DE102011079789B3 - Thermal isolator with fusible link - Google Patents

Abstract

The invention relates to a thermal isolator with fusible link, in particular for use in fire extinguishing technology, which is subjected to tensile stress and triggers in a predetermined temperature range, consisting of the multi-part base body (1), the fusible link (3) and attachment options on the base body (1), wherein in a cavity (2) of the multi-part base body (1) a fusible link (3) made of amorphous material is arranged, the multi-part base body (1) is held by means of retaining rings (4) and fusible link (3), the fusible link (3) Exceeding a predetermined temperature melts and the base body (1) are separated from each other by means of tensile force. The invention has the advantage that no substances with toxic properties arise in an aggressive atmosphere and in hygienic areas.

Description

The invention relates to a thermal isolator with fusible link according to the preamble of the first claim.

The invention is applicable everywhere, where a thermal isolator is arranged with fusible link and triggers when exceeding a certain temperature. In particular, the invention is suitable for use in sanitary areas and in areas with an aggressive atmosphere. This can for example be the case in kitchens, bathrooms, gastronomic areas. Thermal isolators with a fusible link are known. They are usually stressed to tensile stress. To do this, you can attach the thermal fusion solder between two tension cables and exert a certain tensile force on the thermal isolator.

DE 33 44 745 A1 describes a device for opening venting devices with a thermal isolator with fusible link, which is particularly suitable for use in fire-fighting equipment. The thermal isolator is stressed to tensile stress and triggered in a predetermined temperature range. It consists of the multi-part body, the fusible link and the mounting options on the body, the fusible link melts when exceeding a predetermined temperature and the main body are separated by pulling force. The thermal isolator is not held together by means of retaining ring, wherein the fusible link is not made of an amorphous material.

DE 41 31 859 A1 describes a fire protection valve with closing spring for automatic shut-off of lines, the shut-off consists of a metallic ball whose diameter with a diameter of a machined into the housing of the valve bore when closing the valve forms a snug fit and a fusible link disposed in the opening of a cup is and when heated in a fire, the fusible link releases a barrier.

US Pat. No. 3,863,720 describes a fusing solder on a sprinkler, which melts when a certain temperature is exceeded, so that the sprinkler can be triggered.

DE 202 09 353 U1 describes a stationary fire extinguishing system and a trigger mechanism consisting of the extinguishing agent container with transmission elements and a trigger head, extinguishing pipes with extinguishing nozzles, the fire detection element, the thermal isolator and the tensioning device and a cable. To trigger a thermal isolator is used, which is not described in detail. The document deals in particular with the use of thermal isolators, which are installed in hoods of kitchen appliances.

DE 94 09 609 U1 describes a fire protection device for closing a ventilation opening with a maintenance-friendly locking mechanism with a fusible link which acts in conjunction with springs. Information on the material of the fusible link can not be found in the document. The fusible link releases a spring, which triggers another mechanism.

DE 1 108 569 A describes a fusible link for the triggering device of fire extinguishing systems, which consist of two parts connected together by a fusible link and is turned on by means arranged at a free end of the parts eyelets in a tensioned release system. In the interconnected parts are parts that are designed in a manner in a piston-cylinder connection, between which a fusible link is arranged, which holds this piston-cylinder connection together until a certain temperature is exceeded and the Lot melts and triggers the device.

DE 35 38 374 C2 describes a trigger device for the automatic closing of two-part folding shutters with a lever mechanism in which a fusible link and a spring mechanism are arranged for triggering.

DD 242 462 A1 describes a device for driving and controlling actuators, as used in fire dampers. When a limit temperature is exceeded, a mechanism is triggered by melting a molten solder, the fire dampers closes. Information on the material of the fusible link can not be found in the document.

The known fins are usually soldered to bodies consisting of copper alloys. Copper alloys form by oxidation a so-called patina, which is known as verdigris. Due to the toxic properties of verdigris, these thermal isolators are not suitable for use in hygiene or gastronomy.

Areas in which an aggressive atmosphere prevails lead to a rapid oxidation of the copper alloys, so that in these areas particularly quickly substances with toxic properties. Therefore, the mentioned thermal isolators are not used in these applications.

It is therefore an object of the invention to develop a thermal isolator with fusible link, which does not have these disadvantages and does not form toxic substances and thus can be used in sanitary areas or in catering.

This object is achieved by a thermal isolator according to the features of the first claim.

Subclaims give advantageous embodiments of the invention again.

The solution according to the invention provides a thermoterrelling element with fusible solder, which is suitable for use in fire-extinguishing technology and is subjected to tensile stress, this triggers in a predetermined temperature range, without developing toxic properties by the formation of verdigris.

Under fusible link all materials are understood that change their state of aggregation as a solid body above a certain temperature, for. B. become liquid.

The separating member according to the invention consists of at least two main bodies connected by a retaining ring, which have at their connection point a cavity in which a fusible link is arranged. This fusible link is designed to fill the cavity at the junction. Cavity and fusible link can be advantageously formed in a rod or spherical shape. Conceivable, however, are all other suitable shapes such as a cube shape or a cylindrical shape. In order to enable a quick heat transfer to the fusible element, the base body has at least one rib. Several ribs are conceivable. The ribs may be cylindrical ribs. So that the main body can be fastened to the tension elements, for example ropes, it is advantageous if it has eyelets on both sides. Furthermore, it is advantageous that each of the interconnected base body has a flat surface to each other. The retaining ring may be a metal ring, which connects the two bodies together. The retaining ring forms with the basic bodies a clearance fit, so that the tensile forces act on the fusible link in the cavity and the bodies are not pressed together by the retaining ring.

The main body consists of a not connected to the fusible link and stainless material. These may be, for example, stainless steel, ceramics or metals with chrome-plated or nickel-plated surfaces.

The solution according to the invention has the advantage that, in an aggressive atmosphere and in hygiene areas, no substances with toxic properties are formed.

In the following the invention will be explained in more detail with reference to an embodiment and a figure.

The figure shows the thermal isolator according to the invention in a schematic representation in partial section, which consists of two ribbed bodies 1 exists that have the same geometry. In a cavity 2 formed by the main bodies is a geometrically determined amorphous piece, the fusible link 3 , inserted, which melts at a predetermined temperature and not with the main body 1 can be soldered. When a certain temperature is exceeded, the melting solder 3 liquid. Both basic body 1 be through the retaining ring 4 held together with the main body 1 forms a clearance fit. A displacement of the body against each other is due to the intervening fusible link 3 prevented. The bodies are eyelets at both ends 5 provided on which cables via tensile stresses on the fusible link 3 be applied. To the ambient temperature as quickly as possible on the fusible link 3 to transfer, are at the main body 1 ribs 6 arranged for heat absorption. When a certain predetermined temperature is exceeded, the melting solder melts 3 and the main body 1 are separated from each other by the tensile stress by passing them through the retaining ring 4 to be pulled.

LIST OF REFERENCE NUMBERS

1

body

2

cavity

3

fusible

4

retaining ring

5

eyelet

6

rib

Claims (7)

Thermotrennglied, consisting of two basic bodies ( 1 ), which are connected under tension with each other and between which a fusible link ( 3 ) by means of a retaining ring ( 4 ) is held so that when the melting temperature of the fused solder ( 3 ) the two basic bodies ( 1 ) detach from each other, characterized in that the basic bodies ( 1 ) at the joints a cavity ( 2 ) in which the fusible solder ( 3 ) is arranged from amorphous material and the cavity ( 2 ) at the junction and the body ( 1 ) from one with the fusible link ( 3 ) consists of non-bonded and non-rusting material. Thermal isolator according to claim 1, characterized in that the cavity ( 2 ) and the fusible link ( 3 ) are rod-shaped or spherical. Thermal isolator according to one of claims 1 or 2, characterized in that each of the basic body ( 1 ) at least one rib ( 6 ) having. Thermotrennglied according to one of claims 1 to 3, characterized in that each of the basic body ( 1 ) at least one eyelet ( 5 ) has for fastening a tension element. Thermal isolator according to one of claims 1 to 4, characterized in that the basic body ( 1 ) to the other main body ( 1 ) has a flat connection surface. Thermal isolator according to one of claims 1 to 5, characterized in that the basic body ( 1 ) consists of a non-solderable and stainless material. Thermal isolator according to one of claims 1 to 6, characterized in that the thermal isolator is used in the fire-extinguishing technique.

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