DE20003637U1 - Heater for heating flowing media - Google Patents

Description

PATENT ATTORNEY DR**SfA ^# RK -*MOERSER"STRASSE 140 · D-47803 KREFELD

Attorney file: 99 267 / 4 th

UES Klebetechnik GmbH, Römerstrasse 15, 47809 Krefeld
Herbert Armbruster, Graf-Eberstein-Strasse 32, 76199 Karlsruhe

Heating for heating flowing media

The invention relates to a heater for heating flowing media, in particular gaseous media, wherein a flow channel connected in a heat-conducting manner to a heating element is provided for heating the medium flowing through it.

In practice, such heaters are used, for example, in hot glue spray application devices for heating spray air. These heaters usually consist of an aluminum cuboid to which a heating element is flanged on one side, with a meandering flow channel in the aluminum cuboid that is open to the heating element and which in turn is closed by the heating element attached to the aluminum cuboid. As the air flows through the flow channel, it is heated both by the surface of the heating element that delimits the flow channel and by the channel walls of the aluminum cuboid heated by the heating element.

The disadvantage here is that, especially at high air throughput, only limited amounts of heat can be transferred and therefore only certain air temperatures can be achieved.

PATENT ATTORNEY DR.* STARK · 'mOERSER'STRASSE 140 · D-47803 KREFELD

The object of the invention is to avoid the aforementioned disadvantages and to provide a heater for heating flowing media, in particular gaseous media, in which the heating performance is increased.

This object is achieved by a heater for heating flowing media, in particular gaseous media, wherein a flow channel connected to a heating element in a heat-conducting manner is provided for heating the medium flowing through it, in which the flow channel has a sintered body made of a large number of small, in particular spherical components pressed into shape under pressure, through which the medium can flow due to the gaps remaining between the pressed components. Due to the structure of the sintered body, a very large heat exchange surface is created, whereby the transferable heat output is significantly increased even at high medium throughputs.

The sintered body can consist at least partially of aluminum parts, so that the heat transfer to the medium flowing through the sintered body is further improved due to its good thermal conductivity.

Preferably, the sintered body can have an annular, in particular circular, cross-section, be arranged in a correspondingly designed housing surrounding it and enclose the suitably shaped heating element arranged in its central free space, so that a more uniform heating of the sintered body and thus also of the medium flowing through it is achieved.

The heating element and the sintered body as well as the inner contour of the housing surrounding the sintered body can

PATENT ATTORNEY DR.**SfÄf?K · 1C10ERSER*Str*ÄSSE 140 ■ D-47803 KREFELD

each have circular or annular cross-sectional areas, so that in addition to simple production and easy assembly, a particularly uniform heat exchange takes place.

According to the invention, the heating element can be an electrical heating element, so that no further connections are necessary besides a power supply and thus the arrangement of the heating element is not dependent on supply lines, seals or the like.

Advantageously, the heating element can be replaceable so that in the event of a defect, the entire heater does not have to be replaced. The heating element can even be replaceable without dismantling the heater.

In a preferred embodiment of the invention, the heater for heating the spray air can be integrated into a hot glue spray application device, so that a very compact design is possible due to the particularly good performance values of the heater according to the invention, whereby the heater can be arranged in the immediate vicinity of the hot air application and energy losses due to longer supply rates are avoided. This also means that the hot glue spray application device can be kept particularly compact.

An embodiment of the invention shown in the drawing is explained below. The single figure shows a hot glue spray application device 1 with a nozzle head 2 and a heater 7. A channel 3 for the glue supply is provided in the nozzle head 2, and air outlet nozzles 4 are arranged, the outlet directions of which intersect in the extension of the channel 3. The

PATENT ATTORNEY DR. STARK · MOERSER STRASSE 140 · D-47803 KREFELD

Air outlet nozzles 4 are connected to the heater 7 by means of an annular duct 5 and another air duct 6.

The heater 7 in turn consists of a hollow cylindrical sintered body 8, which is surrounded on the outside by a housing 9 and encloses a cylindrical heating element 10 arranged there in its central free space. For this purpose, the housing 9 has a cylindrical cavity 11 in which the heating element 10 is held in particular in a fit, e.g. H7, and through which the supply lines 12 are led out. A particularly tight fit results in an even better heat transfer from the heating element 10 to the sintered body 8.

Furthermore, the housing 9 has an air supply channel 13, and a temperature sensor 15 is provided in a further opening 14, which extends into a free area 16 adjoining the air channel 6 in front of the heating element 10 and the sintered body 8.

When the hot glue spray application device 1 is in operation, air is pressed into the air supply channel 13 and flows through the sintered body 8 through the gaps remaining between the pressed components. The air from the sintered body 8 heated by the heating element 10 is heated up considerably during the flow, even at high volume throughputs, due to the very large heat exchange surface and flows through the free area 16 and the air channel 6 as well as the ring channel 5 through the air outlet nozzles 4. At the same time, adhesive is fed through the channel 3, which exits from the channel 3 and is entrained and distributed in a fine spray by the air that is focused on an intersection with it and flows out of the air outlet nozzles 4. The temperature sensor 15

PATENT ATTORNEY DR.* STARK · "mOERSER'sSTRÄSSE 140 · D-47803 KREFELD

the air temperature in the free area 16 is measured to regulate the heating element 10.

In the event of defects or the like, both the temperature sensor 15 and the heating element 10 can be removed from the heater 7 through the opening 14 or the cavity 11 and, if necessary, repaired or replaced, so that dismantling or replacing the heater 7 as a whole is not necessary.

Claims (7)

1. Heating ( 7 ) for heating flowing media, in particular gaseous media, wherein a flow channel connected in a heat-conducting manner to a heating element ( 10 ) is provided for heating the medium flowing through it, characterized in that the flow channel has a sintered body ( 8 ) made of a plurality of small, in particular spherical components pressed into shape under pressure, which can be flowed through by the medium due to the gaps remaining between the pressed components. 2. Heater ( 7 ) according to claim 1, characterized in that the sintered body ( 8 ) consists at least partially of aluminum parts. 3. Heater ( 7 ) according to claim 1 or 2, characterized in that the sintered body ( 8 ) has an annular, in particular circular, cross-section, is arranged in a correspondingly designed housing ( 9 ) surrounding it and encloses the suitably shaped heating element ( 10 ) arranged in its central free space. 4. Heater ( 7 ) according to claim 3, characterized in that the heating element ( 10 ) and the sintered body ( 8 ) as well as the inner contour of the housing ( 9 ) surrounding the sintered body ( 8 ) each have circular or annular cross-sectional areas. 5. Heater ( 7 ) according to claim 3 or 4, characterized in that the heating element ( 10 ) is an electrical heating element ( 10 ). 6. Heater ( 7 ) according to one of claims 3 to 5, characterized in that the heating element ( 10 ) is replaceable. 7. Heating ( 7 ) according to one of claims 1 to 6, characterized in that the heating ( 7 ) for spray air heating is integrated into a hot-melt adhesive spray application device ( 1 ).