DE202019106088U1 - Air Water heatpump - Google Patents

Abstract

Air-water heat pump for the air conditioning and heating of rooms, halls and buildings, having at least one fan (2) with an axis of rotation and a heat exchanger (3) in the form of an evaporator or a condenser with a cooling or heating surface, characterized in that, that the at least one fan (2) is arranged with its axis of rotation parallel to a longitudinal axis (A) of the heat exchanger (3) and at least partially enclosed by the heat exchanger (3) such that the air conveyed by the fan (2) is perpendicular to the The axis of rotation of the fan flows in the direction of the cooling or heating surface of the heat exchanger (3).

Description

The invention relates to an air-water heat pump and is used in particular for air conditioning and heating of rooms.

Axial fans are primarily used as air-water heat pumps, the axis of rotation of which is arranged perpendicular to a straight heat exchanger in the form of an evaporator or condenser. The electric motor of the fan is either located directly on the rotor or between the cooling and heating surface and the rotor. Depending on the design, the fans push the air into the heat pump or pull it out. Sometimes the air is pushed into a pressure chamber with a round heat exchanger with the help of an axial fan. There is usually a sheet metal opposite the fan, which leads to a back pressure. A pressure is thus built up, which can then escape through a round evaporator or condenser.

Radial fans are used in other configurations of the air-water heat pumps. However, these are strongly conical and, equivalent to an axial fan, have an axis of rotation perpendicular to the evaporator / condenser. The mostly used axial fans are suitable for pumping large air masses at a very high speed. However, these are very loud, especially at high speeds, and can therefore generate undesirable noises.

In order to reduce the volume, a very complex isolation is sometimes necessary. A high conveyed volume is not only decisive for a good flow through the cooling and heating fins. In addition to the volume, a high pressure is also required, by means of which the large air masses are guided through the ribs. Due to their spatial structure, centrifugal fans are more suitable for generating high pressure. These are currently used in the same way as axial fans. This means that a large free space between the fan and evaporator or condenser is necessary here too in order to generate a reasonably homogeneous air flow over a larger area. If the evaporator or the condenser is viewed with the aid of a thermal imaging camera, temperature differences are noticeable.

These arise due to uneven ventilation and indicate a cooling or heating surface that is not being used optimally. In order to achieve a more even distribution of the air flow on the heat exchanger, an even greater distance would usually have to be selected between the fan and the evaporator or condenser. This distance is decisive for the overall size of the heat pump. In addition, the straight air-water heat exchangers have to be designed to be large due to their geometrically small area, which also has a negative effect on the overall size of the heat pump. Air-water heat pumps are therefore often very large and only have a small usable cooling or heating surface. In addition, most heat pumps have a high volume.

From the pamphlet DE 44 09 127 A1 a ring heat exchanger, in particular for a motor vehicle air conditioning system, is known. The ring heat exchanger has tubes which are arranged in a ring around a fan and are provided with ribs divided into individual segments. An annular water tank is assigned to each of the end regions of the pipes. According to the publication, the generation of noise from the air flowing through is reduced in that the tubes are designed with a non-circular cross-section. Furthermore, the arrangement and / or the alignment of the tubes is adapted to the flow profile of the air flowing out of the fan in such a way that the flow resistance is minimized.

The pamphlet DE 20 2010 001 244 U1 discloses an air-to-water heat pump for outdoor installation with a refrigerant circuit which has an evaporator through which outside air can flow, with a fan for conveying outside air, which is at least partially surrounded by a fan duct. An air duct is provided between the evaporator and the fan duct which merges from the contour of the evaporator into the shape of the fan duct, so that a largely closed air duct is formed from the evaporator to the fan. The disadvantage is the relatively small heating and cooling surface in relation to the dimensions of the air-water heat pump.

Another air-water heat pump for indoor and outdoor installation is from the publication DE 33 03 125 A1 known. The air-water heat pump has an upper and a lower assembly space, the compressor, the condenser and a switch box being arranged in the lower assembly space. The evaporator, the fan and an air supply are arranged in the upper assembly space. A blow-out opening and a suction opening are formed on the upper assembly space. The fan is designed in the form of a cross-flow fan.
In this embodiment, too, the cooling surface and output are small in relation to the dimensions of the air-water heat pump.

The pamphlet EP 2 226 587 A2 describes an air-to-water heat pump with a round one arranged in a housing Heat exchanger. This air-water heat pump also requires a large amount of space.

The object of the invention is to develop an air-to-water heat pump which has a simple structural design and a small installation space or an increased cooling or heating capacity with a reduced installation space.

This problem is solved with the characterizing features of the first claim for protection.

Advantageous refinements result from the subclaims.

The invention relates to the ventilation technology of an air-water heat pump. The air-water heat pump according to the invention is used for air conditioning and heating of rooms, halls, buildings and pools, the air-water heat pump having at least one fan with an axis of rotation and a heat exchanger in the form of an evaporator or a condenser with a cooling - or has heating surface. The axis of rotation of the fan is arranged parallel to a longitudinal axis of the heat exchanger and is at least partially enclosed by the heat exchanger such that the air conveyed by the fan flows perpendicular to the axis of rotation of the fan in the direction of the cooling or heating surface of the heat exchanger. In an advantageous embodiment, the flowing air hits the cooling or heating surface of the heat exchanger almost perpendicularly.

The fan is preferably designed in the form of a radial-tangential or cross-flow fan.

In an advantageous embodiment, the fan is completely enclosed by the heat exchanger. With such a construction, a larger area of a heat exchanger can be used. In addition to the larger area, a more even flow is achieved due to the special construction. This means that significantly smaller and more powerful heat pumps can be built. Alternatively, more power can be achieved with the same size. The heat exchanger can consist of an assembly or several components connected in series to form an assembly or heat exchangers connected in parallel.

The air-water heat pump has a longitudinal axis that corresponds to the axis of rotation of the fan, the flowing air being coaxial with the longitudinal axis from a first end face at a first end of the heat exchanger and from a second end face at a second end of the heat exchanger into the heat exchanger is fundable. With this configuration, air can be conveyed from two sides in the direction of the heat exchanger by means of the fan.

The heat exchanger is advantageously circular, but can also have a polygonal or elliptical shape. The fan is arranged in the heat exchanger in such a way that an intermediate space is formed between the heat exchanger and the internal fan.

The fan can be designed in several parts, the fan being designed with a first fan wheel and a second fan wheel. In such an embodiment, the first fan wheel is arranged coaxially to the second fan wheel. The speed of rotation of the fan wheels can preferably be individually controlled and regulated. The ventilation wheels of the fan can be designed to be smaller, equal to or larger than the heat exchanger.

According to a preferred embodiment, the at least one fan consists of individual blades or fan wheel stacks. The blades of the fan preferably have geometries for building up a directed or opposing air flow. In this way, the air flow can be controlled and optimally used depending on the geometry.

One advantage of the design of the fan used is that the air-water heat pump has a significantly lower volume due to the three-dimensionally arranged rotor blades. The volume could be further reduced by using a lower speed due to the larger cooling or heating surface.

The air-water heat pump has a first and second wind bar and a first and second housing part at the first and second end, the space between the fan and the heat exchanger being sealable by means of the wind bars and housing parts in such a way that pressure built up by the fan cannot escape.

In addition to the sealing properties, the wind strips preferably also have sound and / or heat insulating properties.

In an advantageous embodiment, the air-water heat pump has further components in the form of a compressor or expansion valve within the heat exchanger, in a common housing or in the outer housing. However, the components can also be arranged externally.

An elongated fan, in particular in the form of a radial-tangential or cross-flow fan, whose axis of rotation is parallel to a round heat exchanger in the form of an evaporator or condenser or carburetor, does not require a large spacing between the components and brings with it a significant saving in space. It is also possible to draw in air from two sides in order to significantly increase the volume flow. It is possible to obtain a cooling or heating surface that is three times as large in the same installation space as the air-water heat pump. This means that smaller and quieter heat pumps can be developed for pool and building technology.

The air-water heat pump according to the invention can be designed in the form of a column and thereby be integrated into the building architecture, for example around a balcony support.

The invention is explained in more detail below using an exemplary embodiment and associated drawings, without being restricted to these.

• 1 eine schematische Luft-Wasser-Wärmepumpe in einer Schnittdarstellung,
• 2 eine Ansicht des Wärmetauschers mit dem im Inneren liegenden Lüfter.

Show it:

• 1 a schematic air-water heat pump in a sectional view,
• 2 a view of the heat exchanger with the fan located inside.

The 1 shows an air-water heat pump with a sectional view in the front area of the heat pump. The air-to-water heat pump 1 has a fan 2 in the form of a radial-tangential or cross-flow fan, which is operated by a heat exchanger 3 is enclosed in the form of a condenser or evaporator. The fan 2 is with an electric motor 4th connected or has this integrated. The fan 2 has an axis of rotation which is arranged parallel and preferably coaxially to a longitudinal axis A of the heat exchanger, the fan 2 is at least partially enclosed in such a way that the fan 2 conveyed air in the direction of flow almost perpendicular to a cooling or heating surface of the heat exchanger 3 meets. The air is from a first end face S1 at a first end of the air-water heat pump 1 and from a second end face S2 at a second end of the air-water heat pump 1 fundable.

Between the heat exchanger 3 and the internal fan 2 becomes a gap with such a configuration 5 educated. The gap 5 between the fan 2 and the heat exchanger 3 in the form of the condenser or evaporator is made up of two wind strips 6th , 7th and two housing parts 8th , 9 sealed. Thus, the pressure built up in the space 5 not escape. The flow of air is indicated by arrows in the 1 shown. The air gets through the fan 2 promoted and flows in the direction of flow at least almost perpendicular to a cooling or heating surface of the heat exchanger 3 .

The heat exchanger 3 has openings 10 for the fluid channels with the refrigerant therein. The associated inlets 11 are in 2 shown. According to 2 is the fan 2 completely from the heat exchanger 3 enclosed.

The new air-to-water heat pump with the associated components is characterized by a lower volume as well as a more compact design and higher performance. It is possible to draw in air from two sides in order to significantly increase the volume flow. This means that smaller and quieter heat pumps can be provided for pool and building technology.

List of reference symbols

1

Air Water heatpump

2

Fan

3

Heat exchanger / condenser / evaporator

4th

Electric motor

5

Space

6th

First wind bar

7th

Second wind bar

8th

First housing part

9

Second housing part

10

openings

11

Intake

QUOTES INCLUDED IN THE DESCRIPTION

This list of the documents listed by the applicant was generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Patent literature cited

• DE 4409127 A1 [0006]
• DE 202010001244 U1 [0007]
• DE 3303125 A1 [0008]
• EP 2226587 A2 [0009]

Claims (11)

Air-water heat pump for the air conditioning and heating of rooms, halls and buildings, having at least one fan (2) with an axis of rotation and a heat exchanger (3) in the form of an evaporator or a condenser with a cooling or heating surface, characterized in that, that the at least one fan (2) is arranged with its axis of rotation parallel to a longitudinal axis (A) of the heat exchanger (3) and at least partially enclosed by the heat exchanger (3) such that the air conveyed by the fan (2) is perpendicular to the The axis of rotation of the fan flows in the direction of the cooling or heating surface of the heat exchanger (3). Air-to-water heat pump Claim 1 , characterized in that the fan (2) is designed in the form of a radial-tangential or cross-flow fan. Air-to-water heat pump Claim 1 or 2 , characterized in that the heat exchanger (3) completely encloses the fan (2). Air-to-water heat pump according to one of the Claims 1 to 3 , characterized in that the heat exchanger (3) consists of an assembly or several components connected in series to form an assembly or heat exchangers connected in parallel. Air-to-water heat pump according to one of the Claims 1 to 4th , characterized in that the air-water heat pump (1) has a longitudinal axis (A) which corresponds to the axis of rotation of the fan (2) and that air from a first end face at a first end of the heat exchanger (3) and / or the Air-water heat pump (1) and from a second end face at a second end of the heat exchanger (3) and / or the air-water heat pump (1) can be conveyed. Air-to-water heat pump according to one of the Claims 1 to 5 , characterized in that the heat exchanger (3) has a circular, angular or elliptical shape. Air-to-water heat pump according to one of the Claims 1 to 6th , characterized in that the fan (2) is formed from a first fan wheel and a second fan wheel and that the rotational speeds of the fan wheels can be controlled and regulated individually. Air-to-water heat pump according to one of the Claims 1 to 7th , characterized in that the fan (2) consists of individual blades or fan wheel packages and that the blades of the fan (2) have geometries for building up a directed or opposing air flow. Air-to-water heat pump according to one of the Claims 1 to 8th , characterized in that the air-water heat pump (1) has a first wind bar (6) and a first housing part (8) at the first end and a second wind bar (7) and a second housing part (9) at the second end , the air-water heat pump (1) being sealable by means of the wind strips (6, 7) and housing parts (8, 9) in such a way that the pressure built up by the fan (2) cannot escape. Air-to-water heat pump according to one of the Claims 1 to 9 , characterized in that the wind strips (6, 7) are designed to be sound and / or heat insulating. Air-to-water heat pump according to one of the Claims 1 to 10 , characterized in that the air-water heat pump (1) has components in the form of a compressor or expansion valve within the heat exchanger, in a common housing or in an outer housing.

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