DE8708201U1 - Air conditioning device - Google Patents

Description

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The invention relates to a method for operating an air-conditioning device with a housing which has a

which has the supply air of a room, and in which a fan, one or more filters and optionally a heating/cooling device are arranged and a ventilation device for carrying out the process.

Ventilation and air conditioning units are known that have a housing with an intake opening, in which an intake grille is usually provided and through which outside air is sucked in by means of a fan, filtered by means of one or more filters and the outside air is treated in terms of its temperature and humidity with the help of heating and cooling devices as well as humidification and dehumidification devices. The treated air is released into the room to be ventilated or air-conditioned via an outlet opening.

When the outside air temperature is around freezing, there is a risk that the devices in front of the heating device, such as the air filter and cooling device, as well as the inside of the housing, will freeze over, that moisture will condense in this area of the housing or that the filter(s) will become wet. In addition, frost damage can occur to the heating device itself and there is a risk that a frost monitor designed to protect the air conditioning device will switch the device off.

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which in turn can lead to a malfunction or failure of devices installed in the room to be ventilated and air-conditioned*

To protect air conditioning equipment from icing

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A smooth-tube heat exchanger should be provided in the device, which is connected to a hot water circuit and ensures that the outside air entering the air-conditioning unit is heated when the outside temperature is low. However, such a smooth-tube heat exchanger causes additional costs for a second water circuit with a corresponding control system, significantly increases the total weight of the air-conditioning unit and also carries the risk of freezing if this is not prevented by using an equally expensive antifreeze.

Another known system for protecting air-conditioning units from icing is to use finned heat exchangers with large fin spacing in the entrance area of the air-conditioning unit, but these have the same disadvantages as the smooth-tube heat exchangers mentioned above and also cause considerable cleaning problems.

The object of the present invention is to provide a method for protecting an air-conditioning device against icing of individual units of the air-conditioning device and against frost damage, which allows for cost-effective production and cost-effective operation

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ensures that the air-conditioning device only increases slightly in weight and enables precise control or regulation of the temperature inside the air-conditioning device. This object is achieved according to the invention by the characterizing feature of claim 1.

The solution according to the invention enables cost-effective and effective protection of an air-conditioning device against icing of the individual units or against frost formation and moisture condensation inside the air-conditioning device, ensures cost-effective operation and enables precise control and regulation of the temperature distribution inside the device with only a slight increase in the weight of the entire air-conditioning device.

A room air-conditioning device for carrying out the method is characterized in that a mixing device is provided which has a first inlet for the outside air connected to the intake opening and a second inlet for the supply of heated air and a main flow outlet, and that a bypass channel branches off from the outlet opening and is connected to the second inlet of the mixing device.

Another air-conditioning device for carrying out the method is characterized in that a mixing device is provided which has a first inlet for the outside air connected to the intake opening, a second inlet which is connected to the outlet of an air injector.

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closed, which has an additional fan, an additional heating device and optionally an additional filter, which sucks in the return air from the room and delivers the heated return air to the second inlet of the mixing device, and has a main flow outlet.

Both designs for protecting an air-conditioning device from icing at low outside air temperatures are characterized by a simple construction with effective control or regulation of the temperature inside the air-conditioning device depending on the outside air temperature.

A mixing chamber for an air-conditioning system is known from DE-PS 32 17 803, but this known mixing chamber serves to utilize the heat of the circulating air in the room to be ventilated or air-conditioned by mixing the outside air with the circulating air in the mixing chamber in proportion to the outside air temperature and supplying it as supply air to the room to be ventilated or air-conditioned. However, this does not allow for precise control or regulation of the temperature inside the air-conditioning system to protect against icing of individual units or moisture condensation on the inside walls of the device, regardless of the required room air temperature and humidity.

The idea underlying the invention will be explained in more detail using an embodiment shown in the drawing. It shows:

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Figure 1 shows a longitudinal section through an air-conditioning unit with a mixing device and a bypass duct;

Figure 2 is a plan view of the air-conditioning unit according to Figure 1;

Figure 3 is a front view of the air-conditioning unit according to Figure 2 from the side of the intake opening;

Figure 4 shows a longitudinal section through an air-conditioning unit with an injector;

Figure 5 is a plan view of the air-conditioning unit according to Figure 4;
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Figure 6 is a front view of the air-conditioning unit according to Figure 2 from the side of the intake opening;

Figure 7 shows a longitudinal section through a mixing device with mixing tubes;

Figure 8 shows a cross section through a mixing device with offset mixing tubes and

Figure 9 shows a cross section through a mixing device with mixing flaps shown in different positions.

The air-conditioning device shown in longitudinal section in Figure 1 has a substantially cuboid-shaped housing 1, which is provided with an intake opening 11 and an outlet opening 12. In the vicinity of the outlet

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A fan 2 is provided at the opening 12, which generates a negative pressure in the housing 11 and an overpressure at the outlet opening 12.

The housing 1 contains a coarse and/or fine filter 3, a cooling device 4 with a condenser and a heating device 5, which is operated via a hydraulic circuit not specified in more detail. The intake opening 11 has an intake grille or an intake hood or a weather protection box 7, with the help of which the penetration of driving rain is prevented or reduced. In addition to the intake opening 11, according to Figure 3, a connection and control device 10 is provided for the electrical termination of the air-conditioning device and for the accommodation of corresponding control and regulation devices.

According to the invention, a bypass duct 8 branches off from the supply air duct connected to the outlet opening 12, through whose air inlet 81 a partial flow Z' of the supply air Z is branched off for the room to be air-conditioned and ventilated. The bypass duct 8 opens into the underside of a mixing device 6, which is arranged immediately behind the intake opening 11 or the intake grille 7. The mixing device 6 is permeable to the outside air flow A running in the main flow direction, and serves to blow the part Z ¹ branched off from the supply air flow Z transversely to the main flow direction into the housing 1 of the air-conditioning device and to mix it with the outside air A.

In the inlet area of the mixing device 6 or at the end of the "bypass channel 8" one or more bypass flaps 64 are provided.

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arranged, the position of which determines the proportion of heated air supplied via the bypass channel 8. With the help of this controlled bypass system, a possibility is created to heat the outside air sucked into the air-conditioning device via the first inlet side 61 of the mixing device 6, if necessary, using the heated air supplied via the second inlet opening 62, so that over the entire cross-section of the interior of the housing 1, such a temperature prevails even in front of the heating device 5 that icing, moisture penetration or rust damage are avoided.

In Figures 2 and 3, the basic structure of the mixing device 6 is illustrated by a top view and a side view, respectively, and shows the mixing tubes 65 running perpendicular to the main flow direction, ie to the outside air flow A, which are connected to the second inlet side 62 and in which the heated air Z ¹ branched off from the supply air Z is guided. This heated air is mixed with the outside air A sucked in perpendicularly over the length of the mixing tubes 65 so that the air mixture has a uniform temperature over the entire cross section.

The air-conditioning device shown in Figures 4 to 6 in side view, top view and front view corresponds essentially to the device according to Figures 1 to 3, whereby the same reference numbers designate the same parts. In contrast to the air-conditioning device according to Figure 1, however, the heating device 5 can be completely omitted in this device if such a

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Heating equipment is not required for the ventilation and/or air conditioning of a room without there being a risk of icing or dampness or frost damage inside the air-conditioning unit.
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For this purpose, a ventilation injector 9 is provided, through whose air inlet opening 95 return air R is sucked in from the room to be ventilated or air-conditioned by means of an additional fan 91 provided in the air injector 9, filtered by means of an additional filter 93 and heated by means of an additional heating device 92 before it is fed to the second inlet 62 of the mixing device 6 via an injection channel 9-Λ.

With the help of this controlled injector system, the outside air that is drawn in can be heated as required, regardless of the supply air temperature emitted by the air-conditioning unit, so that icing or frost formation inside the air-conditioning unit is avoided under all climatic conditions. This device is therefore particularly advantageous in cases where a relatively low supply air temperature is desired, so that at low outside air temperatures the proportion of air mixed in via a bypass duct is too small to prevent the risk of icing.

Figures 7 to 9 show various embodiments of the mixing device 6 and will be explained in more detail below.
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Figure 7 shows a cross section through a mixing device 6 with two rows next to each other and offset behind

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Mixing tubes 65 arranged one above the other, around which the outside air A drawn in from the first inlet side 61 flows. The heated air flowing perpendicular to the plane of the drawing through the mixing tubes 65 is entrained by the outside air A over the entire cross section of the mixing device 6 and exits the mixing tubes 65 via mixing tube outlet openings 66. The mixing tube outlet openings can be evenly distributed around the circumference of the mixing tubes 65 or only arranged on the side facing the outlet 63. Instead of mixing tube outlet openings 66, mixing tubes 65 which are open on one side and are closed in a semicircle towards the first inlet 61 can also be used.

The longitudinal section through the mixing device 6 shown in Figure 8 along the line B-B according to Figure 7 illustrates the arrangement of the mixing tube outlet openings 66, which in the embodiment shown are only provided on the side facing the outlet 63. Advantageously, the mixing tube outlet openings 66 have a different diameter distributed over the length of the mixing tubes 65. different diameters or a different number, so that in the lower end adjacent to the second inlet 62, outlet openings 66 with a small diameter are provided, the diameter of which increases continuously or in jumps up to the closed end of the mixing tubes 65, so that in the lower mixing tube area a smaller proportion of the heated air flows out or is entrained by the outside air sucked in transversely to the flow direction, while in the upper area of the mixing tubes 65 a larger proportion of the heated air is entrained.

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This ensures that sufficient warm air is also supplied to the upper area at risk and is mixed with the cold outside air that is sucked in.

The same effect can be achieved with a different number of mixing tube outlet openings 66, whereby with the same diameter of the outlet openings 66, the number of outlet openings increases towards the upper closed end of the mixing tubes 65. The size of the outlet openings and/or the number of outlet openings can increase continuously or in stages from the lower end of the mixing tubes 65 adjacent to the second inlet 62 to the upper closed end of the mixing tubes 65.

Figures 9A to 9G show a schematic cross section through a mixing device 6 with a so-called mixing flap system, which has mixing flaps 67 hinged in pairs at articulation points 68, which are bent in a part-circle or parabolic shape, so that in the position shown in Figure 9A they close the first inlet 5.1 of the mixing device 6 and thus prevent the entry of outside air, while in the position shown in Figure 9B they prevent the supply of heated air supplied via the second inlet 62.

In the position shown in Figure 9C, a certain proportion of heated air is mixed with the outside air A drawn in transversely to the flow direction of the heated air, whereby the mixed proportion corresponds to the respective outside air temperatures and is set by the flap control so that inside the housing 1 of the room

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Technical equipment ensures that there _is a sufficient temperature at which icing or frost formation or moisture in individual units is reliably prevented.

In addition to the mixing devices shown in Figures 7 to 9, other devices serving the same purpose can of course also be used.

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Claims (10)

&bull; ■ · new claims Page 1 G 87 08 201.2 1 October 1987 HS37.Gl 1" Air-conditioning device with a housing which has an intake opening for outside air and an outlet opening for the supply air of a room, and in which a fan, one or more filters, a heating device and optionally a cooling device are present, characterized in that a mixing device (6) is provided which has a first inlet (61) for the outside air connected to the intake opening (11) and a second inlet (62) for the supply of heated air and a main flow outlet, and that a bypass channel (8) branches off from the outlet opening (12) and is connected to the second inlet (62) of the mixing device (6). 15 2. Air conditioning device for a room with a housing that has an intake opening for outside air and an outlet opening for the supply air of a room, and in which a fan and one or more filters are arranged, characterized in that a mixing device (6) is provided that has a first inlet (61) for the outside air connected to the intake opening (11), a second inlet (62) that is connected to the outlet of an air injector (9) that has an additional fan (91), an additional heating device (92) and optionally an additional filter (93), which sucks in the return air from the room and delivers the heated return air to the second inlet (62) of the mixing device (6), and a main flow outlet. 30 3. Air conditioning device according to claim 1 or 2, characterized in that the /2 II II * * * » i * &igr;" ¹ . ',' i &iacgr;:"&iacgr;.·' i ie« «Pt*· * · &igr; f · m ■ si r · «■ « r r a r · a · » new claims Page 2 G 87 08 201.2 1 October 1987 HS37.G1 second inlet (62) has an adjustable bypass flap (64). 4. Air-conditioning device according to claim 1, characterized in that the air inlet (81) of the bypass channel (8) has an adjustable bypass flap. 5. Air-conditioning device according to one of the preceding claims, characterized in that the mixing device (6) has a plurality of mixing tubes (65) arranged next to one another in the main flow direction and provided with one or more mixing tube outlet openings (66), which are connected to the second inlet (62) of the mixing device (6) and pass through the outside air flow. 6. Air-conditioning device according to claim 5, characterized in that the mixing tube outlet openings (66) are provided on the side facing the main flow outlet (63). 7. Air-conditioning device according to claim 5, characterized in that the mixing tube outlet openings (66) are arranged evenly distributed around the circumference of the mixing tubes (65). if IfIi Il ff ff I I > ) f t f I I f I ti i &igr; ■ It ft I 1 > · · > i If new claims Page 3 <1» 8? 08 201*2 I.- October 1987 8* Air conditioning device according to claim 6 or 7, characterized in that the mixing tubes (65) are closed at their ends facing the second inlet (62) and that the number and/or size of the mixing tube outlet openings (66) decreases from the end of the mixing tubes (65) connected to the second inlet (62) towards the closed end* 9. Air-conditioning device according to one of claims 1 to 4, characterized in that the mixing device (6) has several bent mixing flaps (67) arranged next to one another in the main flow direction, which are connected to one another in pairs and are pressed against the side associated with the intake opening (11), and that the mixing flaps (67) are adjustable continuously or in steps. 10. Air-conditioning device according to claim 5 or 9, characterized in that the mixing tubes (65) or curved mixing flaps (67) are arranged next to one another and offset from one another in the main flow direction.