NL9002091A - Radiation heating panel for green-house - has liquid supply carrying panels with interlock rims and includes male-female type couplings - Google Patents

Abstract

Extruded Al heating panels (1) have two side profiles (2). Several panels can be adjacent positioned. Each panel has a tubular section (1a) and two panel sections (1b, 1c). Left side rim of panel (1b) has a male coupling (1d), whilst Right side rim has a female coupling section (1e). This enables panels to be secure coupled in adjacent patterns.

Description

Radiation panel.

The present invention relates to a radiation panel formed by one or more radiation plates of aluminum or the like extrudable material, each radiation plate consisting of at least one tubular part, through which a heating or cooling medium can be passed and out onto the wall of the tubular part or parts adjoining plate-shaped parts, which are integrally connected to the tubular part or parts, whereby the longitudinal edges of adjacent radiation plates can be connected to each other.

Such a radiation panel is known from the Dutch patent application 8OO3II6, where the radiation panel consists of one or more radiation plates mainly intended for heating a greenhouse or department store.

Radiation panels not consisting of aluminum for, in particular, ceilings in buildings are also generally known, see, for example, Dutch patent application 7609792.

One-piece radiant plates, as known from Dutch patent application 8OO3H6, offer advantages in terms of manufacturing and functional advantages over radiant panels consisting of loose plates and tubes,

The heat transfer between a tubular part and a plate-shaped part is much better in a one-piece extruded radiation plate than between loose parts of iron. Installation is also easier.

The radiation panel according to the invention is characterized in that the two longitudinal edges of each radiation plate are male and female respectively and can be connected to other radiation plates and / or to edge profiles extruded from aluminum or the like, which are substantially perpendicular to the radiation plates and which are feminine and masculine, respectively, along one edge, the head ends of the panel being closed by end caps, which are perpendicular to the longitudinal axes of the tubular parts and connect to the edge profiles.

In this way, a radiation panel can be formed from one or more radiation plates with few aids, the edges being closed off by the edge profiles and the end caps.

The width of each panel is determined by the number of radiation plates coupled together, although it is also possible to accommodate, for example, two or more tubular parts in one radiation plate. The length of each panel is determined by the length of the radiation plate, which can vary.

In order to hang the panel, suspension profiles running parallel to it are arranged between the end walls.

The invention will be explained in more detail with reference to the drawings, in which:

Fig. 1 is a cross-section through a radiation panel according to the invention with one radiation plate and two side profiles;

Fig. 2 is a corresponding section, also showing a suspension profile;

Fig. 3 is a section on line III-III of FIG. 2;

Fig. 4 is a front view of the front panel radiant panel; and

Fig. 5 is a section on line V-V of FIG. 4.

The radiation panel according to the invention consists of at least one radiation plate 1 and at least two side profiles 2. In general, several radiation plates 1 will be used side by side.

Each radiation plate 1 consists of a tubular part 1a and two plate-shaped parts 1b and 1c.

A male coupling part 1d is formed along the left side edge of the plate-shaped part 1b of the radiation plate and a female coupling part 1e along the right side edge. In this way a number of plates 1 can be coupled together to any desired width.

Matching female or male coupling parts are also present along the sides of the edge profiles 2 facing the radiation plates.

Each side profile 2 consists of a vertical body 2a, a flange edge 2b at the top and a converted part 2c at the bottom, which contains a female or male coupling part.

The most important function of the bevel of the converted part 2c is to reduce the heat losses due to convection directly under the radiation plate 1. The length of the bevel can be larger or smaller, as shown in dashed lines in Fig. 2.

Each radiation plate consists of one piece and is made of aluminum by extrusion.

The edge profiles are also manufactured by extrusion, as are the end panels.

In order to fix the plates 1 in a vertical direction between the edge profiles 2, suspension profiles 3 are arranged at intermediate locations of the plates 1, which consist of a vertical body 3a, a flange edge 3b at the top and a flange edge 3c at the bottom.

Part of the web 3a is cut away between the flange edges 3c, see fig. 2.

The lips 3c abut against the top sides of the plate-shaped parts 1b and 1c of each radiation plate 1 and are clamped against them by kinked leaf springs 4, the ends of which engage under protrusions of the radiation plate 1.

The projections next to the tubular part 1a are indicated by 1f and the projections next to the longitudinal edges of the radiation plate 1 by 1g and 1h. The projection 1h can form part of the female coupling part 1e.

The space between the top side of the radiation plate or plates and bounded by the side profiles 2 and the end walls 6 can be provided with an insulating blanket. The room can also be foamed.

Generally, a number of arrayed panels are coupled together through the tubular members 1a and commercially available fittings not shown.

Each panel consists of one or more radiation plates 1 and thus one or more tubular parts 1a.

At the ends of the row, the tubular parts 1a are connected to supply and discharge pipes for heating or cooling medium, generally heated water.

A row of interconnected radiant panels generally extends over the entire length or width of the ceiling of the building to be heated.

Depending on the requested heating or cooling, a number of rows of panels are spaced apart over the width of the ceiling, with the panels suspended via the suspension profiles.

The radiation plates have a maximum length of 6,000 mm.

In the embodiment in which each radiation plate 1 contains two or more tubular parts 1a, it is possible to use one or more tubular parts for the passage of heated water and to connect the others to a source of pressurized fire-fighting water. These tubular parts can then be designed as a sprinkler system.

Claims (6)

Radiation panel formed by one or more radiation plates of aluminum or the like extrudable material, each radiation plate consisting of at least one tubular part, through which a heating or cooling medium can be passed and plate parts connecting to the wall of the tubular part, integrally connected to the tubular part or parts, the longitudinal edges of adjacent radiation plates being connected to each other, characterized in that the two longitudinal edges of each radiation plate are male and female, respectively, and can be connected to other radiation plates and / or with extruded aluminum or the like edge profiles which extend substantially perpendicular to the panels and which are constructed female or male along one edge, the two end ends of the panel being closed by partitions which are perpendicular to the longitudinal axes of the tubular share and connect to the side profiles. Radiant panel according to Claim 1, characterized in that suspension profiles running parallel to the end walls are arranged between the end walls to hang the panel. Radiant panel according to claim 2, characterized in that each suspension profile is provided with lip-shaped parts which abut against the plate-shaped parts of each radiation profile and are connected thereto, for instance by a leaf spring. Radiation panel according to claim 3, characterized in that the ends of each leaf spring fit behind projecting edges of each radiation plate on the sides of the radiation plate remote from the space to be irradiated, while the middle part of each leaf spring ensures the pressing of the lip-shaped part of the suspension profile against the plate-shaped part of the radiation plate. Radiant panel according to one or more of the preceding claims, characterized in that each radiant panel contains two or more tubular parts, at least one of which can be designed as a sprinkler installation. Radiant panel according to one or more of the preceding claims, characterized in that the edge profiles protrude more or less far below the plate-shaped parts of the radiation plates in order to reduce heat losses due to convection.