CZ17034U1 - Convector apparatus - Google Patents

Description

Technical field

The technical solution relates to convectors, which are preferably designed as bodies with the overall shape of the bath, into which the heat exchanger or heat source is placed, whereby the space of the bath for the heat source or exchanger is heated or cooled. The passage of air through the convector is, in the cases considered here, provided by a fan.

Background Art

At present, many types of convectors are known, including convectors that are adapted for floor or window sill installation. Floor or parapet convectors have a bathtub shape in which a heat exchanger is mounted, usually connected to a central heating circuit.

Similarly, it is also possible to connect the heat exchanger to the steam heating circuit or to the cooling water circuit in these convectors if, on the contrary, the air passing through the heat exchanger is to be cooled. Instead of the different heat exchanger designs through which the heat transfer fluid flows, the design with an electric or a combined heater is also analogously known. An example of known solutions, with the arrangement just described here, may be the solution according to DE 2223730, DE-GM 7218337, DE-GM 7639178. In all cases, the convectors are designed as a bath or trough with a heat source with a heat exchanger and a free airflow, where the main purpose of such convectors is to suppress, respectively. elimination of cold air flow from windows or glass walls. Also, the air flow is similarly supported by the fan in similar convectors, and cylindrical fan designs are also known. Recently, however, the demand for such convectors has increased, and on the one hand, it is desirable to reduce the dimensions, in particular the depth of the convector, on the other hand, to increase the heat output, not only to eliminate the cold flow below the windows, but for whole space heating. These requirements of the existing convector design are not satisfactory, respectively. they do not satisfy at the same time both the requirement of a low installation height and the the requirement for a small depth of the convector tub as well as the requirement for high heat output. As for the actual design of the convector tub, the most common are usually bent sheet structures, in the case of fan designs, usually with a rectangular tub. Although the design with rounded tub shapes is known per se, for example from DE 7 218 337 U, there is no version with a rotary fan and the tub is made of bent sheet. In this way, the shape of the bath is adapted to the direction of flow, but the complexity of the installation of other elements in the bath is not dealt with here and the nature of the construction is limiting from the point of view of serial production technology.

The essence of the technical solution

These disadvantages are substantially reduced, and a convector with a small installation height, with relatively high heat output and at the same time a construction suitable for series production technology, is obtained by providing according to the present invention a trough-shaped tub in which they are longitudinally and parallel to each other a cylindrical fan, an air jet deflector and a heat exchanger or heat source are disposed, and wherein the tray is formed as an extruded aluminum profile, in a cross section having at least one rounded corner at least in the lower corner, at least on the inner sides of the vertical legs an extruded aluminum profile having grooves and / or projections configured to anchor the bearing stones carrying at least a cylindrical fan and a heat exchanger, the tub being sealed on the end faces by shaped plates and on the top surface it is covered with a removable cover grille. The circular curvature in the at least one lower corner of the cross-section of the extruded aluminum 45 profile is preferably formed in a circular arc range of 45 to 135 °. Further, the bearing stones are preferably adapted to receive at least one air flow deflector. In particular, it is advantageous if the bearing stones are formed of a transversely cut extruded aluminum profile, each bearing stone consisting of an annular portion adapted to receive cylindrical fan bearings and surrounded by through openings adapted to receive suspension elements of the cylindrical driving electric motor. a fan, and provided with an outer projection adapted to be received in a longitudinal groove in the first side of the tub, and further each bearing stone consists of a flat arm extending transversely along the bottom of the tub and further along a second side of the tub and provided with a protrusion extending into the longitudinal groove formed in the other side of the bathtub. It is also advantageous if the air jet deflector is designed as a rectangular profile mounted parallel to the cylindrical fan, between the cylindrical fan and the heat exchanger or heat source, the air jet deflector body lying in a plane parallel to the upper surface of the convector and extending along the longitudinal axis cylindrical fan. It is also advantageous if the tray has groove-shaped contact grooves provided on its longitudinal edges, adapted to support the longitudinal strips of the removable cover grid. Optionally, it is also preferred that the extruded aluminum profile forming the convector tray in the cross section exhibits an annular rounding inside at both lower corners. Finally, it is also advantageous if the aluminum extruded profile forming the tub is provided with external longitudinal grooves of cylindrical shape, provided as longitudinal stiffeners and / or ribs and at the same time as holes for screwing the screws and / or screws securing the tub fronts to the tub.

This achieves the creation of a convector, which can be made with a very low construction, respectively. with a very small bath depth, and at the same time sufficient flow for a relatively high heating or cooling capacity is achieved with a low electrical input of the cylindrical fan motor. Low constructions are achieved due to the compactness of the structure using an extruded thin-walled aluminum profile, where the heat exchanger or heater lies practically on the thin-walled bottom of the tub and similarly the cylindrical fan is mounted on the bottom and in the rounded corner of the cross section of this profile. The design of the tub body from the extruded profile has all the necessary grooves in the longitudinal direction, which serve to accommodate both the fan and the exchanger, and it is no longer necessary to drill additional holes to screw the faces. Similar advantages are provided by the construction of the bearing stones, formed from an extruded profile, where all the storage places for fixing the storage stones in the bath and for inserting the engine, fan and heat exchanger or heat source into these storage stones are already created on this profile and no further drilling is required no holes or other parts. This makes the design advantageous, especially for series production with minimal assembly costs.

List of drawings in the drawing

The present invention is further described and explained in more detail with the aid of the accompanying drawing, wherein in Fig. 1 the convector is shown in a transverse vertical section through a bearing stone carrying a central bearing of the cylindrical fan; FIG. 3 is a partial vertical longitudinal section through the convector, through a bearing stone carrying the outermost bearing of the cylindrical fan and at the same time carrying the drive electric motor.

An example of a technical solution

As an exemplary embodiment, a convector comprising a trough-shaped tub 1 in which a cylindrical fan 2, an air jet deflector 4 and a heat exchanger 3 are disposed longitudinally and parallel to one another are described. The tub 1 is formed as an extruded aluminum profile, in a cross-section having a circular rounding 13 at one lower corner, and furthermore, the grooves 111, 121 are provided on the inner sides of its vertical legs forming the sides 11, 12 of the tub. anchoring the storage stones 5 carrying the cylindrical fan 2 with the drive motor 21, the air jet deflector 4 and the heat exchanger 3. The tub 1 is closed on the end faces by faces 14, formed as shaped plates, and on the top surface is covered with a removable cover grille 6. The circular rounding 13 made here in one lower corner of the cross section of the extruded aluminum profile is formed in a circular arc range of the top 90 °. In general, the fillets or fillets 13 could be made smaller

Or a larger angle, in a situation where the respective flanks 11 and / or 12, each formed as a vertical arm of the extruded aluminum profile of the tub, would be positioned not perpendicular to the bottom 15 of the tub, but at an angle. The storage stones 5 are formed from a transversely cut extruded aluminum profile. Each bearing stone 5 consists of an annular portion 51 adapted to receive cylindrical fan bearings 22 and surrounded by through holes 52 adapted to receive suspension elements 211 of the electric motor 21 of the cylindrical fan 2. The suspension elements 211 are embodied as cylindrical pins pressed over the rubber pads 2111 into the through holes 52 of the receiving stone 5. The bearing stones 5 are then further provided with an outer protrusion 53 adapted to be inserted into the first longitudinal groove 111 in the first side 11 of the tray 1, wherein the first side U is formed by the first vertical leg of the extruded Furthermore, each bearing stone 5 further comprises a flat arm 54 extending transversely along the bottom 15 of the tub 1 and still extending along the second side 12 of the tub, where the other side 12 is formed by a second vertical leg of the extruded aluminum tubing profile. flat shoulders 54 is provided in the portion extending along the second side 12 of the tub 1 with a protrusion 541 extending into the longitudinal groove 121 formed in the second side 12 of the tub 1. Here, the air flow deflector 4 is formed as a rectangular profile mounted parallel to the cylindrical fan 2 , between the cylindrical fan 2 and the heat exchanger 3, wherein the angular profile of the air jet deflector 4 is here specifically designed as a U-profile, positioned with its base towards the cylindrical fan 2. The body of the air jet deflector 4 lies in a plane parallel to the plane of the top 20. The surface of the convector and extending along the longitudinal axis of the cylindrical fan 2. The tub 1 then has groove-shaped bearing grooves 101 arranged at its longitudinal edges adapted to support the longitudinal strips 61 of the removable cover grille 6 formed here from the partition walls 62 resting on the longitudinal strips 61. The extruded aluminum profile forming the convector tub 1 in cross-section may generally exhibit an annular rounding 13 at both of its lower corners as long as it is expedient to further reduce the flow resistance of the passing air, but as a rule a fillet 13 will only be in the corner to which the cylindrical fan 2 is adjacent and whereby a suitably shaped chamber of the fan 2 is formed, while at the second corner the fillet 13 is not formed and a heat exchanger 3, typically a tube or pipe with rectangular ribs, is deposited there. Preferably, the aluminum extruded profile forming the tub 1 is provided with external longitudinal grooves 102 of the cylindrical inner profile provided as longitudinal ribs and at the same time as holes for screwing the screws 141 fixing the faces 14 made as molded plates on the ends of the tub I to this. tub _L

The function of the device in the exemplary embodiment is as follows. The heated heating water enters the heat exchanger 3 and the air is driven below the heat exchanger 3 by the cylindrical fan 2, which then passes through the exchanger 3, heats and exits the grille 6 into the heated space. The air jet deflector 4 directs air from the cylindrical fan 2 below the heat exchanger 3. In terms of construction and assembly for the production of the convector, besides the exchanger body 3 and the fan 2, only three extruded aluminum profiles are needed, namely the profile of the bath 1, the profile of the laying stones 5 and the profile of the deflector 4. The assembly is then carried out by inserting the electric motor only for 40 hours 21 and the fan bearings 22 into the storage stones 5 and by inserting the stones 5 into the bath 1, followed by the insertion of the heat exchanger 3 into the bearing stones profile 5. If desired, the individual members can be inserted into each other via damping materials and, if necessary, fixed with adhesive. Holes for the supply of heating medium, for the supply of electric current, etc. may be preformed in the convector faces 14.

Industrial usability

The device can be used as a heater or as an air cooling body, or as a body for limiting the flow of cold air under or under cold walls. Similarly, other applications are possible where the present apparatus is used for purposes conventionally used by convectors, the apparatus being generally usable in a horizontal position, but also in other positions the apparatus will be fully functional, with only one possible, known per se , such as by adjusting the drainage of the bath, by modifying the formation and fixing of the cover grid, and the like.

Claims (8)

PROTECTION REQUIREMENTS Convector, comprising a trough-shaped tub in which a cylindrical fan, an air jet deflector and a heat exchanger or a heat source are routinely mounted longitudinally and with each other, characterized in that the tub (1) is formed as an extruded aluminum profile in cross section having a circular rounding (13) inside at least one lower corner, at least on the inner sides of the sides (11, 12) of the tub (1) formed as vertical arms of the extruded aluminum profile having longitudinal grooves (111, 121) and / or projections formed adapted for anchoring the foundation stones (5) carrying at least a cylindrical fan (2) and a heat exchanger (3), the bath (1) being closed on the faces by faces (14) formed as shaped plates and covered on the upper face with removable cover grille (6). Convector according to claim 1, characterized in that the circular rounding (13) in the at least one lower corner of the cross-section of the extruded aluminum profile is preferably formed 15 in the range of a circular arc with an apex angle of 45 to 135 °. Convector according to Claims 1 and 2, characterized in that the bearing blocks (5) are adapted to receive at least one air jet deflector (4). Convector according to one of Claims 1 to 3, characterized in that the support stones (5) are formed of a cross-cut extruded aluminum profile, each support stone (5). 20 consists of an annular portion (51) adapted to receive bearings (22) of the cylindrical fan (2) and surrounded by through holes (52) adapted to receive the suspension elements (211) of the electric motor (21) of the cylindrical fan (2) and provided an outer projection (53) adapted to be received in a first longitudinal groove (111) in the first flank (11) of the tub (1), and each support stone (5) comprises a flat arm (54) extending transversely along the bottom (15) tubs (1) and further along 25 of a second flange (12) of the tub (1) and provided with a projection (541) extending into the second longitudinal groove (121) formed in the second flange (12) of the tub (1). Convector according to one of Claims 1 to 4, characterized in that the air jet deflector (4) is designed as a square profile, arranged parallel to the cylindrical fan (2), between the cylindrical fan (2) and the heat exchanger (3) or heat source. wherein the air flow deflector body (4) lies in a plane parallel to the plane of the upper surface of the convector and passing through the longitudinal axis of the cylindrical fan (2). Convector according to one of Claims 1 to 5, characterized in that the trough (1) has grooved seating grooves (101) at its longitudinal edges, adapted to support the longitudinal strips (61) of the removable cover grid (6). 35 Convector according to one of Claims 1 to 6, characterized in that the extruded aluminum profile forming the convector pan (1) has, in cross-section, a circular rounding (13) in both lower corners inside. Convector according to claims 1 to 7, characterized in that the aluminum extruded profile forming the tub (1) is provided with external longitudinal grooves (102) with a cylindrical internal profile, 40 provided as longitudinal stiffeners and / or ribs and at the same time as holes for screwing in screws (141) and / or screws fastening the ends (14) of the tub (1) to the tub (1).