DE102012100178A1 - Glass shaped body, preferably glass rod useful e.g. as furniture handles, door handles, window handles, towel racks and cloakroom elements, comprises a light effect triggering material between glass shaped bodies and a glass covering layer - Google Patents

Abstract

Glass shaped body, preferably glass rod (1) comprises a material (3) triggering a light effect disposed between the glass shaped bodies and a glass covering layer (2). An independent claim is also included for producing a glass shaped body, preferably a glass rod exhibiting light effects, comprising (a) heating a glass gob (5) at 450-550[deg] C, (b) applying the material on the surface of the glass gob, which triggers small-scale light effects, where the material is melted and remains adhered, (c) heating the glass gob at 500-1000[deg] C, (d) cooling at 400-500[deg] C, (e) introducing the glass gob in a bath containing liquid glass for 0.5-5 seconds, coating a glass coating layer on the resulting glass gob, and (f) drawing the glass gob into a rod, and pressing or molding into a mold.

Description

Construction and use of a glass molded body, in particular a glass rod with light effects and method for its

manufacturing

The invention relates to a glass molded body, in particular a glass rod, emanating from the light effects and its use and a method for its preparation.

To provide a glass rod with light effects, materials that interact with the light are disposed between the glass body and a glass capping layer. In particular, luminescent materials are used for this purpose. These materials absorb photons and release the light in the dark so that they shine.

Other lighting effects result from colored or colored glass. Thus, the glass moldings can be designed in accordance with color.

Another possibility is to use reflective materials, so that, for example, mirror or glitter effects can be realized.

The materials that cause the lighting effects are applied to a gob and melted. Subsequently, the gob is heat treated (warmed) and coated in a crystal glass bath or colored glass bath with a glass topcoat. Subsequently, the gob is again heat treated and brought into the desired shape by pressing or pulling a glass rod.

For the glass moldings, in particular as glass rods, there are versatile applications, preferably on furniture and furnishings.

Glass moldings with light effects are known in different designs.

From the CN2828229 is a glass handle known in which are introduced in columnar holes body in different colors and shapes, the holes are then glued.

From the DE 1761175U is a body - here a ball made of a rod - known with light effects. The bulbs should be introduced into blind holes and closed again. It is also proposed to distribute the lamps molecularly.

Both solutions lead to an unsatisfactory result. By a fine distribution, the light source is also arranged directly on the surface of the glass body. So it can come in contact with the skin and aggressive substances or food and thus cause problems there as well as the vitreous. The inclusion of bulbs in cavities requires sticking and is therefore not permanent. Due to leaks, contact with the environment can not be safely avoided. The object of the invention is to provide a solution for the incorporation of light sources and other materials causing light effects, which includes the light effects causing materials so that surface contact is excluded. Furthermore, a method is to be provided which enables a permanent production of glass bodies with the light effect.

The object of the invention is solved by the features of the main claim. The light-emitting materials are located on the glass body and are covered by a glass topcoat. Thus, the light-emitting materials are completely enclosed by glass. Thus, the materials can not contact the environment either via the surface or in any other way. The avoidance of environmental contact makes it possible to use materials that can cause allergic reactions, for example. Due to the closed glass surface, the glass bodies are also suitable for food and skin contact. The glass body is also suitable for outdoor use, since no moisture can penetrate. As a result, the materials used for the lighting effects remain chemically stable.

According to a development according to claim 2, the light effects triggering materials are luminescent, reflective, colored or colored. This light effects of various kinds can be realized with the glass bodies. Different materials can also be combined.

Likewise, the lighting effects can be combined with each other by enclosing different materials in the glass. The glass body can also be designed in particular as glass rods.

According to a development according to claim 3, the glass moldings, especially in rod form, in or as furniture handles (s), doorknobs, window handles (n), towel rack (s), wardrobe elements, toilet roll holder (s), on furniture or as furniture elements, as Curtain rods, used as light strips, as decorative elements or as a sign. This particular handles handles furniture, doors and windows are made luminous. These luminous elements give an orientation in the Room without daylight or artificial light. Likewise, the luminous glass body can serve as handrails on stairs, as a railing, as curtain rods, as parts of wardrobes, as a towel and toilet paper holder as well as a decorative element. In addition, the glass body can be attached for orientation or illumination or incorporated into surfaces.

According to a further object, a method for producing a glass molded body, in particular a glass rod, provided with light effects. The method uses a lot of molten glass, hereinafter referred to as gob. As glass gob also glass rods or glass moldings can be used. This gob is cooled to about 450 to 550 degrees C or heated. Subsequently, a light effects causing material, e.g. as granules, applied to the surface of the gob, the granules are melted there and remains adherent. As granules, different particle sizes up to the powder can be used. Subsequently, the gob with the adhering material is heated to about 500 to 1000 degrees C. As a result, the light-emitting material is further fused or melted and connects to the surface of the gob. The actual temperature depends on the glass composition, the shape of the gob, the type and size of the granules, and the desired effects. The granules should usually melt on the gob. However, the temperature must not be too high to avoid burning of the granules. Preferably, heating to 500 to 750 degrees C is appropriate. At this temperature, even luminizing material takes no damage. For colored glass temperatures up to about 1000 degrees C are possible, whereby usually about 750 degrees C are sufficient.

If necessary, the gob can then be cooled again and the heating repeated. Subsequently, the mixture is again cooled to about 400 degrees C. Subsequently, the gob is briefly covered with a liquid molten glass (1100 to 1200 degrees C), e.g. by immersion, brought into contact. As a result, the gob is coated with the molten light effects triggering material of a glass topcoat. Subsequently, the gob, unless it is to be used in the present form, pulled into a bar or pressed into a mold. He may also by free forms, such. be brought into its final shape by blowing, pulling, pressing, cutting, twisting.

By this procedure glass and light effects triggering material (granules), each with different coefficients of expansion and other physical properties can be bound in a glass body.

According to a development of the manufacturing method according to claim 4, the small-scale light effects triggering material is applied by dabbing on the surface of the glass gob. Dabbing is a proven method for applying glass granules to glass bodies. In the same way can be moved with the luminous granules or other granules with light effects. This transfers an old technology to a new material to produce a new glass quality.

An embodiment according to claim 6 is used as light effects triggering material luminous granules such as photoluminescent or "photoluminescent TPE master stack". Both photoluminescent pigments and "photoluminescent TPE masterstocks" are luminescent substances with a different thermal behavior than glass. By means of the method it is possible to combine the outstanding luminous properties of photoluminescent pigments or "photoluminescent TPE masterstack" with the material glass in a glass body. The process makes it possible that in the end product the photoluminescent pigments or "photoluminescent TPE master stacks" have no contact with the surface of the glass body.

According to a development according to claim 7, the light effects triggering material is colored glass or colored glass. Through the use of colored glasses, it is possible to create creative effects on the glass bodies. The combination of colored glass and photoluminescent pigments or "Photoluminescent TPE Master Stack" increases the variety of realizable effects. Another way of achieving specific lighting effects is according to claim 8 by the use of reflective materials, such as e.g. of metal swarf or metal flakes.

According to a development according to claim 9, the glass rod is a hollow profile. Thus, further design options can be realized. For example, a metal tube, e.g. reflective, or light sources, such as e.g. LED, be introduced. Likewise, hollow profiles offer advantages through weight reduction and material savings.

According to a development according to claim 10, the glass rod is completely or partially bent or freely formed. By bending the glass rod, the variety of uses and the design options are extended. This allows curved handles and other design forms to be realized.

By subsequent heating, the glass body z. B. at the ends, for example, by twisting, crushing, pressing, pulling or molding of figures are decorated. By these free-form techniques, for example, balls, snails, cones, hearts, rings, etc. can be designed.

Several embodiments of the invention are illustrated in the drawings and will be described in more detail below.

Show it:

1 a glass rod in section,

2 a glass rod in section in another embodiment,

3 a furniture handle,

4 the process steps for producing a glass molded body with light effects,

5 the process step dabbing and

6 the process step immersion in liquid glass.

1 shows one as a glass rod 1 executed vitreous body 1 in cross section. On the glass rod 1 is a light effects triggering material 3 such as a luminescent material 3 arranged. The luminescent material 3 is in turn of a glass topcoat 2 covered. This has the luminescent material 3 no contact with the surface and therefore can not react chemically with the environment. Nor can luminescent material 3 get into the environment.

From 1 starting shows 2 another version of the glass rod 1 wherein the luminescent material 3 does not form a closed layer. The luminescent material 3 is also here completely of a glass topcoat 2 enveloped outside. By only a partial application of luminescent material 3 Specific effects can be induced. Analogous to the luminescent material 3 can trigger other lighting effects materials 3 , such as reflective materials and colored materials are used. Likewise, a combination of different, light effects triggering materials 3 possible. These materials can also be realized in different layers with and without separation by a further glass cover layer (not shown).

3 shows an example of a furniture handle 4 with a glass rod according to the invention 1 , The glass rod 1 is through a bracket 7 held on the one hand and on the other hand on the furniture (not shown) attached.

The glass moldings with light effects, in particular glass rods 1 , are versatile. So you can as or in door handles, furniture handles (n) 4 , Window handle (s), towel rail (s), wardrobe elements (n), toilet roll holder (s), be used on furniture or as furniture elements, as curtain rods, as light bars, as decorative elements or as a sign.

In 4 the sequence of the method for producing the glass moldings is shown. In this case, a quantity of glass, a so-called gob is used. This gob may already be a glass rod. Preferably, the amount of glass should correspond to the amount corresponding to the size of the shaped glass body to be molded. This glass molded body may be, for example, a glass rod pulled out of a gob. The gob is brought to a temperature of about 450 to 500 degrees C. A. The gob is usually removed from a glass melting furnace and cooled to the temperature of about 500 ° C. A. The cooling A can be passive or active. Subsequently, a finely divided material which causes light effects is applied to the gob. B. In the manual implementation of the method, the application of the material B can be done by dabbing. This process step is in 5 shown. For this purpose, the material is in the form of granules 3 in a heat-resistant container 8th , The viscous gob 5 , of an iron (starter iron or glassmaker pipe) 9 is held in this container 8th spotted. The surface of the gob merges 5 and granules 3 with each other, leaving the granules 3 at the gob 5 sticks. To get a uniform layer of light-emitting material 3 In the final product, the granules should 3 evenly on the gob 5 be distributed. By targeted uneven distribution of the granules 3 certain effects can be achieved.

The following is corresponding to illustration in 3 heating C of the gob to 500 to 750 degrees C. This heating, also referred to as annealing, causes the granules to further dissipate on the surface of the gland and thereby connect more extensively to the glass gob surface. The upper limit temperature must be chosen so that the granules do not burn or otherwise take damage.

Subsequently, a cooling D of the gob takes place at about 450 degrees C. This gob and granules combine firmly and consistently with each other.

Below is the gob 5 , as in 6 shown in a glass bath 6 (1100 to 1200 degrees C) dipped and thus coated with a glass top layer of about 1 to 100 mm E. The strength of the glass coating depends inter alia on the subsequent shaping and the subsequent use or the desired lighting effects. The step of immersing E in liquid glass can also be carried out repeatedly in order to avoid burning or to achieve the desired layer thickness.

This "glazed" gob becomes, as in 3 shown, subsequently formed in the desired shape F. The mold may be a mold. Advantageously, the production in the form of a rod by appropriate pulling at about 450 to 1000 degrees C. The drawing causes a change in shape of the gob while maintaining the layer structure. Thus, a glass coating is also obtained in the final product, which separates the lighting effects triggering material from the environment. Even with a later accidental breakage, the light-emitting material can not come into contact with the environment because it is fused with the glass. The final shape of the gob also can be made by free-forming.

Both pressed glass pieces and glass rods can subsequently be deformed by heating. Glass rods can be bent into geometric shapes and letters or numbers. Furthermore, embellishments can be formed at the ends.

LIST OF REFERENCE NUMBERS

1

Glass moldings, glass rod

2

Glass topcoat, glass cover

3

Light effects triggering material, luminescent material, granules, colored glass, colored glass,

Reflecting material

4

furniture handle

5

Glass quantity, gob

6

Glass bath, liquid glass

7

Holder, handle holder

8th

container

9

Iron, starter iron, glassmaker pipe

A

Cooling / heating to about 450-500 ° C

B

Applying the light effects triggering material

C

Heating to 500-750 ° C

D

Cool to about 450 ° C

e

Immersion in bath with liquid glass

F

shape

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• CN 2828229 [0009]
• DE 1761175 U [0010]

Claims (10)

Glass moldings, in particular glass rods, characterized in that between the glass molded body ( 1 ) and a glass topcoat ( 2 ) Light effects triggering material ( 3 ) is arranged. Glass moldings, in particular glass rods according to claim 1, characterized in that the light effects triggering material ( 3 ) a luminescent, reflective colored or colored material ( 3 ). Glass moldings, in particular glass rods according to one of claims 1 or 2, characterized in that the glass moldings ( 1 ), especially glass rods ( 1 ), in or as furniture handles (s) ( 4 ), Doorknobs, window handle (s), towel rail (s), wardrobe elements, toilet roll holder (s) to be used on furniture or as furniture elements, as curtain rods, as light bars, as decorative elements or as a sign. Process for producing a glass molded body, in particular a glass rod with light effects, according to one of claims 1 to 3, characterized in that a gob ( 5 ) brought to a temperature of about 450 to 550 degrees C (A) and then a small-scale light-emitting material ( 3 ) on the surface of the gland ( 5 ) is applied (B), the material ( 3 ) is melted and sticks, then the gob ( 4 ) is heated to 500 to 1000 degrees C (C) and then cooled to about 400 to 500 degrees C (D), followed by the gobs ( 5 ) For 0.5 to 5 seconds in a bath ( 6 ) with liquid glass (E) and thus with a glass topcoat ( 2 ) and subsequently the gob ( 5 ) to a rod ( 1 ), pressed into a mold or otherwise shaped (F). A process for producing a glass molded body with light effects according to claim 4, characterized in that the small-scale light effects triggering material ( 3 ) by dabbing on the surface of the gland ( 5 ) is applied (B). Process for producing a glass molded body with light effects according to one of Claims 4 or 5, characterized in that material triggering small-sized light effects ( 3 ) Light granules, such as photoluminescent or "photoluminescent TPE master stack" are used. A process for producing a glass molded body with light effects according to claim 4 or 5, characterized in that the small-scale light effects triggering material ( 3 ) Is colored glass granules or colored glass granules. A process for producing a glass molded body with light effects according to claim 4 or 5, characterized in that the small-scale light effects triggering material ( 3 ) is reflective. Process for producing a glass molded body with light effects according to one of Claims 4 to 8, characterized in that the glass rod ( 1 ) is a hollow profile. Process for producing a glass molded body with light effects according to one of Claims 4 to 9, characterized in that the glass rod ( 1 ) is completely or partially bent or free-formed.

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