DE19718487A1 - Room air cooler with at least one heat exchanger - Google Patents

Abstract

The at least one heat exchanger is fed with cold medium and at least one blower connected ahead of the heat exchanger supports the flow of air through the heat exchanger. The blower without the intermediary of a transition housing is so connected to the heat exchanger (2) that a forced feed of the room air to be cooled through the heat exchanger occurs in the direction of the largest possible through passage resistance. The heat exchanger is of the lamella type and has an approximately rectangular flat basic shape. The blower outlet is connected to one of the narrow sides (7) of the heat exchanger. As outlet surface for the cooled air one of the wide sides of the heat exchanger is provided, so that a deflection of the cooling air current occurs inside the heat exchanger.

Description

The invention relates to an air cooler with at least a heat exchanger to which a cooling medium can be applied and with at least one the air flow through the heat exchanger supporting blower that precedes the heat exchanger is switched.

Room air coolers of this type come in a wide variety of designs known. With these, on the one hand, heat and material loads safe and draft-free from the lounge area of a room be dissipated, on the other hand it must be ensured that also with high cooling capacity, uniform temperatures throughout Lounge area can be achieved. One should be as possible slow, low-turbulence and low-impulse cold air flow are generated, creating a high thermal comfort and a sufficient comfort is guaranteed.

Known room air coolers with fans often work with lei loss of power due to the spatial allocation of the blower to which the heat exchanger can be traced. Depending on the type of known devices, the blower is either an open Connection or a closed connection to the heat rope shear connected or assigned to this. As connections various transition and connection housings come into consideration usually generate inflow and outflow losses.

Blowers naturally create an air flow with an over weighty proportion of dynamic pressure. But a good one  Heat transfer to the heat exchange surfaces of the heat exchanger achieve, the air flow to be cooled must be correspondingly slow passed through the heat exchanger, d. that is, means must be provided to be generated by the blower Pressure resulting from a relatively high proportion of dyna mix pressure and a comparatively small proportion sta table pressure, in favor of a high proportion convert static pressure.

In addition, the air stream emerging from the fan must be so be evened out that the entire available Surface of the heat exchanger is evenly applied.

Usually between the heat exchanger and the Blower transition housing provided, which in the manner of a diffuser act or a deflection of the air flow to be cooled cause. These transition housings can be fitted with internals be, for example with baffle devices, around the flow to slow down and even out. Such means are at the expense of the size of the known room air cooler. This also results in an increased energy requirement. A large part of the energy released by the blower in this way is already in front of the heat exchanger consumed by implementation and flow losses.

To the implementation and occurring in the known devices To compensate for flow losses, the blowers for one be designed accordingly high performance, which in turn noticeable by a high noise emission, the reason is also undesirable.

To create a low-turbulence and slow air flow steps through the heat exchanger are, for example, so-called Source air induction air conditioners known. These devices offer the advantage that the air to be cooled is slow speed is passed through the heat exchanger and that it is due of the induced secondary air flow a relatively ge wrestle have energy needs. The generated by these devices  Cold air flow is by no means low in turbulence, moreover these induction air conditioners have a considerable size and do not work quietly.

The object of the invention is therefore to provide an air cooler improve the type mentioned in such a way that this at compact size and simple construction as well as nevertheless a low-turbulence source ventilation with low inflow and Allows shock losses.

The object is achieved in that the Blower without the intermediary of a transition housing or which is connected to the heat exchanger in the same way, that a forced guidance of the room air to be cooled by the Heat exchanger in the direction of the greatest possible resistance status of the heat exchanger.

The measure according to the invention turns the fan ver emerging air flow in the heat exchanger itself smooth and slowed down so that a quasi laminar as well low-pulsation and low-turbulence ventilation is generated without for this special transition or guide housing between the Blower and the heat exchanger would be required. Both Known room air coolers have so far also been used for energy Always base the air to be cooled in the direction of the least Contact resistance through the heat exchanger. It However, it has surprisingly been found that a particular good cooling efficiency is achieved when the too cooling airflow in the direction of the largest possible passage resistance of the heat exchanger is performed. Through a sol air duct can be a particularly compact and space-saving and simple construction of the cooler to get voted. Power losses due to flow ver Losses in front of the heat exchanger are reliably avoided.

Under transition housing or guide housing in the sense of the Er Invention such should lead to the air to be cooled be understood, which is a slowdown in flow and thus one  Implementation of dynamic pressure by changing the cross-section or deflect the flow.

In a particularly preferred embodiment of the invention it is provided that the heat exchanger as a finned heat exchanger or is designed as a finned heat exchanger, the one in has approximately cuboid flat basic shape, and that the Fan outlet on one of the narrow sides of the heat exchanger connected. Such a design of the heat exchanger enables the blower without the interposition of an over connection housing directly to the heat exchanger.

The room air cooler according to the invention can be in this way and way as a flat convector with the smallest dimensions the. Such a flat convector is particularly suitable for Use in new and old building renovation where the room often the installation of large-scale climates were not allowed. The room air cooler of the invention can be found in any installation position, because it is due blower does not require self-convection of the air. Of the Room air coolers can, for example, under a raised floor plate or on an outer wall below the parapet arrangement be attached. Furthermore, the invention Flat convector also in a suspended partition or can also be arranged hanging on a partition. It is for those skilled in the art can see that the greatest cooler efficiency of course in the area of a ceiling-side warm air upholstery is achieved if a slightly worse ter efficiency, but would be special because of space-saving construction the arrangement under a double bottom plate with grate cover advantageous.

According to a preferred embodiment of the invention is before seen that the blower directly to the heat exchanger is connected d. that is, the fan outlet directly to the to be acted upon heat exchanger surface opens, so that shock and Flow losses are avoided as far as possible and the cooling air flow in the direction of the longitudinal extension of the lamella  len of the heat exchanger enters this.

Preferably, the outlet surface for the cooled air one of the broad sides of the heat exchanger is provided so that a redirection of the cooling air flow within the heat exchanger he follows. The cooled air is roughly transverse to hers Direction of injection from the heat exchanger.

An essential aspect of the invention is i.a. in it too see that the flow area of the heat exchanger by a lot is smaller than its inflow area, making an on flow of the heat exchanger with the lowest possible inflow losses with good heat transfer in the heat exchanger is guaranteed.

Due to the compact and low-loss design of the cooler the invention can also be a fan with extraordinary low power can be used.

The blower is expediently designed as a cross-flow blower or Tangential fan designed. Such fans stand out through an extremely quiet run and are also particularly compact due to its rotor construction.

So that between the one directly on the narrow side of the heat connected fan and the heat exchanger tread surface no short circuit flow can occur Exit surface of the heat exchanger preferably in their un area directly adjacent to the connection of the blower closed by means of at least one cover element. As Cover elements come in, for example, simple sheet metal strips Question that about a fifth or less of the heat exchanger cover the tread.

Covering the heat exchanger in this area causes in addition, a parallel guide to enter the heat exchanger the air before it is redirected in the heat exchanger. Through the  Extension of the warm air back in the heat exchanger cooling section by means of the cover elements is guaranteed ensures that the air flow to be cooled is long enough the heat exchanger lingers and not prematurely uncooled exits the heat exchanger.

It can also be provided that the heat exchanger also on its side facing away from the exit surface in its area immediately adjacent to the connection of the blower is covered, so that an almost within the heat exchanger closed cooling channel is formed, which is a pre-alignment of the cooling air flow.

It is expedient to cool the room air at least in the installed position lers on the side of the heat facing away from the outlet surface Exchanger provided a distribution chamber with a part current of the fan air is applied. This is particularly so then useful if by the arrangement of the cross-flow blown, especially by its drive motor and whose dimensions are those to be blown with air Narrow side of the heat exchanger is not completely on the Ge blower outlet is connected. On the edges of the blower outlet and in the area of the arrangement of the drive motor dead zones are then created for the blower that do not match Ge blowing air is applied. To avoid these dead zones serves the distributor housing, which evenly guaranteed the entire cooler surface. The blower For example, the heat can be slightly offset exchanger connected that part of the outlet opens directly into the distribution chamber, so that a partial flow of Fan air is branched off.

The distribution chamber can, for example, as a gap between an enclosure and the heat exchanger formed be. The gap depth or gap width can either through the installation position of the heat exchanger or, for example be predetermined by the training of its border.  

It will be apparent to those skilled in the art that the flat convector According to the invention can also be designed as a heating convector can.

The invention is described below with reference to one of the drawings illustrated embodiment are explained.

Show it:

Fig. 1 is a schematic diagram of the air cooler according to the invention it in side view,

Fig. 2 is a schematic diagram of the room air cooler according to the invention in plan view and

Fig. 3 is a schematic representation of various installation locations of the room air cooler.

As can be seen in particular from FIGS. 1 and 2, the room air cooler according to the invention essentially consists of a heat exchanger 2 arranged in a steel sheet enclosure 1 with a crossflow fan 3 connected to it . The heat exchanger 2 is designed as a flat, cuboid-shaped finned heat exchanger or finned heat exchanger. The cross-flow fan 3 is formed by two face ends of the heat exchanger 2 aligned to each other arranged tangential rotors 4 , between which a common electric motor 5 is arranged. The tangential rotors 4 are each arranged in a partially enclosing rotor housing 6 such that the fan outlet is directed directly to the narrow side designated 7 of the heat exchanger 2 ge.

The reference numeral 8 denotes the heat exchanger tubes impinged on with a cooling medium, and the reference numeral 9 denotes the fins or sheets arranged between the heat exchanger tubes 8 .

The cross-flow fan 3 , consisting of the arranged in the rotor housings 6 tangential rotors 4 and the associated elec tromotor 5 is placed directly on the narrow side 7 of the heat exchanger 2 . The flow profile of the air guided by the cross-flow fan 3 through the heat exchanger 2 is illustrated by the arrows shown in FIG. 1. The warm air enters through the openings 10 a, 10 b of the order closure housing 1 , the cold air outlet takes place after horizontal flow through the heat exchanger 2 , based on the position shown in FIG. 1, through a perforated sheet metal cover 11 of the enclosure housing 1 .

Depending on which warm air supply is desired, the openings 10 a or 10 b can optionally be provided on the top, on the bottom or on the front of the room air cooler. The blower 3 can also be arranged on the suction side on the underside of the room air cooler.

As can easily be seen from the top view in FIG. 2, the length of the cross-flow fan 3 does not quite correspond to the length of the heat exchanger 2 . In addition, between the two tangential rotors 4 , of which only one is shown for the sake of simplicity, the electric motor 5 is arranged, in the region of which there is also no direct flow to the heat exchanger 2 . In order to avoid dead zones thus formed in the heat exchanger 2 , this is arranged in the order closure housing 1 , a gap 12 is formed between the order closure housing 1 and the heat exchanger 2 on the side of the perforated plate cover 11 facing away from the heat exchanger 2 , the one Continuous distribution chamber forms over the entire length of the narrow side 7 . The gap 12 forming the distribution chamber is partially acted upon by the blower outlet flow and enables the flow of air passing through the heat exchanger 2 to be smoothed out such that dead zones in the heat exchanger 2 are avoided.

In the illustrated embodiment, a wedge-like insert 13 is provided as a support for the heat exchanger 2 in the enclosure 1 , which at the same time causes a narrowing of the gap 12 downstream of the heat exchanger 2 by urgent air flow. This results in a particularly favorable flow distribution from the heat exchanger 2 , in particular, this favors the deflection of the air flow in the heat exchanger and its exit approximately transversely to the direction of injection.

-Flow fan 3 in order to avoid a short-circuit flow between the transverse and exiting the heat exchanger 2, cooled air is the heat exchanger exit surface 15 in the closed immediately adjacent to the cross-flow fan 3 range with a cover plate fourteenth

As can easily be seen from the figures, the arrangement of the cross-flow fan 3 is chosen so that the air to be cooled must cover the maximum distance through the heat exchanger 2 . The air blown in on the narrow side 7 of the heat exchanger enters laminarly and with low turbulence through the heat exchanger exit surface 15 into the space to be cooled, transversely to its direction of injection.

Cross in the sense of the invention does not mean strictly geometrically vertical, rather the direction of the emerging cold air flow also depends on the installation position of the device. For example, when the device is installed approximately horizontally, the cold air emerges from the fan 3 at an angle of more than 90 degrees with respect to the horizontal from the heat exchanger 2 and the flow is directed in the area of the heat exchanger outlet surface 5 remote from the fan up to an angle of 90 degrees, so that an almost fan-shaped air outlet is generated.

Fig. 3 illustrates various installation positions for the room air cooler according to the invention.

With 16 , the installation position of the room air cooler under a window parapet is designated. The reference number 17 identifies the installation of the room air cooler under a raised floor panel, the air outlet being covered with a dirt grate.

As can also be seen from FIG. 3, the room air can be arranged cooler on a cabinet or hanging on a wall or in a false ceiling.

Reference list

1

Sheet steel enclosure

2nd

Heat exchanger

3rd

Cross flow fan

4th

Tangential rotors

5

Electric motor

6

Rotor housing

7

Narrow side of the heat exchanger

8th

Heat exchanger tubes

9

Slats

10th

a,

10th

b Openings in the enclosure

11

Perforated plate cover of the enclosure

12th

gap

13

wedge-like insert

14

Cover plate

15

Heat exchanger outlet area

16

Installation position under a window parapet

17th

Installation in a raised floor

Claims (8)

1.Air air cooler with at least one heat exchanger to which a cooling medium can be applied and with at least one fan which supports the air flow through the heat exchanger and which is connected upstream of the heat exchanger, characterized in that the fan is connected to the heat exchanger ( 2 ) without the interposition of a transition housing, that a Zwangsfüh tion of the room air to be cooled by the heat exchanger ( 2 ) in the direction of the greatest possible resistance to penetration of the heat exchanger ( 2 ). 2. Air cooler according to claim 1, characterized in that the heat exchanger ( 2 ) is designed as a finned heat exchanger which has an approximately cuboid flat basic shape, and that the Ge fan outlet to one of the narrow sides ( 7 ) of the Wärmetau shear ( 2 ) connected is. 3. Room air cooler according to one of claims 1 or 2, characterized in that the fan is connected directly to the heat exchanger ( 2 ). 4. Room air cooler according to one of claims 1 to 3, characterized in that one of the broad sides of the heat exchanger is provided as the exit surface ( 15 ) for the cooled air, so that a deflection of the cooling air flow takes place within the heat exchanger. 5. Room air cooler according to one of claims 1 to 4, characterized in that the fan is designed as a cross-flow fan ( 3 ). 6. Room air cooler according to one of claims 1 to 5, characterized in that the exit surface ( 15 ) of the heat exchanger ( 2 ) in its un directly adjacent to the connection of the blower Be rich is closed by at least one cover element. 7. Air cooler according to one of claims 1 to 6, characterized in that at least in its installed position on the outlet surface ( 15 ) facing away from the heat exchanger ( 2 ) a distributor chamber is formed, which is acted upon with a partial flow of the blower air. 8. Room air cooler according to one of claims 1 to 7, characterized in that the United dividing chamber is designed as a gap between a housing ( 1 ) and the heat exchanger ( 2 ).