CN210292083U - Multi-space air duct machine - Google Patents

Abstract

The utility model discloses a tuber pipe machine that many spaces used, include: a housing; the fan is arranged in the shell and used for sucking outdoor or indoor air into the shell; at least two air channels are formed in the shell, one end of each air channel is communicated with the air outlet side of the fan, and the other end of each air channel is provided with an indoor air outlet. The technical scheme of the utility model can realize that a tuber pipe machine carries out air conditioning to a plurality of spaces to reduce cost.

Description

Multi-space air duct machine

Technical Field

The utility model relates to a refrigeration plant's technical field, in particular to tuber pipe machine that many spaces used.

Background

The air duct machine is also called as an air duct type air conditioner, outdoor air or indoor air is extracted to enter an indoor machine and is cooled and blown out through a heat exchanger, and the air duct machine has higher cost performance and is deeply favored by mass customers due to the simple operation mode. However, the air-conditioning apparatus in the market generally performs air-conditioning only for a single space, and cannot perform air-conditioning capability for a plurality of spaces at the same time. Therefore, a customer needs to purchase a plurality of air ducts, and the problems of high use cost and insufficient cost performance are caused.

The above is only for the purpose of assisting understanding of the technical solutions of the present application, and does not represent an admission that the above is prior art.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a tuber pipe machine that many spaces used aims at realizing that a tuber pipe machine carries out air conditioning to a plurality of spaces to reduce cost.

In order to achieve the above object, the utility model provides a tuber pipe machine that many spaces used, include:

a housing; and

the fan is arranged in the shell and used for sucking outdoor or indoor air into the shell;

at least two air channels are formed in the shell, one end of each air channel is communicated with the air outlet side of the fan, and the other end of each air channel is provided with an indoor air outlet.

Optionally, two air ducts are formed in the casing, the two air ducts are a main air duct and an auxiliary air duct, and the area of the cross section of the main air duct is larger than that of the cross section of the auxiliary air duct.

Optionally, two air ducts are formed in the casing, the two air ducts are a main chamber air duct and an auxiliary chamber air duct, one end of the main chamber air duct, which is away from the fan along the air flow direction, is provided with a main chamber air outlet, and one end of the auxiliary chamber air duct, which is away from the fan along the air flow direction, is provided with an auxiliary chamber air outlet and an auxiliary main chamber air outlet.

Optionally, the main chamber air outlet is arranged adjacent to the secondary main chamber air outlet.

Optionally, the casing has an air outlet panel, an air duct partition is convexly arranged on an inner wall surface of the air outlet panel, the main chamber air duct and the auxiliary chamber air duct are respectively formed on two sides of the air duct partition, and the main chamber air outlet and the auxiliary chamber air outlet are both arranged on the air outlet panel and respectively located on two sides of the air duct partition.

Optionally, the casing further has a side wall surrounding the periphery of the air outlet panel, and the auxiliary chamber air outlet is opened in the side wall of the casing.

Optionally, a main chamber directional air valve is arranged at the auxiliary main chamber air outlet to open or close the auxiliary main chamber air outlet.

Optionally, an auxiliary chamber directional air valve is arranged at the auxiliary chamber air outlet to open or close the auxiliary chamber air outlet.

Optionally, a heat exchanger is arranged in the air duct.

Optionally, the heat exchanger is arranged to extend obliquely in a flow direction of the air drawn by the fan.

The utility model discloses technical scheme is through a plurality of wind channels that set up, with the air of fan suction water conservancy diversion to different rooms respectively, and then carries out air conditioning to a plurality of rooms, need not purchase a plurality of tuber pipes machines, reduces purchase cost. Meanwhile, the air of a plurality of rooms can be adjusted only by operating one fan, so that the use consumption is reduced. High cost performance and convenient use.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

Fig. 1 is a schematic structural diagram of an embodiment of a multi-space air duct machine according to the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

fig. 3 is the structural schematic diagram of the utility model discloses tuber pipe machine that many spaces used arranges indoor.

The reference numbers illustrate:

reference numerals	Name (R)	Reference numerals	Name (R)
				100	Shell body	32	Fan flow passage
101	Fan baffle	32a	Lead-out opening
				103	Air duct partition plate	50	Main chamber air duct
105	Air outlet panel	51a	Main chamber air outlet
				1051	Main chamber direction air valve	53	Main heat exchanger
107	Side wall	70	Auxiliary chamber air duct
				1071	Auxiliary chamber direction air valve	71a	Air outlet of auxiliary main chamber
30	Fan blower	71b	Air outlet of auxiliary chamber
				31	Impeller	73	Auxiliary heat exchanger

The objects, features and advantages of the present invention will be further described with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that all the directional indicators (such as upper, lower, left, right, front and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indicator is changed accordingly.

In addition, the descriptions related to "first", "second", etc. in the present invention are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicit ly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

The utility model provides a tuber pipe machine that many spaces used through two at least wind channels, can carry out air conditioning to a plurality of rooms, has practiced thrift purchase and use cost, sexual valence relative altitude.

Referring to fig. 1 and 2, in an embodiment of the present invention, a multi-space wind pipe machine includes:

a housing 100; and

the fan 30, the fan 30 is located in the body 100, the fan 30 draws the outdoor or indoor air into the body 100;

at least two air ducts are formed in the casing 100, one end of each air duct is communicated with the air outlet side of the fan 30, and the other end of each air duct is provided with an indoor air outlet.

That is, one end of the casing 100 has an air inlet and is communicated to the outside or the inside of the room, the fan 30 is disposed in the casing 100, the air outlet side of the fan 30 is communicated to a plurality of air ducts, and the air ducts are respectively communicated to the inside of different rooms through the indoor air outlets.

Like this, through a plurality of wind channels, the air with the 30 suction of fan water conservancy diversion respectively to different rooms, and then carries out air conditioning to a plurality of rooms, need not purchase a plurality of tuber pipes machines, reduces the purchase cost. Meanwhile, the air of a plurality of rooms can be regulated only by the operation of one fan 30, so that the use consumption is reduced. High cost performance and convenient use.

Referring to fig. 1, two air ducts are formed in the casing 100, the two air ducts are the main chamber air duct 50 and the sub-chamber air duct 70, and the area of the cross section of the main chamber air duct 50 is larger than that of the sub-chamber air duct 70.

In an embodiment of the present invention, the main chamber air duct 50 communicates with the main chamber, and the sub-chamber air duct 70 communicates with the sub-chamber, and of course, the main chamber air duct 50 is not limited to communicating the main chamber, and the sub-chamber air duct 70 is not limited to communicating the sub-chamber, and specifically, can be determined according to the design requirement of the chamber.

Thus, the air flowing into the main chamber air duct 50 is more than that in the auxiliary chamber, the air conditioning capacity of the main chamber is stronger than that in the auxiliary chamber, and the air conditioning capacity of the main chamber is larger than that in the auxiliary chamber, so that the air conditioning effect difference of each room is small, the condition that the auxiliary chamber is too cold or the main chamber is too hot is not caused, and the indoor temperature of each room is similar, healthy and comfortable.

The utility model discloses an in the embodiment, fan 30 has the export 32a that communicates the wind channel, and export 32a is the air-out side of fan 30 promptly, and fan 30 flows out from export 32a from the air of air intake suction, and main room wind channel 50 has the main entrance that supplies the air inflow, and vice room wind channel 70 has the vice introducing port that supplies the air inflow, and just leads the entrance to export 32 a.

That is, in this embodiment, the main chamber duct 50 extends in the same direction as the air inflow direction, and the air drawn in from the fan 30 flows out from the outlet 32a, and since the main chamber duct 50 faces the outlet 32a, most of the air flows into the main chamber duct 50 from the main inlet, so that the indoor temperature of each room is approximated, and the air conditioning difference is reduced.

Of course, in other embodiments, the main inlet of main chamber duct 50 may not face the outlet 32a, and the distribution of the incoming air is only based on the cross-sectional sizes of the main chamber duct 50 and the sub-chamber duct 70.

Referring to fig. 1 and fig. 2, the main chamber air duct 50 has a main chamber air outlet 51a at an end away from the blower 30 along the air flow direction, and the sub-chamber air duct 70 has a sub-chamber air outlet 71b and an auxiliary main chamber air outlet 71a at an end away from the blower 30 along the air flow direction; the sub-chamber air outlet 71b is communicated with the sub-chamber, and the main chamber air outlet 51a and the sub-main chamber air outlet 71a are communicated with the main chamber.

Thus, only a portion of the air in the sub-chamber duct 70 flows into the sub-chamber to improve the comfort of the sub-chamber and avoid overcooling.

In an embodiment of the present invention, the main chamber air outlet 51a is disposed adjacent to the auxiliary main chamber air outlet 71 a.

That is, the main chamber air outlet 51a and the auxiliary main chamber air outlet 71a are disposed adjacent to each other on the same side, so that the air inside the main chamber is smoothly circulated, healthy and comfortable, and the air inside the main chamber is prevented from being disturbed.

Specifically, the casing 100 has an air outlet panel 105, an air duct partition 103 is protruded from an inner wall surface of the air outlet panel 105, the main chamber air duct 50 and the sub-chamber air duct 70 are respectively formed at two sides of the air duct partition 103, and the main chamber air outlet 51a and the sub-main chamber air outlet 71a are both disposed on the air outlet panel 105 and respectively located at two sides of the air duct partition 103.

The one end of casing 100 is located to above-mentioned air intake, and the other end of casing 100 is then located to air-out panel 105, and like this, main room air outlet 51a all locates air-out panel 105 with attaching main room air outlet 71a, and the air outflow direction is the same, and the circulation of air is even, and more the wholeization, also only needs to fix this air-out panel 105 in the indoor air outlet department in two wind channels when the installation, conveniently installs this tuber pipe machine.

The casing 100 further has a side wall 107 surrounding the air outlet panel 105, and the sub-chamber air outlet 71b is opened in the side wall 107 of the casing 100.

Thus, the flow of air from the sub-chamber outlet 71b is reduced to provide a comfortable flow of air to the sub-chamber and avoid overcooling of the sub-chamber.

Of course, in other embodiments, the main chamber air outlet 51a and the auxiliary main chamber air outlet 71a may be disposed at different positions according to the indoor arrangement of the main chamber and personal requirements.

The main chamber duct 50 and the sub-chamber duct 70 are arranged to extend in parallel in the flow direction of the air drawn in by the blower 30.

Therefore, the air circulation is facilitated, the efficiency of the air duct machine is improved to the maximum extent, and the air turbulence is prevented.

In an embodiment of the present invention, the sub-chamber air duct 70 is located above the main chamber air duct 50, that is, when the duct machine is installed in the main chamber, in an actual installation, the sub-chamber air outlet 71b of the sub-chamber air duct 70 needs to be communicated to the sub-chamber through a communication conduit, the sub-chamber air duct 70 is located above, and the sub-chamber air outlet 71b is also located on the upper side wall 107 of the casing 100, so as to facilitate installation.

Referring to fig. 2, a main chamber directional damper 1051 is disposed at the main chamber outlet 71a to open or close the main chamber outlet 71 a.

The air flowing out of the main chamber adjusting valve can be adjusted through the main chamber direction air valve 1051, so that the air adjusting capacity is improved, and the comfort is improved; and, the opening and closing of the main chamber directional damper 1051 can adjust the flow rate of air flowing into the sub-chamber, thereby realizing air conditioning of the sub-chamber.

The utility model discloses a main room direction blast gate 1051 that provides in the embodiment can be the main blade of a plurality of interval arrangements, a plurality of main blades are located and are attached the vertical interval arrangement of main room air outlet 71a, and the both ends of main blade are equipped with the gear respectively, and through the swing of locating this a plurality of main blades of rack simultaneous drive in the casing 100, the rack passes through motor drive and removes, namely, accessible swing makes a plurality of main blades seal and attaches main room air outlet 71a, or the outflow direction of adjustment air, and then adjust the air in main room.

Similarly, the sub-chamber outlet 71b is provided with a sub-chamber directional damper 1071 for opening or closing the sub-chamber outlet 71 b.

The auxiliary chamber direction air valve 1071 can adjust the air flowing out from the auxiliary chamber adjusting valve, improve the air conditioning capacity, so as to improve the comfort; opening and closing the sub-chamber directional damper 1071 adjusts the flow rate of air flowing into the sub-chamber, thereby realizing air conditioning of the sub-chamber. .

The utility model discloses an in the embodiment given auxiliary room direction blast gate 1071 can be a plurality of interval arrangement's auxiliary vane, auxiliary room air outlet 71b horizontal interval arrangement is located to a plurality of auxiliary vanes, and the both ends of auxiliary vane are equipped with the gear respectively, and through the swing of locating this a plurality of auxiliary vanes of rack simultaneous drive in the casing 100, the rack passes through motor drive and removes, promptly, accessible swing makes a plurality of auxiliary vanes seal auxiliary room air outlet 71b, or the outflow direction of adjustment air, and then adjusts auxiliary room air outlet 71 b.

The main room direction blast gate 1051 and the auxiliary room direction blast gate 1071 can be controlled separately, realizing the free adjustment of the indoor air of each room.

In addition, in other embodiments, a main chamber adjusting air valve may also be disposed at the main chamber air outlet 51a of the main chamber air duct 50, and the main chamber adjusting air valve may also be a plurality of adjusting blades vertically arranged at intervals, so as to adjust air in the main chamber; in this way, the main blade and the adjusting blade can be integrated and controlled simultaneously, the operation is simple, and the main blade and the adjusting blade can be controlled separately as required to respectively adjust the air in the main chamber and the air in the auxiliary chamber.

In addition, a heat exchanger is arranged in the air duct, and converts air flowing into the air duct into cold air so as to be discharged into a room.

The hot air is converted into the cold air through the heat exchanger, the conversion and the regulation of each indoor air are realized, and the regulation of the temperature of the indoor air is further realized through the control of the heat exchanger.

Each air duct is provided with a heat exchanger, and a whole heat exchanger can be arranged in the shell 100 according to needs, and meanwhile, air conversion is carried out on a plurality of air ducts. Of course, if necessary, the indoor air may be circulated only by the fan 30 without providing a heat exchanger.

And, the heat exchanger is arranged to extend obliquely in the flow direction of the air drawn in by the blower 30.

Like this, after the air inflow wind channel, the area of the heat exchanger that the slope extension was arranged is bigger, and it is higher that the air passes through heat exchanger conversion cold air efficiency, and then has improved this tuber pipe machine's overall efficiency.

That is, in an embodiment of the present invention, the main chamber air duct 50 is horizontally provided with the main heat exchanger 53, and the auxiliary chamber air duct 70 is horizontally provided with the auxiliary heat exchanger 73, and along the flowing direction of the air in the casing 100, the main heat exchanger 53 is arranged obliquely downward and is horizontally separated from the main chamber air duct 50, and the auxiliary heat exchanger 73 is arranged obliquely upward and is horizontally separated from the auxiliary chamber air duct 70.

In addition, the main heat exchanger 53 and the sub heat exchanger 73 are separately controlled, so that the main chamber and the sub chamber can be respectively air-conditioned, the use is convenient, and the comfort in each room is improved.

Referring to fig. 1, the fan 30 is a cross-flow fan 30, and includes an impeller 31, a fan flow channel 32 and a motor, the fan flow channel 32 is opened toward one end of the air channel to form the outlet 32a, a fan partition plate 101 is vertically disposed in the casing 100, one side of the fan partition plate 101 forms a wind box for fixing the fan 30, one end of the wind box communicated to the indoor or outdoor is an air inlet, and the fan 30 draws air into the fan flow channel 32 by rotation of the impeller 31 and flows the air into the air channel from the outlet 32 a.

By the rotation of the impeller 31 in the blower 30, indoor or outdoor air can be rapidly drawn into the casing 100, thereby achieving air circulation.

The fan 30 is disposed in the casing 100, and the lower portion of the fan partition 101 is opened to allow the fan flow passage 32 to pass through, and is opposite to the main inlet of the main chamber air duct 50 disposed below, so that the air circulation of each indoor space is similar.

Referring to fig. 3, in an embodiment of the present invention, the ducted air conditioner is disposed indoors, and the fan 30 is disposed indoors, so as to exchange heat with indoor air drawn in for air conversion and conditioning, and the air flowing into the indoor air flows into the ducted air conditioner again, thereby achieving circulation, high efficiency and low energy consumption.

Thus, when the air duct machine operates, the air has the following flowing modes:

(1) the main indoor air flows into the fan 30, then flows into the main chamber air duct 50 from the fan 30, and then flows into the main chamber from the main chamber air duct 50 through the main chamber air outlet 51 a;

(2) the air in the main chamber flows into the fan 30, then flows into the auxiliary chamber air duct 70 from the fan 30, and then flows into the main chamber from the auxiliary chamber air duct 70 through the auxiliary main chamber air outlet 71a, and the main chamber directional air valve 1051 regulates the air flow;

(3) the air in the main chamber flows into the fan 30, then flows into the auxiliary chamber air duct 70 from the fan 30, then flows into the communicating conduit from the auxiliary chamber air duct 70 through the auxiliary chamber air outlet 71b, then flows into the auxiliary chamber from the communicating conduit, and finally the air in the auxiliary chamber can also flow into the main chamber, so that circulation is realized.

The above only is the preferred embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structure changes made by the contents of the specification and the drawings under the inventive concept of the present invention, or the direct/indirect application in other related technical fields are included in the patent protection scope of the present invention.

Claims (10)

1. A multi-space use ducted air conditioner, comprising:

a housing; and

the fan is arranged in the shell and used for sucking outdoor or indoor air into the shell;

at least two air channels are formed in the shell, one end of each air channel is communicated with the air outlet side of the fan, and the other end of each air channel is provided with an indoor air outlet.

2. The multi-space-use duct unit according to claim 1, wherein two ducts are formed in the housing, the two ducts being a main duct and a sub-chamber duct, and the main duct has a cross-sectional area larger than that of the sub-chamber duct.

3. The multi-space-use duct unit according to claim 1, wherein two air ducts are formed in the casing, the two air ducts are a main chamber air duct and an auxiliary chamber air duct, the main chamber air duct has a main chamber air outlet at an end thereof away from the fan in the air flow direction, and the auxiliary chamber air duct has an auxiliary chamber air outlet and an auxiliary main chamber air outlet at an end thereof away from the fan in the air flow direction.

4. The multi-space-use duct unit of claim 3, wherein the main chamber outlet is disposed adjacent to the sub-main chamber outlet.

5. The multi-space ducted air conditioner according to claim 4, wherein the casing has an air outlet panel, an air duct partition is protruded from an inner wall surface of the air outlet panel, the main chamber air duct and the sub-chamber air duct are respectively formed at both sides of the air duct partition, and the main chamber air outlet and the sub-main chamber air outlet are respectively formed at both sides of the air outlet panel and are respectively located at both sides of the air duct partition.

6. The multi-space ducted air conditioner of claim 5, wherein the housing further has a sidewall surrounding the outlet panel, and the sub-chamber outlet is provided in the sidewall of the housing.

7. The multi-space wind pipe machine as claimed in claim 3, wherein a main chamber direction wind valve is provided at the auxiliary main chamber wind outlet to open or close the auxiliary main chamber wind outlet.

8. The multi-space ducted air conditioner as claimed in claim 3, wherein an auxiliary room directional damper is provided at the auxiliary room air outlet to open or close the auxiliary room air outlet.

9. A multi-space ducted air conditioner according to any one of claims 1 to 8, wherein a heat exchanger is provided in the duct.

10. The multi-space-use duct machine according to claim 9, wherein the heat exchanger is arranged to extend obliquely in a flow direction of air drawn in by the fan.

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