NL2000180C2 - Simulated glow bed with simulated fire. - Google Patents

Description

Sch / svk / Vicaroth-2p

SIMULATED GLOWING BED WITH SIMULATED FIRE

The invention relates to a fireplace with simulated fire. Such fireplaces are commercially available in many embodiments and are well known.

It is an object of the invention to improve the fidelity of the simulation of the fireplace with a simulated fire.

In view of this object, the invention provides a simulated glow bed for a hearth with simulated fire, which glow bed comprises: a partly translucent and partly opaque hood with the appearance of at least partly charred pieces of wood and / or coal; and at least one light source disposed under said hood, which directs light onto the hood, which light has such properties, such as location, color and intensity, that the hood gives the illusion to include glowing pieces of wood and / or coal.

The glow bed according to the invention preferably has the special feature that the hood consists of polyurethane foam.

According to a further aspect of the invention, the glow bed has the special feature that the surfaces of the hood are substantially continuous.

These continuous outer surfaces can be realized by the use of an excess of polyurethane during foaming in a mold.

During investigation it has been found that a glow bed according to the invention can have the practical special feature that the translucent areas of the cap have a thickness of the order of 1 mm and the opaque areas 2 of the cap have a thickness of the order of 3 mm . A thickness of the order of 1 mm provides a sufficient degree of translucency while maintaining adequate mechanical stability and strength of the cap at that location. A thickness of the order of 3 mm and more ensures that the area in question is almost entirely opaque. The degree of translucency and opacity, after taking a hood from the production mold, is adjusted in accordance with the wishes of the designer by performing surface treatments, such as applying paint, varnish, coatings containing pigments, and the like, whereby the glow bed is a very has deceptive agreement with an actual glow bed, which partially contains burnt pieces of wood and / or coal.

According to a further aspect of the invention, the glow bed comprises a number of light sources that have been added to the simulated pieces of wood and / or coal individually or in groups. This corresponds to the reality in which individual pieces usually have an individual glow pattern. This glow pattern can even vary greatly between neighboring parts.

A high degree of natural fidelity can be realized with an embodiment in which the light sources are controlled by a processor such that the properties of the emitted light vary over time.

A surprising refinement is achieved with an embodiment in which the light sources emit white and / or blue light for a maximum of approximately 10%, always for a short time. The briefly occurring white light suggests small sparks, while the blue light simulates the blue flames that sometimes occur in a burning fire.

The invention also relates to a fireplace with a simulated glow bed of one of the types discussed above. According to the invention, this fireplace preferably comprises at least one second light source that illuminates the glow bed from above.

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Such a hearth according to the invention preferably comprises a number of second light sources, that red light. (peak wavelength 62 6 nm) and amber light (peak wavelength 590 nm).

Such a hearth can advantageously have the special feature that the processor also controls the second light sources.

The invention will now be elucidated with reference to the accompanying drawings of a number of exemplary embodiments, to which the invention is not limited. Show in the drawings:

Figure 1 shows a fireplace with a simulated glow bed according to the invention, the walls of which are not drawn for the sake of clarity; Figure 2A is a schematic top view of a glow bed;

Figure 2B shows a longitudinal section through the glow bed according to Figure 2A;

Figure 2C shows a transparent top plan view of the glow bed according to figures 2A and 2B.

Figure 3A is a top view of a glow bed;

Figure 3B is a top view of the glow bed according to Figure 3A;

Figure 3C shows a bottom view of the glow bed according to Figures 3A and 3B;

Figure 4A is a top perspective view of the glow bed;

Figure 4B shows a bottom perspective view of the glow bed; and Figure 5 shows a schematic section of a part of the polyurethane foam cover; and

Figure 6A is a perspective view of a wooden block according to the invention;

Figure 6B is a perspective view of the lower part of the wooden block according to Figure 6A; and

Figure 6C a carrier for wooden blocks with electrical power connections.

Figure 1 shows a fireplace 2 with simulated fire. The fireplace 4 comprises a simulated glow bed 1. This glow bed 1 comprises a partly translucent and partly opaque cap 3 with the appearance of at least partly charred pieces of wood and / or carbon, and a number of light sources arranged under said cap 3 5 (see Figure 2) which direct light onto the hood 3, which light has such properties, such as location, color and intensity, that the hood 3 creates the illusion to include glowing pieces of wood and / or coal.

The hearth 2 further comprises a projection screen 7 arranged obliquely at an angle of approximately 14 °, which screen is partly translucent. Behind this projection screen 7, light sources (not drawn) are arranged which are designed such that they project light patterns with the shape and other properties of flames onto the projection screen 7. However, this aspect is only mentioned for completeness and is not relevant to the present invention.

As Figure 2 shows, the light sources 5 are arranged such that they are added in groups to the simulated pieces of wood and / or coal and at least more or less follow the shape of the pieces 4.

The light sources 5 are controlled by a processor (not shown) arranged under the hood 3 such that the properties of the light emitted by the light sources 5 vary with time.

A particularly true-to-life simulation is obtained in the case where the light sources emit approximately 60% red light (626 nm), approximately 20% amber-colored light (590 nm) and approximately 20% orange light (605 nm).

Furthermore, the light sources 5 can emit white and / or blue light for a maximum of approximately 10%, and in practice even less, always for a short time. This further benefits the natural fidelity of the simulation of the glowing of the pieces 4 with occasional small blue flames and the emission of small sparks.

Figures 3A, 3B and 3C, 4A and 4B show the glow bed 1 with the simulated pieces of wood and / or coal in a highly schematic form.

It is not shown that the bottom 8 of the fireplace carries electrical provisions, such as the central processor 5 for controlling the first light sources 5 and the second light sources 6 (see Figure 1 and the description below), as well as coupling means, for example plug connections for coupling the central processor arranged on the bottom 8 with the light sources 5 and 6.

The light sources 5 serve to simulate a glow image based on transmitted light through the relatively translucent parts of the polyurethane foam cap 3. These translucent parts have a thickness of the order of 1 mm, while the opaque parts have a thickness of more than 2 to 3 mm. A larger thickness is not useful for light technical reasons.

The hood 3 is treated on its outside by means of paint, varnish, pigmented coatings, or the like, in such a way that it forms a very true-to-life representation of a number of logs or the like. These techniques are known per se and are therefore not important for the present invention.

In addition to lighting from the bottom, the fireplace 2 also comprises provisions for illuminating the hood 3 from the top as well. To this end, the hearth 2 carries a number of second light sources 6 on its top side. These are visible in the partially cut-away drawn top edge 9. It will be clear that this edge is completely closed and covers the second light sources 6 completely for forward-beam light, such as that they are not directly visible under any circumstances.

The light sources 6 preferably emit 50% red light (626 nm) and 50% amber light (590 nm).

As a result of the control from the central processor, these light sources 6 are also modulated over time, as well as the light sources 5. This modulation takes place in such a way that effectively the exposed location, the color of the emitted light and the intensity of that light are continuously varied .

All light sources 5, 6 are controlled by the processor such that the simulation of a real glow bed is so good that only a very attentive observer can see the difference.

Figure 5 shows by way of illustration a cross-section through a diffuse translucent part of the cap 3. This part 10 has a wall thickness of 2 to 3 mm and comprises a core 10 polyurethane foam and contains closed cells or air bubbles and continuous, i.e. closed outer surfaces 11, 12. These continuous outer surfaces 11, 12 can be realized by the use of an excess of polyurethane during foaming in a mold.

Figure 5 shows the effect of the foam structure of the core 10. This causes a scattering or diffuse transmission of the incident light 13, which originates from the first light sources 5. This light, after being incident on the inner surface 11 scattered by the core 10 such that it leaves the cap 3 as emerging light 14 in a substantially omni-directional pattern.

For the sake of completeness, it is noted that the polyurethane cap 3, after leaving the modeling mold and being completely cured, is substantially colorless. The natural appearance is only obtained by the post-processing described and the glow image is only obtained by the operation of the light sources 5 under control of the processor.

Figure 6A shows a wood block 15 as part for a simulated glow bed according to the invention.

Figure 6B shows the inside of the wood block 15. At least one elongated arrangement 18 with LEDs 20 extends in the longitudinal direction of the wood block 15 and thus follows its shape. The LEDs 20 are arranged in an internal cavity 19 of the wooden block 15. The LEDs 20 can be fed by means of a control unit 21, which is provided with batteries, for controlling the LEDs according to a desired program by the associated processor, whereby the properties of the light emitted vary over time.

At the end of the log block 15 there is a power supply connection 22 which can be connected to a power plug 17. This power plug 17 can be releasably arranged in the manner shown in Fig. 6C on a carrier 16 for the logs 15 as an alternative and are connected to a power supply (not shown) for charging the batteries of the control unit 21.

Depending on the wishes of the designer and a user, the wooden blocks 15 can receive a power supply by means of the described plug connections during their activity in the annealing bed, or be connected, for example, in the carrier 16 for charging the batteries present therein. These are various options within the scope of the invention.

Consider the following relative distribution of the colors of the light emitted by the LEDs: 20% yellow, 40% amber and 40% red.

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Claims (12)

A simulated glow bed (1) for a fireplace (2) with simulated fire, which glow bed (1) comprises: a partly translucent and partly opaque hood (3) with the appearance of at least partly charred 5 pieces (4) of wood and / or coal; and at least one light source (5) disposed under said cap (3), which directs light onto the cap {3), which light has properties such as location, color and intensity that the cap (3) creates the illusion glowing pieces of wood (4) and / or coal. A glow bed (1) according to claim 1, wherein the cap (3) consists of polyurethane foam. The glow bed (1) according to claim 2, wherein the surfaces of the cap (3) are substantially continuous. The glow bed (1) according to claim 1, wherein the translucent areas of the cap (3) have a thickness of the order of 1 mm and the opaque areas of the cap (3) have a thickness of the order of 3 mm. 5. Glow bed (1) according to claim 1, comprising a number of light sources (5) that have been added to the simulated pieces (4) of wood and / or coal individually or in groups. 6. Glow bed (1) according to claim 5, wherein the light sources (5) are controlled by a processor in such a way that the properties of the emitted light vary over time. 7. Glow bed (1) according to claim 5, wherein the light sources (5) are for approximately 60% red light (peak wavelength 626 nm), for approximately 20% amber light (peak wavelength 590 nm) and for approximately 20% orange light (peak wavelength 605 nm). A glow bed according to claim 7, wherein the light sources emit white and / or blue light for a maximum of approximately 10%, always for a short time. 10 Fireplace (2) with a simulated glow bed (1) according to any one of the preceding claims, further comprising at least one second light source (6) that illuminates the glow bed (1) from above. 15 Fireplace (2) according to claim 9, comprising a number of second light sources (6) that emit red light (peak wavelength 626 nm) and amber light (peak wavelength 590 nm). 20 Fireplace (2) according to claims 9 or 10 and 6, wherein the processor also controls the second light sources (6). 12. Simulated piece (15) of wood or coal, designed and apparently intended as a detachable part of a glow bed according to one of claims 1 to 8 and comprising: a partly translucent and partly opaque cap 30 (3) with the appearance of at least at least at least partially charred pieces (4) wood and / or coal; and at least one light source (5) disposed under said cap (3), which directs light onto the cap (3), which light has such properties as location, color and intensity, to have glowing parts. Ά · -k -k -k -k