The invention concerns a radiant panel provided with a frame on which at least one pair of projections, each comprising a first and second projection, are disposed, the first and second projections being in each case disposed at a distance from each other on a longitudinal edge of the frame, each projection being provided with an orifice, said radiant panel also comprising, per pair of projections, a movable bar having a first and second end situated opposite to each other, the said bar being arranged so that each of the ends can be engaged in one of the respective orifices, said bar serving to press a grille against the frame.
Radiant panels are widely used in industry, in particular in the papermaking industry for drying cellulosic lattices.
The patent U.S. Pat. No. 6,007,329 describes a radiant panel comprising a frame provided with two pairs of projections situated on the sides of the frame. The bar, which comprises a hollow at one of its ends, is arranged so as to slide in a first projection provided with a fixed connection means arranged so as to lock the bar in a longitudinal direction. Once the first end of the bar is inserted in the first projection, the operator can slide the second end into the second projection and insert therein, in an opening situated in the second projection, a movable connection means, locking the bar in the longitudinal direction. The bar thus fixed serves to press the grille against the frame.
One disadvantage of known radiant panels is that the positioning or replacement of the grille may prove to be tricky. The operator must in fact not only hold the grille in place but also the bars whilst he inserts the movable connection means.
The aim of the invention is to produce a radiant panel which can be mounted and replaced more easily, whilst guaranteeing suitable holding of the grille.
To this end a radiant panel according to the invention is characterized in that the first end of the bar comprises a first tooth sized so as to be able to pass through said orifice whilst making the bar pivot and abut against the projection when the bar passes through the orifice, the bar also comprising a flexible blade arranged so as to limit the movement of the bar when, in the grille fixing position, it passes through the orifices in the pair of projections to which it has been allocated. The fact that the bar must pivot in the orifice in order to pass through the latter means that the bar is already holding the grille when the bar is mounted in the projection. The presence of the first tooth and the flexible blade makes it possible to hold the grille by means of the bar and projections and to limit the movement of the bar, thus preventing unintentional dislodging of the grille. The mounting and replacement of the grille therefore entails only a pivoting and a translation movement of the bar.
A first embodiment of a radiant panel according to the invention is characterized in that a second tooth juxtaposes the first tooth, said second tooth being sized so as to be situated in the orifice when the bar is in said fixing position. A movement of the bar in the vertical direction is thus limited.
A second embodiment of a radiant panel according to the invention is characterized in that the first tooth and the flexible blade are applied to one and the same end of the bar and extend on each side of the orifice when the bar is in said fixing position. The entire operation of fixing the bar is thus essentially transferred to one and the same projection.
A third embodiment of a radiant panel according to the invention is characterized in that the flexible blade is situated at the second end of the bar. The fixing of the bar in the projections is thus carried out on the two projections in the same pair.
A stop is preferably situated under the flexible blade. The movement of the flexible blade is thus limited when the bar is in the fixing position.
The invention will now be described in more detail with the help of the drawings, which set out example embodiments of a radiant panel according to the invention. In the drawings:
FIGS. 2 and respectively 3 illustrate a first and respectively a second embodiment of a bar forming part of a radiant panel according to the invention;
FIGS. 4 and respectively 5 illustrate part of the frame of a radiant panel with the bar mounted;
In the drawings the same reference has been allocated to the same elements or to similar elements.
The radiant panel 1 according to the invention illustrated in
The embodiment illustrated in
Each longitudinal edge 7, 8 of the frame 2 comprises a pair of projections 3 and 4 and respectively 5 and 6. According to another embodiment of a radiant panel according to the invention, only one pair of projections on one and the same longitudinal edge could suffice, the grille then being held by other means on the other longitudinal edge. The projections are perfectly placed on the corners of the frame in order thus to give maximum length to the bars and provide optimum support for the grille. Naturally the projections can also be placed at points on the longitudinal edge other than those formed by the corners. However, it is necessary for the first (3 or respectively 5) and the second (4 or respectively 6) projection in one and the same pair (3, 4 or respectively 5, 6) of projections to be disposed at a distance from each other. Thus, for an edge having a length of 187 mm, the distance between two projections must be at least 90 mm.
Each projection 3, 4, 5 and 6 is provided with an orifice 9, which is preferably rectangular in shape. These orifices serve for the passage of movable bars 11 illustrated in
Each bar 11 comprises a first 13 and second 17 end situated opposite each other. The first end 13 preferably comprises a rounded shape, which firstly substantially reduces the probability of the operator injuring himself thereon when he handles the bar and secondly facilitates the pivoting of the bar in the orifice, as will be described below.
The first end 13 of the bar also comprises a first tooth 12 sized so as to be able to pass through the orifice 9 whilst making the bar 11 pivot as illustrated in
The bar also comprises a flexible blade 16 arranged so as to limit the movement of the bar 11 when it is in a position of fixing the grille.
In the example embodiments illustrated in
In the embodiment of the bar illustrated in
A ridge 24 is situated under the flexible blade 16 in order to limit the downward movement of the tip of the blade, preventing excessively great downward flexion which would enable the blade to pass through the orifice when the bar is in the fixing position.
In the second example embodiment set out in
The embodiment of the bar 11 illustrated in
To engage the bar according to
In the second embodiment of the bar illustrated in
According to the embodiment illustrated in
Thus, when the second end of the bar is engaged in the orifice in the second projection, the flexible blade folds slightly, whilst it passes into the orifice. Once it has passed beyond this orifice, the flexible blade resumes its initial shape, so that the free end of the blade comes to abut against the second projection, when it is attempted to make the bar return backwards. When the engagement of the bar in the orifices is continued, the first tooth comes to be placed against the first projection so as to prevent the bar from passing through the orifice in the first projection.
Thus, according to
The cutout can be on the rising peripheral edges of the projection or extend from the top of the projection as far as the orifice in this second projection. Once the ends of the bar are engaged in their respective projections, the bar serves to press the grille on the frame.
According to one alternative, the bar may be resilient, and in this way the pivoting of the second end would take place by flexion of the bar with respect to the first end, engaged in the first projection. Once the hollow is placed facing the projection, the bar returning to its original shape could itself be engaged in the orifice in the first projection via the cutout.
Number | Date | Country | Kind |
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2002/0466 | Aug 2002 | BE | national |
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4829158 | Burnham | May 1989 | A |
5820361 | Lavigne et al. | Oct 1998 | A |
5996575 | Shimek et al. | Dec 1999 | A |
6007329 | Meyer | Dec 1999 | A |
6012380 | Hermansson | Jan 2000 | A |
6039039 | Pina, Jr. | Mar 2000 | A |
6101768 | Springstead et al. | Aug 2000 | A |
6190162 | Smith et al. | Feb 2001 | B1 |
6201181 | Azzam et al. | Mar 2001 | B1 |
Number | Date | Country | |
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20040191716 A1 | Sep 2004 | US |