DE102008021279A1 - Heat exchanger and convector unit from heat exchangers - Google Patents

Abstract

The invention relates to a heat exchanger for heating and / or cooling of air in particular of room air with a plurality of fluid-flowable tubes, which are connected to increase the heating and / or cooling surface with fins, wherein a plurality of tubes arranged parallel to each other and secured together are and form a heat exchanger wall, which encloses a heat exchanger interior, which is flowed through by the air to be heated and / or to be cooled, and that are attached to and / or between the tubes, the fins. Furthermore, the invention relates to a convector unit, which is composed of heat exchangers.

Description

The The invention relates to a heat exchanger for Heat and / or cooling of air in particular of room air with a plurality of pipes through which a fluid can flow, which are used to increase the heating and / or cooling surface with Slats are connected. Furthermore, the invention relates to a convector unit, those from heat exchangers is composed.

It are heat exchangers different size and design known. Here is the size of the desired Performance dependent, so that depending on the required power different sized heat exchanger getting produced. This requires a considerable amount of design and manufacturing cost, with automation only at high volumes is economical.

task The invention is a heat exchanger to create that at high transmission power and small pressure difference in design and manufacture easy is and hereby small outer dimensions has and is versatile. It is also the task of Invention that the heat exchanger its heat output both convective and at the same time as radiation emits.

Furthermore Object of the invention is a heat exchanger of the aforementioned To be able to use type in convectors of most different performance, without the heat exchanger change yourself to have to.

These Task is inventively characterized solved, that a plurality of tubes are arranged parallel to each other and are attached to each other and form a heat exchanger wall, the a heat exchanger interior encloses the one to be heated by and / or to be cooled Air can be flowed through is, and that attached to and / or between the pipes, the slats are.

One such heat exchanger consists essentially only of two components, d. H. from a pipe, from the heat exchanger wall is composable and fastened on or between the pipes Lamellae. That hangs the performance of the heat exchanger only from the number and size of the pipes and fins. This facilitates a mechanical production and allows a high level of automation.

Furthermore in particular, the heat exchanger by its cartridge shape as a single element several times side by side used in convector units without changes to the heat exchanger to have to make. This no longer determines the individual size of the heat exchanger, but the number the heat exchanger the power of the convector unit.

Further can such a heat exchanger both for cooling as well as for heating from air and in vertical as well as in horizontal or oblique position be used. About that In addition, such a heat exchanger usable both with and due to the low pressure difference without a fan.

A rounded heat exchanger wall is then accessible in a structurally simple way, if the two adjacent side surfaces of each tube facing each other obliquely to adjacent tubes, that their distance from each other to the heat exchanger interior down reduced. Here you can the pipes have a trapezoidal shape Have cross-section.

Preferably It is suggested that the tubes have an internal channel with round or have oval cross-section. It is also advantageous if the heat exchanger wall a circular in cross-section or oval heat exchanger interior forms.

The Attachment of the pipes to each other can be made versatile and takes place together force, material or positive. Preferably is it cohesive, because a best heat transfer given is.

Especially It is advantageous if the lamellae in the heat exchanger interior in particular radially protrude. Here you can the fins extend to the middle of the heat exchanger interior. It is advantageous if the lamellae to the center of the heat exchanger interior extend in a curved shape and with their inner curved edges one coaxial channel form, the lamellae with their inner edges to each other are attached.

Around to achieve a safe drainage of condensate, it is proposed that the lower edge of the slats is formed obliquely so that the edge region near the heat exchanger wall lower than the inner edge area. Here can below the slats on the inside of the heat exchanger wall a gutter for the condensate be arranged. It is particularly advantageous if the curved Inner wall of the gutter the particular nozzle-shaped air inlet of the heat exchanger forms.

It is preferably proposed that below or above the slats a fan is arranged in particular in the heat exchanger interior. A simple influencing of the air flow, here especially the exit speed for draft-free entry, is achieved when in or at the outlet side an adjustable valve is arranged in particular with lamellar closure parts.

Especially It is advantageous if a first group of several next to each other lying pipes for heating of air and a second group of several adjacent ones Pipes for cooling is connected by air with the corresponding heating and cooling units. Here, the first group of tubes, the front of the heat exchanger form.

On structurally simple way is a convector unit with such heat exchangers then created when two or more tubular heat exchanger to a convector unit attached to each other. It is advantageous if the axes the heat exchanger lie parallel to each other. A particularly advantageous embodiment is given when the heat exchanger form a straight row with each other. The heat exchangers are a convector unit modular form easily fastened together, if the heat exchanger form-fitting in particular are fastened together by connectors.

One easy adjustment of all heat exchangers a convector unit is given when the valve closure parts and / or ejections through a linkage connected and adjustable. It is preferably proposed in addition to or between the tubular heat exchangers a tubular housing of the same Shape and size as the heat exchangers is arranged, the technical means such as actuator, electrics and / or electronics.

embodiments The invention are illustrated in the drawings and are in Following closer described. Show it

1 an axial section through a heat exchanger in a horizontal position,

2 a cross section through the heat exchanger according to II-II in 1 .

3 a cross section through a heat exchanger tube in an enlarged view,

4 a perspective view of a heat exchanger wall with tubes and fins in the cut state without end portions on both sides of the head,

5 an axial section through a heat exchanger in the vertical state and

6 a perspective view of a convector unit with heat exchangers and an additional housing for technical means.

The heat exchanger according to the invention 1 has an outer wall 2 on, which consists of a plurality of pipes 3 is composed. Here, the tubes have a coaxial inner channel 4 and two side surfaces 3a . 3b that run slightly obliquely to each other to form an acute angle with each other, the apex of which lies on the longitudinal axis of the heat exchanger. The side surfaces 3a . 3b each lie on a radius of the circular cross-section wall 2 where the cross section of each tube 3 form an isosceles trapezium on the outside. Here, however, the outer surface 3c and the inner surface 3d of a trapeze thereby deviate, that the outer surface 3c convex and the inner surface 3d of the pipe 3 concave in a way that the outer surfaces are curved 3c all tubes the cylindrical outside of the heat exchanger and the inner surfaces 3d all tubes, the cylindrical inner surface of the heat exchanger or the wall 2 form. Here, the inner channel 4 the pipes 3 preferably a circular or oval cross section. Alternatively, however, the heat exchanger may also have a non-cylindrical shape and z. B. be cuboid.

Between the pipes 3 and thus between the side surfaces 3a and 3b are slats 5 fastened in particular soldered. For this purpose, the lamellae can be coated on the outside with a solder. In an embodiment, not shown, the tubes 3 not soldered together, but held together by an outer sheath or by outer rings.

Instead, the slats can 5 but only on the inside of the wall 2 and thus on the inner surface 3d the pipes are fastened in particular by soldering. The slats extend from the wall 2 inside to the inner center of the wall 2 surrounding interior 6 , Here are the slats 5 in the in the 2 and 4 illustrated embodiment made bent in the way that they have an inner coaxial channel 7 form, with the inner ends of the slats 5 by tangential position the wall of the channel 7 form.

Going to the middle of the interior 6 extending slats 5 have the essential function, through the interior 6 heated or cooled air so that the heat exchanger can be used both as a heating element and as a cooling element. Here, the connections to the inner channels 4 the pipes 3 be provided such that only a certain number of tubes 3 serve the warming, in the following as the first group 8th designated, s. 2 , The remaining tubes of the second group 9 serve here for cooling, with a group 8th of adjacent pipes may be smaller than those in the second group 9 , Preferably, this forms the first group 8th that the Er heat is used, with its outer side, the outer wall of the heat exchanger, which faces the room or the user, so as to emit heat radiation to the outside.

To both ends of the wall 2 and with it the pipes 3 is in each case an end part 10 . 11 attached, the ring channel segment 12 to supply the channels. In one of the two annular end parts 10 is a fan 24 arranged, which ensures that air through the interior 6 flows.

In the in 1 illustrated embodiment, the heat exchanger is horizontally or slightly inclined, so that the condensate 17 from the slats flows down and collected from there to the outside to the end part 11 and there into a gutter 14 coming from an annular end face 15 is formed. Here is the annular gutter 14 designed so rounded that the inner opening 16 a rounded edge for the opening 16 forms.

In 5 the heat exchanger is shown in vertical position in the cooling mode. If this is done without a fan, the air to be cooled flows in the direction of the arrows 18 downward. With the support of the fan 24 the air is preferably up in the direction of the arrows 19 emotional. With the arrows 17 the flow direction of the condensate is shown, which flows downwards, with the undersides of the fins 5 are formed obliquely, that the edge region of the lamella near the heat exchanger wall is lower than the further inner edge region, so that along this lower edge 20 the lamella causes the condensate to flow out to the gutter 14 to get.

In 6 is a convector unit 21 shown, consisting of three cylindrical or cartridge-shaped heat exchangers 1 is composed. Here are the individual heat exchangers by plug connections 22 attached to each other in particular releasably attached. The number of individual heat exchangers of equal size and therefore the same power 1 within a convector unit is directly dependent on the desired overall performance of the convector unit. The individual heat exchangers are always parallel to one another with their longitudinal axes.

On one side of the series of heat exchangers 1 or between these is preferably a tubular housing 23 fastened with the same shape and the same external dimensions and the same connector as the heat exchanger, in the technical means in particular the electrical and / or heating and / or cooling circuit connections, the electrical system, the electronics and preferably an actuator for the fins of the valves are arranged.

Instead of an arrangement next to each other, the individual heat exchangers 1 a convector unit are grouped in another way. Furthermore, the wall needs to be 2 each heat exchanger not necessarily be circular, but it is also an oval cross-section possible.

Claims (24)

Heat exchanger ( 1 ) for heating and / or cooling air, in particular room air, with a plurality of pipes through which a fluid can flow ( 3 ), which are used to enlarge the heating and / or cooling surface with fins ( 5 ), characterized in that a plurality of tubes ( 3 ) are arranged parallel to one another and fastened to one another and a heat exchanger wall ( 2 ) forming a heat exchanger interior ( 6 ), which can be traversed by the air to be heated and / or cooled, and that on and / or between the pipes ( 3 ) the slats ( 5 ) are attached. Heat exchanger according to claim 1, characterized in that the adjacent tubes ( 3 ) facing two side surfaces ( 3a . 3b ) of each tube to each other obliquely such that their distance from each other to the heat exchanger interior ( 6 ) decreases. Heat exchanger according to claim 2, characterized in that the tubes ( 3 ) have a trapezoidal cross-section. Heat exchanger according to one of the preceding claims, characterized in that the tubes ( 3 ) an inner channel ( 4 ) in particular with a round, oval or trapezoidal cross-section. Heat exchanger according to one of the preceding claims, characterized in that the heat exchanger wall ( 2 ) a cross-sectionally circular or oval heat exchanger interior ( 6 ). Heat exchanger according to one of the preceding claims, characterized in that the tubes ( 3 ) are connected to one another by force, substance or form fit. Heat exchanger according to one of the preceding claims, characterized in that the lamellae ( 5 ) in the heat exchanger interior ( 6 ) in particular protrude radially. Heat exchanger according to claim 7, characterized in that the lamellae ( 5 ) to the middle of the heat exchanger interior ( 6 ). Heat exchanger according to claim 7, characterized in that the lamellae ( 5 ) to the middle the heat exchanger interior ( 6 ) extend in a curved shape and with their inner curved edges a coaxial channel ( 7 ) form. Heat exchanger according to one of the preceding claims, characterized in that the lamellae ( 5 ) are fastened together with their inner edges. Heat exchanger according to one of the preceding claims, characterized in that the lower edge ( 20 ) of the slats ( 5 ) is formed obliquely so that the edge region near the heat exchanger wall ( 2 ) is lower than the inner edge area. Heat exchanger according to one of the preceding claims, characterized in that below the slats ( 5 ) on the inside of the heat exchanger wall ( 2 ) a gutter ( 14 ) is arranged for the condensate. Heat exchanger according to claim 12, characterized in that the curved inner wall of the gutter ( 14 ) the particular nozzle-shaped air inlet of the heat exchanger ( 1 ). Heat exchanger according to one of the preceding claims, characterized in that below or above the slats ( 5 ) a fan ( 12 ) is arranged in particular in the heat exchanger interior. Heat exchanger according to one of the preceding claims, characterized in that on the outlet side, an adjustable valve ( 13 ) is arranged in particular with lamellar closure parts. Heat exchanger according to one of the preceding claims, characterized in that a first group ( 8th ) of several adjacent tubes ( 3 ) for heating air and a second group ( 9 ) of several adjacent tubes ( 3 ) is connected to the cooling of air with the corresponding heating and cooling units. heat exchangers according to one of the preceding claims, characterized in that it is convective as well as through Radiation is effective. heat exchangers according to one of the preceding claims, characterized by allocation of the individual tubes with a lighter design the ratio of Heating to cooling capacity. Heat exchanger according to claim 16, characterized in that the first group ( 8th ) of pipes ( 3 ) the front of the heat exchanger ( 1 ) form. Convector unit with heat exchangers, in particular according to one of the preceding claims, characterized in that two or more tubular heat exchangers ( 1 ) to a convector unit ( 21 ) are attached to each other. 21. convector unit according to claim 20, characterized in that the axes of the heat exchanger ( 1 ) are parallel to each other. Convector unit according to claim 20 or 21, characterized in that the heat exchangers ( 1 ) together form a straight row. Convector unit according to one of claims 20 to 22, characterized in that the heat exchangers ( 1 ) in a form-fitting manner, in particular by plug connections ( 22 ) are attached to each other. Convector unit according to one of claims 20 to 23, characterized in that the valve closure parts by a linkage connected and adjustable. Convector unit according to one of claims 20 to 24, characterized in that in addition to or between the tubular heat exchangers a particular tubular or cuboidal housing ( 23 ) of the same shape and size as the heat exchanger is arranged, which contains in particular technical means such as connections, actuator, electrical and / or electronics.