is the side cross-sectional, view of the feeder representing embodiments of the present invention 1.As shown in Figure 1, the feeder of present embodiment comprises the main body 2 with the framework 1 being formed as box like.Main body 2 to be arranged in ceiling 3.Feeder has 1 place's extraneous air suction inlet 4 at a side of main body 2.Feeder has multiple (being 5 places in the present embodiment) indoor blow-off outlet 6 in the side surface part of main body 2 on the opposite becoming extraneous air suction inlet 4.

The extraneous air suction inlet 4 of main body 2 is communicated with by pipeline (not shown) with outdoor 5.The air of outdoor 5 is taken into inside to main body 2 from extraneous air suction inlet 4 by feeder.

In addition, the pipeline (not shown) of any number is also connected with at multiple indoor blow-off outlet 6.The air of outdoor 5 is supplied to room from the pipeline being arranged in ceiling 3.In addition, the indoor blow-off outlet 6 of main body 2, when the pipeline that also can make according to the room layout/area of family to be communicated with indoor blow-off outlet 6 is few, can switch to number few arbitrarily by a part for multiple indoor blow-off outlet 6 being closed.

In order to prevent condensation, main body 2 is formed by the foaming and molding parts that heat-proof quality is high.The framework 1 of the gabarit of main body covered 2 is in order to intensity and prevent burning and all covered by metallic plate.

On the other hand, the inside of main body 2 is provided with fan motor unit 7.The motor 8 of fan motor unit 7 is directly fixed on motor mounting plate 9.Sirocco fan 10 (centrifugal wind feeding blades) is connected with at the rotating shaft of motor 8.

Main body 2 has in the mode of the peripheral part surrounding the Sirocco fan 10 of fan motor unit 7 in inside and is formed as volute housing 11.The nearest blowing portion of housing 11 is provided with chamber 12, is communicated with indoor blow-off outlet 6.

The wind path of the upstream side of the housing 11 in the inside of main body 2 is configured with the 1st filter 13 closely.

At the lower surface of main body 2, the position of the upstream side of housing 11 and the position in the downstream of extraneous air suction inlet 4, be provided with indoor suction inlet 14.

In addition, be formed as the indoor inhalation part 15 of tubular from main body 2 to the lower side in the mode of suction inlet in embracing chamber 14, the ceiling opening 17 to ceiling 16 is projecting.Thus, indoor suction inlet 14 is communicated with ceiling opening 17.Herein, so-called tubular also comprises square tube shape etc. except drum, in the present embodiment in square tube shape.

There is the decoration panel 20 of air entry 19 that passes through of air from indoor 18, be close to ceiling 16 in the mode covering ceiling opening 17.Decoration panel 20, by the spring (not shown) opened as the extroversion of known mounting means, is installed on indoor inhalation part 15 or framework 1 etc.

In said structure, when making fan motor unit 7 operate, the air of outdoor 5, as shown in the 1st streamline 21, flow in housing 11 from the 1st filter 13 of extraneous air suction inlet 4 by the inside of main body 2.On the other hand, as shown in the 2nd streamline 22, the air of indoor 18, flow in housing 11 from the air entry 19 of decoration panel 20 successively by the inner side of indoor inhalation part 15, indoor suction inlet 14 and the 1st filter 13.

Herein, the air of indoor and outdoor to be stirred and by chamber 12, by indoor blow-off outlet 6, be supplied to room at fan motor unit 7.At chamber 12, pressure is homogenized, and thus, the air after being stirred is more close to uniform temperature.In addition, the flow of the air of multiple indoor blow-off outlet 6 is flowed to also close to even.Therefore, to the air after each room supplying temperature, air quantity homogenising.

Particularly in the winter etc. that the air of outdoor is ice-cold, according to air conditions, construction conditions, there is the problem that the outer surface of the pipeline in indoor blow-off outlet 6 side etc. produces condensation.But in said structure, because the cold air of outdoor mixes with indoor warm air, air themperature raises, and has the effect suppressing condensation to produce.

In addition, about the 1st filter 13, because be configured in the upstream side of fan motor unit 7, so the air of the air of outdoor 5 and indoor 18 is cleaned by the 1st filter 13, the air of indoor and outdoor is cleaned together.The particularly air of indoor 18, adds the effect in living space circulation, becomes supply by the air after purifying further.

As mentioned above, the feeder of present embodiment is arranged on the inside of ceiling 16, the main body 2 comprising the framework 1 with box like and the side being arranged on framework 1, the extraneous air suction inlet 4 air from outdoor 5 being taken into main body 2.In addition, comprising: be arranged at framework 1, from main body 2 to the indoor blow-off outlet 6 of indoor 18 blow out air; Be arranged at the bottom surface of framework 1, the air from indoor 18 be taken into the indoor suction inlet 14 of main body 2.In addition, comprising: be arranged on the volute housing 11 in framework 1; Be arranged on centrifugal wind feeding blades in housing 11, that be equivalent to Sirocco fan 10; With the fan motor unit 7 of motor 8 with the centrifugal wind feeding blades of rotary actuation.In addition, indoor inhalation part 15 and decoration panel 20 is also provided with in the below of framework 1.In addition, decoration panel 20 is arranged in the mode covering ceiling opening 17, has the air entry 19 air of indoor 18 being guided to ceiling opening 17.In addition, suction inlet 14 in indoor inhalation part 15 embracing chamber, is formed as tubular in the mode making indoor suction inlet 14 be communicated with ceiling opening 17.

Thus, the air utilizing fan motor unit 7 to suck from extraneous air suction inlet 4 and flow into the air of indoor suction inlet 14 in main body 2 internal mix by indoor inhalation part 15 from the suction inlet of decoration panel 20, therefore obtains the effect preventing from condensing.

In addition, be configured with in the feeder of the 1st filter 13 between outside air suction inlet 4 and fan motor unit 7, also indoor suction inlet 14 can be configured in the upstream side of the 1st filter 13.

Thus, the circular flow in air stream forming chamber is also carried out purification of air at filter, can obtain indoor by the effect of purification of air.

(embodiment 2)

Use Fig. 2 to Fig. 6, embodiment 2 is described.At Fig. 2 to Fig. 6, identical Reference numeral is marked to the inscape identical with embodiment 1, omit its detailed description.

Fig. 2 is the side cross-sectional, view of the feeder representing embodiments of the present invention 2.Fig. 3 is the top perspective view of the shutter member part representing the indoor suction inlet covering this feeder.Fig. 4 is the below stereogram of the slider bar part representing this feeder.Fig. 5 is the control pattern card being detected the operating condition obtained by temperature sensor representing this feeder.Fig. 6 is the side cross-sectional, view of another feeder representing embodiments of the present invention 2.

In embodiment 2, as shown in Figure 2, on the basis of the structure illustrated in embodiment 1, in chamber 12, temperature sensor 23 (temperature detecting unit) is configured with.The temperature of temperature sensor 23 to the air blown out from fan motor unit 7 is measured.

The shutter member 24 can closing the indoor suction inlet 14 in main body 2 is configured near indoor suction inlet 14.Shutter member 24 passes through shutter member motor 25 with slips such as rack-and-pinion (rack-and-pinion) modes.The size (or opening and closing of opening) of the opening of suction inlet 14 in control room thus.In addition, shutter member 24 and shutter member motor 25 are examples for opening adjustment part.

By carry out the supervision of the signal of temperature sensor 23, motor 8, shutter member motor 25 the control part 26 that controls of running be such as configured in the side of motor 8 in the lower side of main body 2.In addition, control part 26 also can be arranged on the place leaving main body 2.

Further, from the side of the indoor inhalation part 15 with indoor suction inlet 14 opposition side, to be configured with wind direction board 27 (guiding piece) to the mode of indoor suction inlet 14 surface thereof.Consequently, the air sucked from the air entry 19 of decoration panel 20 flow into indoor suction inlet 14 along the lower surface of wind direction board 27.Thus, effective stream is formed.In addition, in fig. 2, in the externally direction gone of air suction inlet 4 of blow-off outlet 6 indoor, wind direction board 27 configures in the mode of surface thereof.

In addition, also as shown in Figure 3, indoor inhalation part 15 can be formed by frame portion 28, flange part 29 and slider bar 30.The frame portion 28 on the top of indoor inhalation part 15 is arranged on the below of main body 2.Slider bar 30 is formed by the frame that can slide up and down in frame portion 28 arrange.The outside flange part of surrounding 29 is provided with in the bottom of slider bar 30.Frame portion 28 (upper member) is formed in the mode overlapped with slider bar 30 (lower member).

Between frame portion 28 and slider bar 30, be preferably provided with the seal 31 be made up of elastomer.Utilize seal 31 also can prevent from leaking out.

The installation of slider bar 30 is carried out in the mode be pressed into top, is suspended to ceiling 16 to make flange part 29.

Herein, this feeder to be arranged in ceiling 3.How uneven the setting height(from bottom) of the main body 2 of construction stage is, and also there is various thickness at ceiling 16.In the present embodiment, because slider bar about 30 is formed freely slidably, so the uneven of the setting height(from bottom) that various construction causes can be absorbed.Specifically, even if the thickness of the setting height(from bottom) of main body 2 and ceiling 16 exists uneven, because slider bar about 30 is formed freely slidably, the region (such as the region of seal 31) that the frame portion 28 of Fig. 3 is overlapping with slider bar 30 also can be guaranteed.

In addition, as shown in Figure 4 and Figure 5, in the winter time etc. the cold air of outdoor 5 flow into main body 2, is arranged on the temperature sensor 23 of the inside of chamber 12 when below the temperature T0 of regulation being detected, carries out action as described below.That is, by control part 26, shutter member motor 25 is rotated, with the enlarged open by usual (during than temperature T0 height) pent indoor suction inlet 14, shutter member 24 is opened in the direction to arrow 33.

Consequently, 5 cold airs sucked mix with 18 warm airs sucked indoor outdoor, thus the temperature rising of air.On the other hand, the work of fan motor unit 7 is not only the suction of 5 outdoor, but also carries out the suction of indoor 18, and the air demand from outdoor 5 reduces.Herein, make the rotating speed of motor 8 increase in order to supplementary air quantity according to the size of opening, make the air demand of extraneous air return to the air demand before by the enlarged open of indoor suction inlet 14.Till this series of actions repeatedly proceeds to and reaches target temperature T1.In addition, T1 > T0.

In addition, the temperature of the air of outdoor 5 rises afterwards, when reaching the temperature of T2, carries out the action contrary with above-mentioned action.That is, when temperature sensor 23 detects more than the temperature T2 of regulation, utilize control part 26, by the closedown of shutter member 24, suction inlet 14 in close chamber, makes the rotating speed of motor 8 reduce.By these actions, or reach target temperature T3, or shutter member 24 is extremely closed by running completely that carry out feeder.In addition, T2 > T3 > T1.

Generally being arranged in ceiling 3 such products many along with fortification when renewing, therefore placing under repair more.

In this configuration, easily there is the lower surface that the motor 8 of the electronic building brick safeguarded and control part 26 are configured at main body 2.In addition, this structure is covered hidden structure by wind direction board 27.In other words, the top that the motor 8 of the lower surface of main body 2 and control part 26 are configured in wind direction board 27 is configured at.Particularly control part 26 is configured between main body 2 and wind direction board 27.

Air containing indoor dust does not contact with control part 26 with motor 8, effectively flows to indoor suction inlet 14.Therefore, according to this structure, motor 8 and control part 26 are exposed in dust hardly, and therefore the fault rate of motor 8 and control part 26 reduces.

In addition, when safeguarding, can by taking off with the order of decoration panel 20, wind direction board 27, close to motor 8, the control part 26 of electronic building brick.Therefore, it is possible to safeguard simply.

In addition, also can as shown in Figure 6, at the upstream side of indoor suction inlet 14, the wind path between wind direction board 27 and indoor inhalation part 15 is provided with the 2nd filter 32 of the dust of the air collected from indoor.2nd filter 32 is such as arranged between the end (upper end) of wind direction board 27 and indoor inhalation part 15.

Generally speaking, the dust from outside mostly is the little molecule of particle diameter and pollen etc., and on the other hand, the dust from indoor mostly is the dust of large particle diameter.Therefore, the function that filter requires be there are differences.

The 1st inner filter 13 can be only utilized to collect as Embodiment 1.But, because original for the purpose of the molecule that collection cut size is little, so easily block due to the dust collected from indoor.Therefore can safeguard continually.Herein, by configuring the 2nd filter 32, extend the time to next time safeguarding from the full maintenance of the 1st filter 13 of inside.Further, safeguarding easy space by being configured in by the 2nd high for cleaning frequency filter 32, can safeguard more simply.

As mentioned above, the feeder of present embodiment can be also following mode: at the feeder of embodiment 1, have near blow-off outlet 6 disposed in the interior, to be equivalent to temperature sensor 23 temperature detecting part and be equivalent to the shutter member 24 of size and the opening adjustment part of shutter member motor 25 of the opening adjusting indoor suction inlet 14, opening adjustment part and motor 8 are controlled by control part 26.In addition, control part 26, when the temperature detected by temperature detecting part is below setting, controls opening adjustment part and motor 8, to make the opening of indoor suction inlet 14 become large, and improves the rotating speed of motor 8.

Control suction inlet 14 leaked-in air amount indoor thus rightly, and compensate the air demand from outdoor 5.Condensation is prevented and the effect guaranteeing air demand therefore, it is possible to obtain.

In addition, also wind direction board 27 guiding piece of the air of the indoor 18 sucked from the air entry 19 of decoration panel 20 can be guided to be arranged at indoor inhalation part to indoor suction inlet 14 by being equivalent to.

Thus, the air that inhalation part 15 passes through indoor is directed to the guiding piece of indoor inhalation part 15, flow into indoor suction inlet 14, can obtain the effect more effectively flowing into indoor suction inlet 14.

In addition, also control part 26 can be configured between main body 2 and guiding piece.Thus, control part 26 is exposed to dust hardly, therefore, it is possible to the effect that the fault rate obtaining control part 26 reduces.

In addition, the 2nd filter 32 inhalation part 15 disposed in the interior that the air of the indoor 18 that also air entry 19 from decoration panel 20 can be sucked passes through.Thus, the air that inhalation part 15 passes through indoor flow into indoor suction inlet 14 by the filter of indoor inhalation part 15, can obtain the effect of the dust of the air of removing indoor 18.

In addition, also can be following mode: indoor inhalation part 15 is made up of with the lower member being equivalent to slider bar 30 upper member being equivalent to frame portion 28, and upper member is formed in the mode overlapped with lower member.Thus, indoor inhalation part 15 can carry out the flexible of above-below direction, can obtain the rational height of main body when not relying on construction, carry out the effect of constructing the thickness of ceiling tile materials.

Feeder of the present invention is useful as the air interchanger of house use etc.

Claims (7)

1. a feeder, is characterized in that, comprising:

Be arranged in ceiling, there is the main body of the framework of box like;

Be arranged on described frame facet, the air from outdoor be taken into the extraneous air suction inlet of described main body;

Be arranged at described framework, from described main body by the indoor blow-off outlet of Air blowing to indoor;

Be arranged at the bottom surface of described framework, the air from described indoor be taken into the indoor suction inlet of described main body;

Be arranged on the volute housing in described framework;

Be arranged on the centrifugal wind feeding blades in described housing; With

There is the fan motor unit of the motor of centrifugal wind feeding blades described in rotary actuation, wherein

Indoor inhalation part and decoration panel is also provided with in the below of described framework,

Described decoration panel is arranged in the mode covering ceiling opening, has the air entry air of described indoor being guided to described ceiling opening,

Described indoor inhalation part is to surround described indoor suction inlet and to make the mode of described indoor suction inlet and described ceiling open communication be formed as tubular.

2. feeder as claimed in claim 1, is characterized in that:

The 1st filter is configured with between described extraneous air suction inlet and described fan motor unit,

Described indoor suction inlet is configured in the upstream side of described 1st filter.

3. feeder as claimed in claim 1, is characterized in that, comprising:

Be arranged on the temperature detecting part near described indoor blow-off outlet;

Adjust the opening adjustment part of the openings of sizes of described indoor suction inlet; With

Control the control part of described opening adjustment part and described motor,

Described control part, when the temperature detected by described temperature detecting part is below setting, controls described opening adjustment part and described motor to make the opening of described indoor suction inlet become large and to improve the rotating speed of described motor.

4. feeder as claimed in claim 1, is characterized in that:

The air being provided with the described indoor sucked by the described air entry from described decoration panel at described indoor inhalation part guides to the guiding piece of described indoor suction inlet.

5. feeder as claimed in claim 3, is characterized in that:

Described control part is configured between described main body and described guiding piece.

6. feeder as claimed in claim 1, is characterized in that:

The 2nd filter that the air that described indoor inhalation part is provided with the described indoor sucked from the described air entry of described decoration panel passes through.

7. feeder as claimed in claim 1, is characterized in that:

Described indoor inhalation part is made up of upper member and lower member, and described upper member is formed in the mode overlapped with described lower member.