DE102007027517A1 - Heating and/or cooling device has heat transfer elements on fixing arrangement with roll-up sleeve for fixing plastic capillary tube matting and side plates with bores for positioning feeds and outlets for heat transfer medium - Google Patents

Abstract

The device has heat transfer elements arranged in a housing and formed as spiral rolled up plastic capillary tube matting (1), at least one fan (13) and air inlets and outlets. The heat transfer elements are arranged on a fixing arrangement with a roll-up sleeve for fixing the plastic capillary tube matting and side plates (3,4) provided with bores for positioning feeds and outlets for a heat transfer medium.

Description

The The invention relates to a heating and / or cooling device with heat transfer elements arranged in a housing spiral-wound plastic capillary tube mats, at least one fan and air inlet and outlet openings.

With the heat transfer element of plastic capillary tube mats Depending on the cold or hot water supply in the capillary tube mats an airflow directed through the heat transfer element cooled or heated.

Heat transfer elements for transmitting heat of a medium to the Surrounding air is usually made of metal, being predominantly Aluminum and copper because of their high thermal conductivity be used.

Especially for the use of these materials in applications with polluted air or liquids with aggressive Ingredients, such as in kitchens, swimming pools or Animal stalls are present, incrustation and corrosion inevitable. The effort to eliminate this harmful Influences is significant. Even when using natural Resources, such as wells, rivers, lakes or seawater, are the use of these materials for the reasons mentioned above set technical limits. The rising material price and the high effort to process the metal versions leads in addition to high costs of such arrangements.

In order to avoid the disadvantages resulting from the use of metals, heat transfer elements have been developed which consist of spirally arranged plastic capillary tube mats with a radial air passage. Such an arrangement is in DE 103 13 384 A1 described.

equipment This type consists of a housing in which a rolled Plastic capillary mat by a device from a perpendicular to arranged the rolled capillaries, the plastic capillary tube mats enveloping grid sleeve and two, parallel to arranged the rolled up capillaries, the grid sleeve final, side elements is fixed, with a Side element impermeable to air, the other accordingly designed for a defined air supply is.

In order to regulate and increase the performance of the heat exchangers, the use of a regulated air volume flow is required, above all in industrial or comfort devices. The constructive, functional and user-related requirements for such devices can be met with the in DE 103 13 384 A1 described solution can be met only partially.

The described there, radially flowed through the heat exchanger Rolled up plastic capillary tube mats may be due to Their bending radius with a core diameter of approx. 80 mm is very compact getting produced. Is the core diameter of the pressure chamber for However, the air volume flow is less than 125 mm, the pressure loss of the Fans are so strong that an economical use is not more is given. Another disadvantage of this solution results from the fact that the outer sleeve for fixing the capillary tube mats a certain stability requires, reducing the air permeability of the sleeve is limited. Furthermore, the compulsory winding allows the Capillary tube mat before insertion into the sleeve no ordered, repeatable alignment of the capillaries, what for effective heat exchange at the surface of the Capillaries would be required. For cleaning the capillary tube mat this must be removed from the envelope. One fast detachable connection of the heat exchanger from the Device for the purpose of cleaning or replacement not possible with the arrangement described there.

Of the Invention is based on the object, a heating and / or cooling device specify the type described above, which improved airflow both in horizontal and vertical arrangement of the plastic capillary tube mats and allows different flow directions.

According to the invention the task with a device which the in claim 1 contains specified characteristics, solved.

advantageous Embodiments are specified in the subclaims.

object the registration are also feature combinations in which in the Claims specified individual features combined with each other arbitrarily become.

The device has one or more heat transfer elements made of spirally wound plastic capillary tube mats and a fixing device consisting of a roll-up sleeve for fixing the mat from the inside out and side plates with holes for positioning the Wasserzu- and -abläufe the plastic capillary tube mats. Thus, the plastic capillary tube mat is brought when rolling on the Aufrollhülse in a well-defined, reproducible, adapted to the dimensions of the housing of the device position with an orderly orientation of the capillaries, which optimal flow conditions, ie higher air duct with reduced Druckver for the air to be heated / cooled (or another medium).

there are at least one heat transfer element, at least one fan and air inlet and outlet ducts in a housing so arranged that the air on the way from the inlet to the outlet channel mandatory the plastic capillary tube mats must flow through.

In Dependence on the geometry chosen both a radial and a transverse flow of the Plastic capillary tube mats allows.

Further is it possible for a multiple winding to be made in parallel wound capillary tube mats is used.

A advantageous embodiment provides that in the fixing device arranged Aufrollhülse designed as a grid sleeve and their length is the width of the plastic capillary tube mats, given by the length of Kapillarabstandshalter corresponds and that air inlet and outlet are arranged so that the rolled Flowed through plastic capillary tube mats radially.

there The air intake can be done via an open Side plate in the enclosed by the plastic capillary tube mats cylindrical interior of the grid sleeve done while the Air outlet positioned outside plastic capillary tube mats is.

It It is also possible that the air intake outside The plastic capillary tube is positioned while the air outlet via an open side plate with the enclosed by the plastic capillary tube cylindrical Interior of the grid sleeve is connected.

The Heat transfer elements are preferably in housed a cuboid housing, so they divide the space into two separate subspaces, from one with the air inlet, the other with the air outlet connected, creating a particularly efficient cross-flow the capillary tube mats is realized.

A Further advantageous embodiment provides that the fixing device for the transversely flowed capillary tube mat a Sleeve with comb and side plates and one on the housing having fixed counter-comb or an equivalent seal, so that performance-reducing bypass flows in the contact area between housing and heat transfer element reliably avoided.

The arrangement according to the invention allows, without pressure space reduction and thus without increasing pressure losses, the core diameter d _i (diameter of the tube sleeve for winding the plastic capillary tube mat) and the overall height of the device significantly reduced, creating a more compact design, combined with an increase in performance through prevention tangential outflows or bypasses is achieved. The core diameter d _i can be reduced from usually at least 125 mm to up to 80 mm.

Advantageous is further that the fixing device through holes in the side plates ensures a defined fixation of the inflows and outflows so that a simultaneous parallel winding of several capillary tube mats with fixed, repeatable items for the supply of and drainage of water or other transmission medium is possible.

Further It is possible that the fixing device with a quick release equipped for fixing to the supporting structure (horizontal-vertical) so that its connection to the device is self-locking and is quickly removable. The fixing allows a change of the heat exchanger element for heating or cooling.

A further embodiment provides that the fixing device a water socket with self-closing connections for releasing the mat connections.

It is also possible that a quick release for fixation a condensate tray on a radially flowed capillary tube mat is present and / or that the device has a Fastening element has, on the fan of different design can be quickly fixed and replaced.

A special design provides that the blower is arranged centrally in the housing and fixing devices on both sides are arranged with plastic capillary tube mats radially from Air flow are flowed through. In this case, the housing in the area of the fan air intake openings and on the outer surfaces of the Fixing devices are adjacent, air outlet openings are located. In a further embodiment, the air inlet openings arranged on an outer surface, which one Fixing device is adjacent and on the opposite Outside surface arranged air outlet openings are.

• • Die Fixierung der aufgerollten Kapillarrohrmatte erfolgt in dem Gerät so, dass ohne Erhöhung der Druckverluste eine höhere Luftdurchführung bei gleichzeitiger Verringerung der Stabilitätsanforderungen, eine Mehrfachwicklung paralleler Kunststoff-Kapillarrohrmatten und eine beliebige Anordnung (horizontal – vertikal) ermöglicht werden. In Abhängigkeit von der gewählten Geometrie kann sowohl eine radiale als auch eine Querdurchströmung der Kunststoff-Kapilharrohrmatten ermöglicht werden.
• • Beim spiralförmigen Aufrollen einer Kunststoff-Kapillarrohrmatte erfolgt zwangsläufig eine geordnete, strömungstechnisch optimale Ausrichtung der Kapillaren.
• • Die konstruktive Ausgestaltung der Fixiervorrichtung ermöglicht es, dass eine gleichzeitige parallele Aufwicklung mehrerer Kunststoff-Kapillarrohrmatten mit festgelegten, wiederholbaren Positionen für den Wasserzu- und -ablauf realisiert werden kann.
• • Die Verbindung der Fixiervorrichtung zum Gerät kann selbst arretierend und schnell lösbar ausgeführt sein.
• • Beim Einsatz des Gerätes zur Luftentfeuchtung ist eine schnelle und wartungsfreundliche Anordnung von Kondensatauffang- und Beförderungselementen möglich.
• • Die Anordnung der Fixiervorrichtung ist in unterschiedlichen Gehäusen mit den erforderlichen Auslassvorrichtungen möglich und Lüfter verschiedener Hersteller können verwendet oder auch ausgetauscht werden.
• • Eine Reduzierung des Kerndurchmessers (Durchmesser der Gitterhülse) auf d_i = 80 mm ist ohne Druckraumreduzierung und damit ohne Erhöhung des Druckverlustes möglich, gegebenenfalls kann auch eine Leistungserhöhung durch Verhinderung tangentialer Abströmungen oder Bypassbildungen erreicht werden.
• • Durch die Verwendung der Aufrollhülse in Verbindung mit den (in Abhängigkeit von der Länge und Anzahl der Kunststoff-Kapillarrohrmatten positionierten) Bohrungen in den Seitenplatten werden ein definierter Innendurchmesser und definierte Anfangs- und Endpositionen für eine (oder mehrere) spiralförmig aufgerollte Kunststoff-Kapillarrohrmatte vorgegeben. Die Formstabilität der gerollten Kunststoff-Kapillarrohrmatten wird erhöht, indem die Kunststoff-Kapillarrohrmatten beim Aufrollen unter Zugspannung gesetzt werden. Es entfällt die Notwendigkeit, eine äußere Hülse zur Aufnahme der gerollten Kunststoff-Kapillarrohrmatten einzusetzen.

The invention is characterized by a number of advantages. These include in particular:

• • The fixation of the rolled-up capillary tube mat is done in the device so that without increasing the Pressure losses a higher air passage while reducing the stability requirements, a multi-winding parallel plastic capillary tube mats and any arrangement (horizontal - vertical) are made possible. Depending on the selected geometry, both a radial and a transverse flow of the plastic Kapilharrohrmatten be made possible.
• • The spiraling up of a plastic capillary tube mat inevitably leads to an orderly, fluidically optimal alignment of the capillaries.
• The structural design of the fixing device makes it possible to realize a simultaneous parallel winding of a plurality of plastic capillary tube mats with fixed, repeatable positions for the water inlet and outlet.
• • The connection of the fixing device to the device can be self-locking and quick release.
• • When using the device for dehumidification, a quick and easy-to-maintain arrangement of condensate collection and transport elements is possible.
• • The arrangement of the fixing device is possible in different cases with the required outlet devices and fans of different manufacturers can be used or even replaced.
• • A reduction of the core diameter (diameter of the grating sleeve) to d _i = 80 mm is possible without pressure space reduction and thus without increasing the pressure loss, possibly also an increase in performance by preventing tangential outflows or bypass formations can be achieved.
• • By using the roll-up sleeve in conjunction with the holes in the side plates (depending on the length and number of plastic capillary tube mats), a defined inside diameter and defined start and end positions for one (or more) spiral-wound plastic capillary tube mat are specified , The dimensional stability of the rolled plastic capillary tube mats is increased by tensioning the plastic capillary tube mats during reeling. It eliminates the need to use an outer sleeve for receiving the rolled plastic capillary tube mats.

Of the by the length of the roll sleeve given distance The side plates must be the width of the plastic capillary tube mat correspond. This width is determined by the length of the Matte located spacers of the capillaries.

The Generating a radial flow through the plastic capillary tube mats This allows one of the side panels to be open (i.e., as an air inlet), and preferably directly with a fan is connected while the opposite Side plate is closed.

to Generation of a cross-flow of the plastic capillary tube mats is the roll-up sleeve with combs for fixation equipped with rolled-up plastic capillary tube mats. By a mounted on the housing counter-comb is a dense Fitting the heat transfer element in a, preferably cuboid, housing achieved. This results in an increase in efficiency, as in the cross-flow the largest possible flow cross section the heat transfer element is utilized.

This increase in efficiency allows, without reducing the pressure chamber and thus without increasing pressure losses, the core diameter d _i (diameter of the tubular sleeve for winding the plastic capillary tube mat) and the overall height of the device significantly reduced, creating a more compact design, coupled with an increase in performance by preventing tangential Outflows or bypasses is achieved. Typically, the core diameter d _{i is} reduced from greater than 125 mm to as much as 80 mm.

The Regulation of the heating and cooling capacity is made by the change the air volume flow matched with the water supply temperature.

The Device can be advantageously combined with elements for thermal Room conditioning by radiant heat exchange, such as z. B. cooling ceilings or cooling sails.

The Invention will be described below with reference to embodiments explained in more detail. In the accompanying drawing demonstrate:

1 a fixing device for radially flowed, rolled-up plastic capillary tube mats,

2 an embodiment with vertically arranged fixing device for radially flowed, rolled-up plastic capillary tube mats,

3 a version with horizontally arranged fixing device for transversely flowed plastic capillary tube mats,

4 the schematic representation of a multiple rewind of plastic capillary tube mats,

5 a fixing device for a transverse flowed through rolled up plastic capillary tube mats and

6 a device variant with fixing device for a transversely flowed plastic capillary tube mat.

each other corresponding parts are in all figures with the same reference numerals Mistake.

On the in 1 Fixing device shown are one or more capillary tube mats 1 so on a grid sleeve 2 wound up, that the mat or the mat package takes the form of one between the side plates 3 and 4 clamped cylinder receives. The side plates 3 and 4 ensure in conjunction with a constant tension on the mat during winding on the grid sleeve 2 a homogeneous orientation of the capillaries. In the side plates 3 or 4 are holes for the water inlet and outlet attached.

In 2 an embodiment is shown in which a fixing device with the capillary tube mat assembly 1 vertically in a housing 21 is arranged. The housing 21 can be from any, for the management of the air flow ( 32 ) suitable materials. The capillary tube mats are arranged on the fixing device so that the air volume flow ( 32 ) opposite that through the capillary tube mats 1 flowing stream of water according to the heat technically efficient counterflow principle is effective. In the present case, this means that the air flow from the inside to the outside and the water flow are led from outside to inside. The length of the individual capillary tube mats 1 should preferably be the same.

The ratio of number and length, preferably 8 m, of the capillary tube mats 1 can depend on the existing for the respective arrangement flow-through geometries for the air flow 32 and that the capillary tube mats 1 flowing water are designed so that the performance-related pressure losses are optimized.

In the side plate 3 in a tube sleeve 5 for holding a fan 13 arranged. A through the fan 13 generated airflow 32 flows radially through the capillary tube mats 1 in the case 21 , As a fan 13 All known variants of axial or radial fans can be used.

The vertical fixing device is via a quick release 9 detachable with the housing 21 connected so that these in a variety of cases for steering and guiding the air flow 32 can be connected.

The grid sleeve 2 , bounded by the side plate 4 on one side, and the side plate 3 with the tube sleeve 5 On the other hand, form a flow-through space, which provides a homogeneous radial flow through the capillary tube mats 1 generated.

The air volume flow 32 Can be controlled by an air outlet 11 out of the case 21 for thermal conditioning of the environment emerge. As an air outlet 11 All known types can be used. It is advantageous z. As the use of hinges 12 or equivalent elements that allow rapid removal of the fixing device from the housing 21 enable.

The connection of the water inlet and outlet 10 To a supply network is preferably carried out as a quick release, self-sealing plug or screw connection of known types.

The structural design and arrangement of the tube sleeve 5 with the tube sleeve 15 allows the inclusion of fans 13 different size with a sufficiently constant sealing of the flow space.

The connection of the tube sleeve 7 with the tube sleeve 20 allows the attachment of a condensate tray 19 , by means of a by a float module 18 controlled condensate pump 15 the collected in a sump pump condensate can be removed.

The 3 shows a possible variant of the horizontal arrangement of the fixing device gem. 1 in a differently designed case ( 23 ) with a customized support frame ( 22 ). The advantage of such an arrangement is a reduction in the height of the device. In addition, any spatial arrangement of the fixing device gem. 1 possible in any housing. The arrangement of elements for condensate removal according to the adaptation to the respective housing below the fixing gem. 3 always possible.

4 explains the arrangement of the side plates 3 and 4 bores containing the water inlet and outlet ( 10 ) for the capillary tube mats 1 he follows. The holes are positioned according to the length of the mats and create a constant, reproducible connection geometry.

Another embodiment is based on the 5 and 6 be explained.

On the in 5 Fixing device shown are one or more capillary tube mats 1 on the grid sleeve 2 wound. The grid sleeve 2 wearing the mat package that's the shape of one through the side panels 26 and 27 has clamped cylinder. She is with the comb 28 related. The comb 28 and the side plates 26 and 27 ensure the orientation of the capillaries on the grid sleeve 2 , The capillary tube mats 1 are thereby aligned so that the air flow is perpendicular to the cylinder axis of the grid sleeve and thus causes a thermally efficient flow through. The in the side plates 26 or 27 Holes are positioned according to the length of the mats and allow a defined connection geometry for the water inlet and outlet 10 the capillary tube mats 1 , The fixing device can with the tube sleeves 30 detachably connected to an arbitrarily configurable housing vertically so that an air flow across the capillary tube mats 1 can flow.

In 6 is a device variant with fixing device for cross-flow capillary tube mats 1 shown. The housing 31 points in the area of the blower 13 Air inlet openings 24 on and on the outer surfaces which are adjacent to the fixing devices, there are air outlet openings 11 , Here, a flows through the radial fan 13 generated airflow 32 across the two capillary tube mats 1 to the two side air outlets 11 , With the on the housing 31 attached sealing crests 29 For example, made of elastic material will prevent a performance-reducing bypass flow in this area. With this embodiment, at least two fixing devices with the associated capillary tube mats 1 to be ordered. that the fan is arranged centrally in the housing and on both sides fixing devices with plastic capillary tube mats 1 are arranged, which are flowed through radially by the air flow.

1

Plastic capillary tube mat (s)

2

grid sleeve

3

side plate with opening for air supply

4

side plate

5

tubular sleeve for air supply and for attachment to frame and grid sleeve

6

tubular sleeve for attachment to grid sleeve

7

tubular sleeve on side plate for fixing the condensate tray

8th

Connection angle for 3 With 5 and 4 With 6

9

suspension and securing (quick release) of the fixing device

10

Water supply and -flow

11

air outlet

12

hinge (Height-adjustable)

13

Fan

14

supporting frame for vertically arranged plastic capillary tube mats

15

tubular sleeve on the support frame for fixing fixing device

16

condensate drainage

17

condensate pump

18

float module

19

Drain pan

20

tubular sleeve on condensate tray for attachment to fixing device

21

housing version for vertically arranged plastic capillary tube mats

22

supporting frame for horizontally arranged plastic capillary tube mats

23

housing version for horizontally arranged plastic capillary tube mats

24

air intake

25

drilling for passage of water supply and drainage

26

side plate with holes for inlet and outlet

27

side plate without holes for inlet and outlet

28

Comb for aligning the capillaries on the grid sleeve

29

sealing ridge for sealing on the housing

30

tubular sleeve for attachment to housing

31

housing version for horizontal cross-flow plastic capillary tube mats

32

Airflow

33

water flow

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 10313384 A1 [0005, 0007]

Claims (15)

Heating or cooling device with heat transfer elements arranged in a housing made of spirally wound plastic capillary tube mats ( 1 ), at least one fan ( 13 ) as well as air inlet and outlet openings ( 11 ), characterized in that the heat transfer elements are arranged on a fixing device, which a Aufrollhülse for fixing the plastic capillary tube mats ( 1 ) as well as side plates ( 3 . 4 ) with holes for the positioning of inlets and outlets ( 10 ) are provided for a heat transfer medium. Heating or cooling device according to claim 1, characterized in that the roll-up sleeve as a grid sleeve ( 2 ) is trained. Heating or cooling device according to claim 1 or 2, characterized in that the air inlet ( 11 ) on an open side plate ( 3 ) in one of the plastic capillary tube mats ( 1 ) enclosed cylindrical interior of the roll-up sleeve, and the air outlet outside the plastic capillary tube mats ( 1 ) is positioned. Heating or cooling device according to claim 1 or 2, characterized in that the air inlet outside the plastic capillary tube mats ( 1 ), while the air outlet via an open side plate with that of the plastic capillary tube mats ( 1 ) is enclosed cylindrical interior of the Aufrollhülse. Heating or cooling device after one of the preceding claims, characterized in that the housing is cuboid, wherein in the middle of the cuboid, the fixing device with the heat transfer elements is arranged so that the housing is divided into two separate subspaces one of which is with the air intake and the other with the Air outlet is connected. Heating or cooling device according to claim 5, characterized in that the fixing device is a sleeve with comb and side plates and one attached to the housing Counterhash has. Heating or cooling device according to one of the preceding claims, characterized in that the core diameter of the Aufrollhülse d _i ≤ 80 mm. Heating or cooling device after one of the preceding claims, characterized in that the fixing in the side plates holes for fixation the inflows and outflows. Heating or cooling device after one of the preceding claims, characterized in that the fixing a self-locking quick release contains for fixing to the housing. Heating or cooling device after one of the preceding claims, characterized in that the fixer a water outlet with self-closing Having connections for releasing the mat connections. Heating or cooling device after one of the preceding claims, characterized in that a quick release for fixing a condensate tray to a radially flowed capillary tube mat is present. Heating or cooling device after one of the preceding claims, characterized in that on the housing a fastener is arranged, with the fan can be quickly fixed and replaced can. Heating or cooling device according to one of the preceding claims, characterized in that the fan is arranged centrally in the housing and on both sides fixing devices with plastic capillary tube mats ( 1 ) are arranged, which are flowed through radially by the air flow. Heating or cooling device according to claim 13, characterized in that the housing in the area the fan has air inlet openings and on the outer surfaces, which are the fixators are adjacent, air outlet openings are located. Heating or cooling device according to claim 13, characterized in that the air inlet openings are arranged on an outer surface, which is a Fixing device is adjacent and on the opposite Outside surface arranged air outlet openings are.