NL8502381A - Cross-flow radiator construction - has ventilator, filters, and partitioned air flow ducts, in rectangular partitioned casing with V=shaped profiled heat exchange bar - Google Patents

Abstract

The mounting assembly for a cross-flow heat exchanger consists of rectangular partitioned casing. There are profiled support bars with V-shaped top grooves and condensate drainage channels. The radiator casing (1) has two air flow paths (A,B) sepd. by the partitions which intersect each other in cross flow heat exchanger (4). The air flow path (A) extends from an ambient air connection (5) and a filter (7) through the heat exchanger space (8). A ventilator (10) filter (9) forces recirculating air (A) into a space (12) with a perforated air distributor plate (13), then via space (15) to the consumer. The heat exchanger includes a stack of corrugated plates, and is supported in V-shaped profiled bars.

Description

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VO 7367

Assembly kit, in particular for a cross-flow heat exchanger in a heating unit.

The invention relates to a mounting assembly, in particular for a cross-flow heat exchanger in a heating unit, wherein the cross-flow heat exchanger is designed as a rectangular block with passages extending opposite each other for inlet and outlet side surfaces for emitting heat and heat. absorbing fluid. In particular, the invention relates to a mounting fixture. for keeping the two fluid paths crossing each other in the heat exchanger separate in the cross-flow heat exchanger in a space heating device with air as heat transporting medium.

In a known space heating device of this type, the cross-flow heat exchanger is on the one hand accommodated in a first air flow path with successively an intake air connection which opens into a space connecting to a first inlet side surface of the cross-flow heat exchanger, connecting to the opposite outlet side surface with recirculation air supply space on the discharge side of the fan, in which there is a main heat exchanger fed by a conventional boiler with hot water and behind the main heat exchanger a space that is connected to a distribution network in the space to be heated. On the other hand, the cross flow heat exchanger is incorporated in a second air flow path with successively a suction connection for air from certain heated spaces, a space which connects to the second inlet side surface of the cross flow heat exchanger, a space which connects to the opposite, second outlet side surface and which on the suction side of a second fan, which communicates on the discharge side with an outlet that exhausts the air.

In this space-air heating device, the various spaces forming part of the two airflow paths are mutually separated by walls, some of which connect to ribs of the cross-flow heat exchanger where respective air inlet and outlet side surfaces meet. Different pressures are generated on either side of these walls and generated by the two fans and it is essential for the device to function that these pressure differences do not cause short-circuit flows along the ribs of the cross-flow heat. generate exchanger.

In particular in the case of a cross-flow exchanger of the type, consisting of a package of corrugated, fluid-tight plates, in which the undulations of successive plates enclose an angle with each other and thus delimit intersecting separated fluid passages extending between opposite side surfaces, the corner ribs on various walls are a problem. For this purpose use is made of V-shaped closed plates mounted on the various wall parts, which enclose four opposite corner zones of the heat exchanger block. There must be sufficient clearance for the block to slide out of the confinement for periodic cleaning. However, this also means that there is no airtight closure of the corner zones and leakage currents along the ribs are inevitable.

According to the invention, such undesired leakage currents are effectively avoided by using an assembly of mounting elements, each of which is designed as a cross-section substantially V-shaped profiled rod with a groove at the top for subsequently receiving a rib in shape and the adjoining parts of the block and which, by four parallel ribs, enclose the block between them.

For mounting to a flat wall by means of screws and / or lines, the bottom of the mounting element can be flat.

For mounting on the end edge of a wall, the underside of the mounting element can be V-shaped and a support element of which the cross-sectional shape is adapted to that of the bottom of the mounting element can be fixedly adjustable on the wall end edge.

Furthermore, according to the invention, the rod-shaped mounting element 30 can be provided on at least one side with a longitudinal recess for accommodating edge parts of provisions such as insulating plates, filters, etc. adjoining a heating unit.

The mounting element can also be provided with recesses for draining condensation.

35 For example, a condensation collection chamber can be arranged in the bottom of the rebate, extending over its central part, which is connected via inclined channels to condensation gutters extending to the side of the rebate and which, in the 8502 38 1 remote from the rebate * * -4? -3- side has a drainage channel.

In a preferred embodiment of the invention, the mounting elements are formed from material made by pressing waste of polyethylene, polyethylene or the like plastics as well as a rubber component which may come from old car tires.

Such an element has insulating and sound-damping properties that contribute to the heating device meeting the requirements for noise in housing construction.

In further elaboration of the invention, such heating devices on the inlet sides of various air-flow elements, such as the cross-flow heat exchanger, can usually have filters arranged according to the invention fitted with an elastic window in which the filter material is stretched and which has a larger size then the air-passage spanned by the respective filter. The filter can thus be mounted extremely simply and with a good edge seal in a bent position, in which at least one edge is accommodated in a recess in a sealing profile. The filter clamps itself and stays in place. Furthermore, with a curved filter in the air passage, a larger filter surface is available with a straight filter, while the space created under the curved filter has an air-distributing effect.

In the context of the controlled air flow in the heating device, a passage that can be closed by a flap can be arranged around the main heat exchanger in the room in which the main heat exchanger is located, so that cold, at least unheated air can optionally be supplied to the living space. supplied.

Furthermore, it is recommended to provide a perforated plate on the discharge side of the first fan, which ensures that the air blown to the main heat exchanger is distributed evenly over this heat exchanger.

To clarify the invention, with reference to the drawing, some exemplary embodiments of the mounting profile on a heating unit in which these profiles are used will be described.

FIG. 1 is a schematic front view of the interior of a space heating unit with air as the heat transport medium; 8502 33 1 * -4-

Fig. 2 is a cross-section of a mounting member in the form of a profile rod for the sealed mounting of a cross-flow heat exchanger,

Fig. 3 is a plan view of a sealing profile bar with facilities for collecting and draining condensation;

Fig. 4 is a longitudinal sectional view taken on the line IV-IV in FIG.

3; and

Figs. 5-7 are cross sections taken on lines V-V, VI-VI and VII-VII, respectively, in FIG. 3.

In the drawing, in a cabinet 1 of a heating unit where the front wall has been omitted, two air flow paths A and B are shown, which are separated by partitions 2 and 3 and which intersect in a cross flow heat exchanger 4.

The airflow path A extends from a suction connection 5 for outside air through a space 6 and a filter 7 through the cross-flow heat exchanger 4 to a space 8 in which a filter 9 is arranged upstream of a fan 10, which takes in the air drawn in from the space 8 with drawn-in recirculation air (A1), presses into a space 12 separated by a wall 11 from the space 8, in which a perforated air distribution plate 13 is arranged upstream of a main heat exchanger 14 in which the air is heated by hot water supplied from an external source and via a space 15 reaches a distribution network (not further specified) for a space to be heated with warm air, such as a house.

The airflow path B, which serves for preheating air in the airflow path A, extends from a suction connection 16 for part of the air from the heated room, e.g. from the kitchen and the bathroom, through a room 17 and through a filter 18 through the cross-flow heat exchanger 4 to a space 19, in which a fan 20 exhausts the air, which has given off heat to the fresh air in the flow path A, via an exhaust connection 21 in the outside air.

In order to ensure that the air flow paths A and B, in particular in the vicinity of the cross-flow heat exchanger 4, are kept completely separate from each other, this heat exchanger is mounted in sealing profiles in the manner indicated.

The heat exchanger 4 is otherwise known as a rectangular block of stacked, fluid-tight corrugated sheets, the corrugations in each sheet being parallel to each other and perpendicular to the corrugations of adjacent corrugated sheets, so that two perpendicular to each other 3502381 -5 - - Τϊ 'ΐδ; Standing fluid passages each composed of a plurality of channels are formed between inlet sides 22, 23 and outlet sides 24, respectively. 25.

The sealing profiles 26-29 will be discussed with reference to the other figures.

5 Sealing profile shown in cross-section in Fig. 2, two of which are shown in Fig. 1 (27 and 28) show at the top a rebate 30 with an opening angle of 90 °. The bottom is flat and intended to be attached to a flat wall part by gluing or screws.

Laterally there are recesses 32 for receiving edge parts of plates of insulating material 33 (see fig. 1).

The sealing profile 26 according to Figures 3-7 has, in addition to the rebate 30 on the top side, condensation collecting channels 34 which communicate via channels 35 with a condensate collection chamber 36 arranged in the bottom of the rebate, from which a drainage channel 37 extends downwards. -15 stretches. So-called recesses 38 serve to support a filter 7,18 or 9.

Of the sealing profile shown in Figures 3-7, in FIG. 1 two £ 26,29), each opposite a profile 28, respectively fixed to a flat wall part. 27.

For the attachment of the profiles 26, 29 to the end edges of the respective walls 3 and 2, reference is made to the enlarged circled detail C in FIG. 1. Therein ii a support element 39 is shown which takes up the bottom side of the profile 26 in shape and as indicated by the double arrow, by means of a screw 40 and slotted holes can be fixed to the wall 3 in an adjustable manner. Thus, by pressing the support elements 39 against the profiles 26 and 29, these profiles can move to the opposite profiles 28, respectively. 27 are pressed to clamp the heat exchanger 4 firmly and sealed in between. To remove the heat exchanger 4, it is only necessary to loosen fastening screws 40 and the support elements 39 down, respectively. to the left (in Fig. 1).

It is clear that the invention is not limited to the described exemplary embodiments, nor to the specific combination thereof. For example, the sealing profiles can in principle be used for mounting any block-shaped body and, although they are particularly useful for the sealing mounting of a block-shaped cross-flow heat exchanger, this is not necessary in a room heating device to happen. The filters can also be used in other devices, although they are particularly useful in the described device because they contain large air displacements which contribute to a good edge sealing of the filters in the filters according to the invention in convex arrangement upstream.

8502 38 1

Claims (10)

1. Assembly assembly for block-shaped objects, such as a cross-flow heat exchanger, which is designed as a rectangular block, with passages extending between opposite inlet and outlet side surfaces in each case for a heat-emitting and a heat-absorbing fluid, with characterized in that each element in the mounting assembly is designed as a cross-section substantially V-shaped profiled rod with a rebate at the top for receiving a rib and the adjacent parts of the block in contiguous shape and those at four parallel ribs vein block the block between the 10 clamping. Assembly element of the assembly according to claim 1, characterized in that for mounting on a flat wall by means of screws and / or gluing the bottom is a flat surface. 3. Assembly element of the assembly according to claim 1, characterized in that for mounting on the end edge of a wall the bottom side is V-shaped and on the wall end edge is a support element, the cross-sectional shape of which is on the bottom side of the mounting element is adapted, adjustable attachable. Mounting element according to one of the preceding claims, characterized in that the profiled rod is provided on at least one side with a longitudinal recess for accommodating edge parts of provisions such as insulating plates, filters and the like adjoining in a heating unit. Mounting element according to one of the preceding claims, characterized by recesses for draining condensation. Mounting element according to claim 5, characterized in that a condensation collection chamber is arranged in the bottom of the rabbet, extending over the middle part thereof, and which communicates via inclined channels with condensation-catchment extending to the side of the rabbet. 30 gutters and which has a drainage channel in the side remote from the rebate. Assembly element according to any one of the preceding claims, characterized in that it is formed from material produced by pressing waste of polyethylene, polyethylene and the like plastic materials, as well as a rubber component which can come from old car tires. Filter element, in particular for use with a heating unit in which use is made of mounting profiles according to one of the preceding claims, characterized in that the filter element is provided with an elastic window in which filter material is stretched and which has a larger size than the air passage to be spanned by the respective filter. 9. Space heating unit with air as the heat transfer medium and provided with an externally fed heat exchanger to which preheated air is supplied by a fan in a cross flow heat exchanger, characterized in that in the room in which the main heat exchanger is located a valve closable passage is arranged around the main heat exchanger so that cold air, at least not heated in the main heat exchanger, can be supplied to the living space. Heating unit according to claim 9, characterized in that a perforated plate is arranged on the discharge side of the fan, which ensures that the air blown to the main fan is distributed evenly over this heat exchanger. 8502 38 1