CN216204199U - Adjustable fastening mechanism for thermal evaporator of light source shade - Google Patents

Abstract

An adjustable fastening mechanism for a thermal evaporator of a light source shade comprises a base (1) optionally with an aperture (6) provided with a fastening component (2) for attachment to the shade and an adjustable fastening component (7) for changing the distance of the thermal evaporator pan from the light source. The adjustable fastening means (7) is formed by at least two slotted post sections (7.1), each provided with a longitudinal slot (7.2) with a set of adjoining chutes (7.3), between which slotted post sections (7.1) a horizontally oriented adjustable disc holder (7.4) provided with at least two tombstones (7.5) fitting into the chutes (7.3) is located. The adjustable disc holder (7.4) is provided with an operating handle (7.6). The fastening member (2) for attaching the shade may be length-adjusted using a spring. A fastening member (2) for attaching a shade is provided with a terminal fastening element (3) which is a hook, a clamp, a screw, or a magnet.

Description

Adjustable fastening mechanism for thermal evaporator of light source shade

Technical Field

The utility model relates to a construction of an adjustable fastening mechanism for a thermal evaporator of a light shield for a light source, wherein the intensity of the evaporation depends on the mutual distance of the thermal evaporator and the light source. The technical solution of the present invention belongs to the field of available indoor accessories.

Background

Currently, fragrance lights, evaporators and water diffusers, possibly with aromatherapy oils, are common decorative and useful accessories in the home, especially at home. Thermal water evaporators based on various heat sources are known in the art, such as paraffin or oil burners, catalytic sources, thermal tombstones or light bulbs, which make them applicable to homes, offices, saunas and the like. Scented lamps are primarily based on a heat source that is a paraffin or oil burner. The water diffuser, which may contain a fragrance oil, is based on a blow of cold water vapor.

The solution described in document US6328935B1 is known in the prior art, wherein the fragrance dispenser comprises a flame source for providing heat, an open porous annular ceramic substrate adapted to absorb and reversibly retain therein a quantity of at least one fragrant fluid, and a support structure for maintaining the porous substrate at a coaxial distance from the flame source. The heat generated by the flame source causes the aromatic fluid retained in the substrate to dissipate into the ambient air. The support structure is a vertical telescoping rod element locked by screws that manipulate the height of a toroidal ceramic substrate containing a scented fluid.

Another solution of the prior art is described in document DE29807474U, in which the fragrance disk is firmly attached above the heat source and the height of the heat source itself is adjusted on a vertical bar.

Another solution of the prior art is described in document JP3175002U, in which the fragrance disk is inserted into a tight hole in the lamp housing above the heat source, making it impossible to adjust the height at a distance of the heat source from the heat evaporator disk.

A drawback of the above-mentioned prior art solutions is that the heat source is mainly an open flame burner, which does not guarantee sufficient protection against possible fire in case of a lamp tip over. In addition, the adjustment configuration, which varies the mutual distance of the axes of the heat source and of the thermal evaporator pan, opens out without matching it to the indoor design in which the evaporator is located. In some solutions, it is necessary to perform a height adjustment of the mutual distance of the heat source and the axis of the thermal evaporator disc on several adjustment elements, which makes the operation more complicated.

SUMMERY OF THE UTILITY MODEL

The disadvantages of the prior art in the field of hot fragrance lamp evaporators are solved by the proposed construction of an adjustable fastening mechanism for a thermal evaporator of a light source shade, which essentially consists in the following facts: which comprises a base provided with a possible scope. The base may have different geometries, for example, the shape of a ring, a disc. The scope is fixed to the base, for example by screws, fastening means (for example in the shape of a rod). By these fastening members, the base is fastened to the shade via a tip fastening element, which may be a hook, a clamp, a pincer, a screw, or a magnet. Advantageously, in the upper part of the shade, the base is fastened to the shade. However, the base may also be fixed under the light source and attached to the shade. In addition, the base is also provided with adjustable fastening means for varying the distance of the hot evaporator pan from the light source in order to vary the intensity of evaporation. An adjustable fastening means for changing the distance of the hot evaporator pan from the light source is provided with a construction formed by at least two grooved posts which are arranged in parallel on the side of the base and are also fastened by screws. Each grooved post of the adjustable fastening component is provided with a longitudinal groove having a set of adjacent angled grooves. An adjustable disc-shaped holder is located between the grooved post sections, the adjustable disc-shaped holder being provided with at least two tombstones that fit into inclined grooves in the same plane. The disc-shaped holder may not be limited in shape, in some cases it is a circle surrounded by a thick solid core line, but it may also be a longitudinal stub or a surface that is simply able to carry the disc, for example. From the viewpoint of stability, it is advantageous to use three grooved column portions corresponding to the three tombstone portions. A configuration provided with two grooved post portions and two tombstone portions may also be used. To facilitate handling during height adjustment of the disc, the adjustable disc-shaped holder may be attached with a control handle for gripping, alternatively the control handle may also be attached to the tombstone. A control handle may be used in this configuration, but the adjustable disc holder may also be without a handle.

Another important feature of the solution according to the utility model is that the fastening member can be flexibly attached to shades of light sources of different diameters and from different manufacturers. This is achieved in that the fastening member of the light source shade holder is adjustable in length. This can be achieved, for example, by a telescopic rod provided with a spring.

The advantages of the adjustable fastening mechanism for a heat evaporator of a shade according to the solution of the utility model are apparent from the effects shown on its exterior. The effect and originality of the present construction lies in the fact that: it is safe because it does not use open flame. The heat source is a light source, for example from a tungsten or halogen lamp or an LED light source.

Evaporation intensity control is provided by a simple mechanism for manually adjusting the hot evaporator pan over the light source. This is also versatile in that it can be attached to various shades with a length adjustable fastening member. In order to change the relative position between the heat source and the heat evaporator, only a smaller number of actions is required compared to other prior art solutions, and thus it is generally faster and easier.

Drawings

The adjustable fastening mechanism for a thermal evaporator of a light shade according to the present invention is illustrated in the accompanying drawings, in which:

figure 1 shows a base provided with a sight glass and a shade fastening member;

fig. 2 and 3 are exploded views showing two parts of an adjustable fastening member for changing the distance of the thermal evaporator pan from the light source, respectively;

FIG. 4 fully illustrates an adjustable fastening component for varying the distance of the hot evaporator pan from the light source;

FIGS. 5 and 6 respectively illustrate an assembled adjustable fastening mechanism for an evaporator of a light source shade;

fig. 7 shows an adjustable fastening mechanism for a thermal evaporator applied in a light shade.

Detailed Description

It should be understood that the various embodiments according to the present invention are presented for purposes of illustration and not of limitation. Those skilled in the art will recognize, or be able to ascertain using no more than routine experimentation, many equivalents to the specific embodiments of the utility model. Such equivalents are intended to fall within the scope of the appended claims. For a person skilled in the art, no consideration needs to be given to the constructional optimal design, and these features are therefore not described in detail.

Example 1

In an example of a particular embodiment of the subject matter of the present technical solution, the construction of an adjustable fastening mechanism for a thermal evaporator of a light shield 8 is described, as shown in fig. 2 to 6. The adjustable fastening mechanism comprises a base 1 provided with an aperture 6. The base 1 has an annular shape. The rod-like fastening member 2 is fastened to the base 1 by means of screws 4. By means of these fastening members 2, the base part 1 is fastened to the shade 8 via the end fastening elements 3, wherein the end fastening elements 3 are hooks. Alternatively, the end fastening element 3 may be a clamp, pin, screw, magnet, or other component. The base 1 is also provided with adjustable fastening means 7 for varying the distance of the thermal evaporator pan from the light source. The adjustable fastening means 7 for changing the distance of the hot evaporator pan from the light source is formed by two grooved posts 7.1, which two grooved posts 7.1 are arranged vertically opposite each other on opposite sides of the base 1 and are also fastened by screws 5. Each grooved column part 7.1 of the adjustable fastening part 7 is provided with a vertical longitudinal groove 7.2, the vertical longitudinal groove 7.2 being provided with an adjoining inclined groove series 7.3. Between the grooved column sections 7.1, horizontally oriented adjustable disc-shaped holders 7.4 are provided, on opposite sides of which adjustable disc-shaped holders 7.4 two stele-shaped sections 7.5 are provided, which two stele-shaped sections 7.5 fit into inclined grooves 7.3 in the same plane. The disc-shaped holder 7.4 is a circular member surrounded by a thick solid line. In an alternative embodiment, the base 1 is not provided with a scope, but is a disk-shaped solid body. In another alternative embodiment the adjustable fastening means 7 for changing the distance of the hot evaporator pan from the light source is formed by three grooved posts 7.1, which are arranged perpendicularly on the side of the base 1 and are also fastened by means of screws 5. Furthermore, the adjustable disc-shaped holder 7.4 is provided with three tombstones 7.5 fitting into the inclined grooves 7.3 of the three grooved column portions 7.1. The disc-shaped holder 7.4 is optionally made in a bounded planar structure provided with a notch, which is not shown in any of the figures.

Example 2

In another example of a particular embodiment of the subject matter of the present technical solution, an improved structure of an adjustable fastening mechanism for a thermal evaporator of a shade 8 is described, as shown in fig. 2 to 6 and as described in example 1. In this example, there are also embodiments in which the adjustable disc-shaped holder 7.4 is connected to an operating handle 7.6, optionally the operating handle 7.6 may also be connected to the tombstone 7.5. The operating handle 7.6 further simplifies the operation of the entire mechanism.

Example 3

In yet another example of a particular embodiment of the subject matter of the present technical solution, another improved structure of an adjustable fastening mechanism for a thermal evaporator of a shade 8 is described, as shown in fig. 2 to 6 and as described in examples 1 and 2. In this example, there is also an embodiment in which the fastening part 2 of the shade 8 holder is adjustable in length. This is achieved by the telescopic rod being provided with a spring, which simplifies the entire adjustment process. As shown in fig. 7, the base 1 is fastened to the shade 8 in an upper portion of the hood 8.

In an alternative embodiment, the base 1 is attached to the shade 8 in a lower portion of the shade 8, which is not shown in any of the figures. Similar fastening of the base 1 in the lower part of the light shield 8 is also possible in other embodiments. Thus, it may be desirable to adapt the fastening of the base 1 to the orientation of the light shield 8 relative to the light source and thus influence, for example, the required evaporation intensity or other technical and aesthetic parameters.

INDUSTRIAL APPLICABILITY

The adjustable fastening mechanism for a heat evaporator of a shade according to the solution of the utility model is intended for the field of available interior fittings.

Claims (11)

1. An adjustable fastening mechanism for a thermal evaporator of a light source shade, characterized in that the adjustable fastening mechanism comprises a base (1), the base (1) being provided with a fastening component (2) for holding the shade, the base (1) being further provided with an adjustable fastening component (7) for changing the distance of a thermal evaporator pan from a light source.

2. The adjustable fastening mechanism for a thermal evaporator for light source shades is characterized in that the adjustable fastening means (7) for changing the distance of the thermal evaporator disc from the light source is formed by at least two grooved columns (7.1) and an adjustable disc holder (7.4), wherein each of the at least two grooved columns (7.1) is provided with a longitudinal groove (7.2) with a set of adjoining oblique grooves (7.3), and the adjustable disc holder (7.4) is provided with at least two stone-like sections (7.5) fitting into the oblique grooves (7.3) between the grooved columns (7.1).

3. The adjustable fastening mechanism for a heat evaporator of a light source shade according to claim 1, characterized in that the base (1) is provided with an aperture (6).

4. The adjustable fastening mechanism for a thermal evaporator of a light source shade according to claim 2, characterized in that the adjustable disc holder (7.4) is provided with an operating handle (7.6).

5. The adjustable fastening mechanism for a heat evaporator of a light source shade according to claim 1, characterized in that the fastening component (2) for attachment to the shade is adjustable in length.

6. The adjustable fastening mechanism for a heat evaporator of a light source shade according to claim 5, characterized in that the fastening member (2) for attachment to the shade is telescopically adjusted by a spring.

7. The adjustable fastening mechanism for a heat evaporator of a light source shade according to claim 6, characterized in that the fastening component (2) for attachment to the shade is provided with a terminal fastening element (3).

8. The adjustable fastening mechanism for a heat evaporator of a light source shade according to claim 7, characterized in that the terminal fastening element (3) of the fastening component (2) for attachment to the shade is a hook.

9. The adjustable fastening mechanism for a thermal evaporator of a light source shade according to claim 7, characterized in that the terminal fastening element (3) of the fastening component (2) for attachment to the shade is a clamp.

10. The adjustable fastening mechanism for a heat evaporator of a light source shade according to claim 7, characterized in that the terminal fastening element (3) of the fastening component (2) for attachment to the shade is a screw.

11. The adjustable fastening mechanism for a heat evaporator of a light source shade according to claim 7, characterized in that the terminal fastening element (3) of the fastening component (2) for attachment to the shade is a magnet.

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