CN101097081A - Integrated ventilation system for using heat exchanger - Google Patents

Abstract

The present invention relates to a synthetic ventilating system using the heat exchanging system in the indoor ventilating system including a heat exchanging system and a controller, it is characterized in that it includes the following components: a main air supply pipe which supplies outdoor air to the indoor room; an electric valve which only does air supplying to the kitchen area when the kitchen air exhausting cover works; a first auxiliary air supply pipe which is connected with the bedroom area; a second auxiliary air supply pipe which is connected with the kitchen area; a first flexible pipe which supplies air to the bedroom area and the kitchen area; and a second flexible pipe which sucks air from the bedroom area and kitchen area. According to the invention the air feeding room is respectively divided to an apartment and a kitchen (including a parlor), the system only provides air to the kitchen to do air changing when the air exhausting cover of the kitchen works thereby restricting the diffusing of the pollutant and accelerating the air changing. Besides, the acoustic material is arranged at the venting pipe thereby preventing the operating noise of the transferring heat exchanging device and therefore the system provides a comfortable surrounding.

Description

Utilize the comprehensive air exchange system of heat-exchange device

Technical field

The present invention relates to a kind of air exchange system, be specifically related to a kind of comprehensive air exchange system that utilizes heat-exchange device, air supply space is divided into room and kitchen (comprising the parlor) respectively, when the exhaust hood work in kitchen, only take a breath to the kitchen air feed.

Background technology

Generally speaking, as the situation of the high-rise apartment building of the multifunction of building recently under, consider from the angle of preserving the energy, the time make window (curtain wall mode) etc. airtight in construction, this high-rise apartment building is for satisfying the comfortableness requirement, must need to import a large amount of fresh outdoor airs, so the indoor air-changing problem becomes important further.

Fig. 1 is the cutaway view of diagram buildings in general.

As shown in Figure 1, in buildings in general, at the cooking table 1 in kitchen, toilet, ceiling etc., a plurality of exhaust hoods 2 are connected with kitchen exhaust well 4 with exhaust outlet 3, thereby will discharge to kitchen exhaust well 4 by said exhaust cover 2 and exhaust outlet 3 at the contaminated air of indoor generation.

In addition, have various airconditions in this building indoor, it freezes or heats indoor, but and on outer wall, be provided with the air supply opening 5 of gravity-flow ventilation, fresh thus outdoor air flows into indoor by above-mentioned air supply opening 5, with the contaminated air that replaces discharging by exhaust hood 2 or exhaust outlet 3 as mentioned above.

But, as mentioned above, when starting exhaust exhaust hood and exhaust fan simultaneously in order to discharge the indoor pollution air, because above-mentioned buildings in general is constructed and indoor being sealed in the curtain wall mode, but even thereby be provided with the air supply opening of gravity-flow ventilation at outer wall, also only discharge indoor air in airtight space, and can not be to indoor smooth air feed, its result is in indoor generation negative pressure, so the efficient of said exhaust cover and exhaust fan declines to a great extent, and can not carry out indoor ventilation smoothly, and not only influence whole ventilation effect thereby exist, also cause the shortcoming of indoor environment variation.

Though be provided with the nature air supply opening in order to solve above-mentioned problem that produces when discharging room air, but along with outdoor air directly circulates by this natural air supply opening, cold outdoor air flows directly into indoor in the process of heating, or how wet high temperature outdoor airs flow directly into indoor in the process of refrigerastion, destroy indoor air environment and thermal environment thus, and produce very big energy loss, thereby there is the technical problem of the whole air-conditioner efficiency that reduces building significantly.

In order to address the above problem, to have developed Korean Utility Model and logined No. 0406146 (login day is on January 9th, 2006, title: the cabin ventilator that utilizes total-heat exchanger).

With reference to Fig. 2 the above-mentioned cabin ventilator of total-heat exchanger that utilizes is described, this cabin ventilator comprises: heat-exchange device is a total-heat exchanger 10, is fixed on the wall of building etc., to indoor supply chamber outer air or to outdoor discharge room air; Air supply pipe 30 is connected with above-mentioned total-heat exchanger 10, as the path of the outdoor air that has purified to indoor supply by scavenge port 20; Blast pipe 40 is connected with above-mentioned total-heat exchanger 10, as the path of discharging indoor contaminated room air by another scavenge port 20 to the outside; And controller 50, be electrically connected with above-mentioned total-heat exchanger 10, to the air quantity of total-heat exchanger 10 regulate, the working time is set and the temperature setting of the outdoor air supplied with etc. is controlled.Above-mentioned total-heat exchanger 10 is connected with a side end of above-mentioned air supply pipe 30 and blast pipe 40 respectively, and the end side of above-mentioned air supply pipe 30 and blast pipe 40 is connected with each scavenge port 20 on being located at indoor ceiling.

But, since this existing cabin ventilator that utilizes total-heat exchanger simultaneously to have living space and carry out air feed, thereby when using the kitchen, under the indoor pollution serious situation, can not carry out air feed and exhaust smoothly.

In addition, also there is the other problems that transmits the running noise of total-heat exchanger by blast pipe in this existing cabin ventilator of total-heat exchanger that utilizes.

Summary of the invention

The present invention is used to address the above problem, its purpose is to provide a kind of comprehensive air exchange system that utilizes heat-exchange device, air supply space is divided into room and kitchen (comprising the parlor) respectively, when the exhaust hood work in kitchen, only take a breath, thus diffusion of contaminant restraining matter and quickening ventilation to the kitchen air feed.

Another object of the present invention is to, a kind of comprehensive air exchange system that utilizes heat-exchange device is provided, sound-absorbing material is set on blast pipe, thereby prevents to transmit the running noise of heat-exchange device, can provide comfortable environment thus.

Be used to reach the comprehensive air exchange system that utilizes heat-exchange device of the present invention of above-mentioned purpose, in comprising the indoor air-changing system of heat-exchange device and controller, described heat-exchange device has outdoor suction port, outdoor exhaust outlet, indoor air entry and indoor air supply opening; Described controller, be electrically connected with above-mentioned heat-exchange device, the temperature setting of the outdoor air that the air quantity to above-mentioned heat-exchange device is regulated, the working time is set and supplied with etc. is controlled, it is characterized in that, comprise: main air supply pipe, be connected with the indoor air supply opening of above-mentioned heat-exchange device, to indoor supply chamber outer air; Electrically operated valve, each room is divided into zone, a bedroom, parlor and kitchen are divided into zone, a kitchen, it is located on the pipeline of above-mentioned main air supply pipe, ON/OFF sensor according to the action that detects kitchen air exhaust hood carries out work, when above-mentioned kitchen air exhaust hood is worked, only carry out air feed to above-mentioned kitchen area territory; The first secondary air supply pipe is connected with first air supply opening of said electric valve door, thereby is connected with zone, above-mentioned bedroom; The second secondary air supply pipe is connected with second air supply opening of said electric valve door, thereby is connected with zone, above-mentioned kitchen; First flexible pipe has the air feed air diffuser respectively on terminal, be connected with the above-mentioned first secondary air supply pipe and the second secondary air supply pipe, thereby air feed is carried out in zone, above-mentioned bedroom and zone, kitchen; Blast pipe is connected with the indoor air entry of above-mentioned heat-exchange device, thereby indoor air is discharged to the outside; With second flexible pipe, on terminal, have air-breathing air diffuser respectively, be connected with above-mentioned blast pipe, with the formation pressure exhaust, thereby carry out air-breathing to zone, above-mentioned bedroom and zone, kitchen.

Wherein, further comprise guiding tube, its terminal with above-mentioned second flexible pipe is connected, and prolongs and forms to discharge directions in the inside of above-mentioned blast pipe.

Wherein, above-mentioned second flexible pipe is attached with sound-absorbing material on inner peripheral surface, to reduce the running noise of above-mentioned heat-exchange device.

Wherein, be located at the above-mentioned air feed air diffuser in the kitchen in zone, above-mentioned kitchen, in order effectively to remove the polluter that rises and spread on the top, whereabouts kitchen, use is to first linear diffuser of horizontal air feed, the above-mentioned air-breathing air diffuser that is located in the kitchen in zone, above-mentioned kitchen uses second linear diffuser, described second linear diffuser is corresponding with above-mentioned first linear diffuser and separate setting, and is connected with the kitchen exhaust well that is connected with kitchen air exhaust hood with flexible pipe by kitchen exhaust.

Description of drawings

Fig. 1 is the cutaway view of diagram buildings in general.

Fig. 2 is the synoptic diagram of the structure of the existing cabin ventilator that utilizes heat exchanger of expression.

Fig. 3 is the synoptic diagram of the structure of the expression comprehensive air exchange system that utilizes heat-exchange device of the present invention.

Fig. 4 is the side sectional view of structure of second flexible pipe of the expression comprehensive air exchange system that utilizes heat-exchange device of the present invention.

Fig. 5 is the plane of the structure of the air feed that is located at the zone, kitchen of the expression comprehensive air exchange system that utilizes heat-exchange device of the present invention and air-breathing air diffuser.

Fig. 6 is the perspective view of structure of the guiding tube of the expression comprehensive air exchange system that utilizes heat-exchange device of the present invention.

The specific embodiment

Below, with reference to accompanying drawing the structure of the comprehensive air exchange system of heat-exchange device of utilizing of the present invention is elaborated.

When the present invention will be described hereinafter, under the situation that specifies chaotic main idea of the present invention unnecessarily that is judged as relevant known function or structure, omit it and describe in detail, and give label same as the prior art.In addition, term described later be consider its in the present invention function and the term that defines, according to user, utilization person's intention or convention etc. and different.Therefore, should be that its definition is made on the basis with the whole content of this specification.

Fig. 3 is the synoptic diagram of the structure of the expression comprehensive air exchange system that utilizes heat-exchange device of the present invention, Fig. 4 is the side sectional view of structure of second flexible pipe of the expression comprehensive air exchange system that utilizes heat-exchange device of the present invention, Fig. 5 is the plane of the structure of the air feed that is located at the zone, kitchen of the expression comprehensive air exchange system that utilizes heat-exchange device of the present invention and air-breathing air diffuser, and Fig. 6 is the perspective view of structure of the guiding tube of the expression comprehensive air exchange system that utilizes heat-exchange device of the present invention.

With reference to Fig. 3 to Fig. 6, the comprehensive air exchange system 100 of heat-exchange device that utilizes of the present invention comprises main air supply pipe 110, electrically operated valve 120, first secondary air supply pipe 130, the second secondary air supply pipe 140, first flexible pipe 150, blast pipe 160, second flexible pipe 170 and guiding tube 180.

At first, the comprehensive air exchange system 100 of heat-exchange device that utilizes of the present invention is divided into zone, a bedroom 101 with each room, and parlor and kitchen are divided into zone, a kitchen 103, thereby with they each self-separations.At this moment, zone, bedroom 101 comprises all rooms such as inner room, reading room, bedroom, study.

And main air supply pipe 110 is connected with the indoor air supply opening 11 of heat-exchange device 10, thereby to indoor supply chamber outer air.At this, main air supply pipe 110 is the metal tube of circle or square shape, and it is located at the ceiling interior volume.

In addition, electrically operated valve 120 is located on the pipeline of main air supply pipe 110, and the ON/OFF sensor 125 of the action by detecting kitchen air exhaust hood 2 moves, and when kitchen air exhaust hood 2 is opened, only carries out air feed to zone, kitchen 103.At this, when electrically operated valve 120 is closed at kitchen air exhaust hood 2, carry out air feed and exhaust respectively to zone 101, bedroom and zone, kitchen 103 according to the control of controller (omitting diagram).

In addition, the first secondary air supply pipe 130 is connected with first air supply opening 121 of electrically operated valve 120, thereby is connected with zone, bedroom 101.

On the other hand, the second secondary air supply pipe 140 is connected with second air supply opening 123 of electrically operated valve 120, thereby is connected with zone, kitchen 103.

And first flexible pipe 150 has air feed air diffuser 151 respectively on terminal, and is connected with the first secondary air supply pipe 130 and the second secondary air supply pipe 140, thereby carries out air feed to zone 101, bedroom and zone, kitchen 103.At this, as shown in Figure 6, be located at the air feed air diffuser 151 in the kitchen in zone, kitchen 103, in order effectively to remove the polluter that rises and spread on the top, whereabouts kitchen, use separates setting with kitchen air exhaust hood 2 to first linear diffuser, 151, the first linear diffusers 151 of horizontal air feed on same straight line.

In addition, blast pipe 160 is connected with the indoor air entry 12 of heat-exchange device 10, thereby indoor air is discharged to the outside.At this, blast pipe 160 is the metal tube of circle or square shape, and it is located at the ceiling interior volume.

In addition, second flexible pipe 170 has air-breathing air diffuser 171 respectively on terminal, is connected with blast pipe 160, with the formation pressure exhaust, thereby carries out air-breathing to zone 101, bedroom and zone, kitchen 103.At this, as shown in Figure 4, second flexible pipe 170 is attached with sound-absorbing material 172 on inner peripheral surface, to reduce the running noise of heat-exchange device 10.In addition, as shown in Figure 5, the air-breathing air diffuser 171 that is located in the kitchen in zone, kitchen 103 uses second linear diffuser 171, described second linear diffuser 171 is corresponding with first linear diffuser 151 and be located between first linear diffuser 151 and the kitchen air exhaust hood 2, and is connected with the kitchen exhaust well 4 that is connected with kitchen air exhaust hood 2 with flexible pipe 173 by kitchen exhaust.

On the other hand, as shown in Figure 6, guiding tube 180 is connected with the terminal of second flexible pipe 170, prolongs and forms to discharge directions in blast pipe 160 inside.

In addition, air feed air diffuser 151 and air-breathing air diffuser 171 are mutually separated by a distance and be provided with at the same space.

Below, utilize the action of the comprehensive air exchange system of heat-exchange device to be elaborated with reference to accompanying drawing to of the present invention.

At first, the indoor air supply opening 11 of heat-exchange device 10 is connected with main air supply pipe 110, indoor air entry 12 is connected with blast pipe 160, and outdoor suction port 13 is connected with air feeder (omitting diagram), and outdoor exhaust outlet 14 is connected with air exhaust (omitting diagram).

In this state, when opening kitchen air exhaust hood, heat-exchange device 10 and electrically operated valve 120 carry out work according to the detection signal of ON/OFF sensor 125, the outdoor air that electrically operated valve 120 will flow into from the indoor air supply opening 11 of heat-exchange device 10 is introduced the second secondary air supply pipe 140, only air feed is carried out in zone, kitchen 103.

Thus, by first flexible pipe 150 that is connected with the second secondary air supply pipe 140, and be that air feed is carried out in zone, kitchen 103 via 151 pairs of parlors of air feed air diffuser and kitchen.

At this moment, by being located at first linear diffuser 151 in kitchen, form horizontal air feed from the kitchen ceiling to exhaust hood 2 one sides, and second linear diffuser 171 by corresponding setting with it carry out air-breathing, thereby on top, kitchen, rise and the polluter of diffusion is discharged to kitchen exhaust well 4 rapidly with flexible pipe 173 by kitchen exhaust.

In addition, also air feed is carried out in the parlor that is connected with the kitchen, the air demand that be located at the air feed air diffuser 151 in parlor this moment is set to many about twice than the air demand of first linear diffuser 151 that is located at the kitchen, prevents that thus the polluter in kitchen from flowing into the parlor.For example, be set at 100m in air demand with the kitchen ³/ h is set at 200m with the air demand in parlor ³/ h, make second linear diffuser 171 from exhaust hood 2 at a distance of 100mm, the result that first linear diffuser 151 is experimentized under the state of 1500mm from second linear diffuser 171, it is ideal from the ability and the indoor air-changing efficient of the polluter diffusion in kitchen for inhibition.

On the other hand, carry out exhaust, on second flexible pipe 170, be attached with sound-absorbing material 172, reduce the running noise of heat-exchange device 10 thus by air-breathing air diffuser 171, second flexible pipe 170 and blast pipe 160.

In addition, between second flexible pipe 170 and blast pipe 160, form guiding tube 180, form pressure exhaust thus, and be formed with guiding tube 180, exhaust smoothly thus to the discharge directions prolongation in blast pipe 160 inside.

And, the air feed zone is divided into bedroom zone and zone, kitchen, the zone, kitchen is once more with air-breathing separation, thus the raising scavenging efficiency can prevent the situation of mutual decrease in efficiency when together turning round with kitchen air exhaust hood.

The invention effect

The comprehensive air exchange system that utilizes heat-exchange device of the present invention according to said structure, because air supply space is divided into room and kitchen (comprising the parlor) respectively, when the exhaust hood work in kitchen, only take a breath to the kitchen air feed, thus can diffusion of contaminant restraining matter and quickening ventilation.

In addition, according to the comprehensive air exchange system that utilizes heat-exchange device of the present invention, because sound-absorbing material is set on blast pipe, thus prevent to transmit the running noise of heat-exchange device, thus comfortable environment can be provided.

The present invention can carry out various distortion, can take various forms, in the specifying of foregoing invention, only its special embodiment is described, but the present invention is not limited to the specific form that relates in above-mentioned specifying, and comprises all deformations, counterpart and the substitute in the spirit and scope of the present invention of belonging to by the technical scheme regulation.

Claims (4)

1. comprehensive air exchange system that utilizes heat-exchange device, in comprising the indoor air-changing system of heat-exchange device and controller, described heat-exchange device has outdoor suction port, outdoor exhaust outlet, indoor air entry and indoor air supply opening; Described controller is electrically connected with described heat-exchange device, to the air quantity of described heat-exchange device regulate, the working time is set and the temperature setting of the outdoor air supplied with etc. is controlled, and it is characterized in that, comprising:

Main air supply pipe is connected with the indoor air supply opening of described heat-exchange device, to indoor supply chamber outer air;

Electrically operated valve, each room is divided into zone, a bedroom, parlor and kitchen are divided into zone, a kitchen, it is located on the pipeline of described main air supply pipe, ON/OFF sensor according to the action that detects kitchen air exhaust hood carries out work, when described kitchen air exhaust hood is worked, only carry out air feed to zone, described kitchen;

The first secondary air supply pipe is connected with first air supply opening of described electrically operated valve, thereby is connected with zone, described bedroom;

The second secondary air supply pipe is connected with second air supply opening of described electrically operated valve, thereby is connected with zone, described kitchen;

First flexible pipe has the air feed air diffuser respectively on terminal, be connected with the described first secondary air supply pipe and the second secondary air supply pipe, thereby air feed is carried out in zone, described bedroom and zone, kitchen;

Blast pipe is connected with the indoor air entry of described heat-exchange device, thereby indoor air is discharged to the outside; With

Second flexible pipe has air-breathing air diffuser respectively on terminal, be connected with described blast pipe, with the formation pressure exhaust, thereby carries out air-breathing to zone, described bedroom and zone, kitchen.

2. the comprehensive air exchange system that utilizes heat-exchange device according to claim 1 is characterized in that, further comprises guiding tube, and its terminal with described second flexible pipe is connected, and prolongs and forms to discharge directions in the inside of described blast pipe.

3. the comprehensive air exchange system that utilizes heat-exchange device according to claim 1 is characterized in that described second flexible pipe is attached with sound-absorbing material on inner peripheral surface, to reduce the running noise of described heat-exchange device.

4. the comprehensive air exchange system that utilizes heat-exchange device according to claim 1, it is characterized in that, be located at the described air feed air diffuser in the kitchen in zone, described kitchen, rise on the top, whereabouts kitchen and the polluter of diffusion, use first linear diffuser to horizontal air feed in order effectively to remove;

The described air-breathing air diffuser that is located in the kitchen in zone, described kitchen uses second linear diffuser, described second linear diffuser is corresponding with described first linear diffuser and separate setting, and is connected with the kitchen exhaust well that is connected with kitchen air exhaust hood with flexible pipe by kitchen exhaust.

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