WO2019158140A1

WO2019158140A1 - Facility for producing a metal component

Info

Publication number: WO2019158140A1
Application number: PCT/DE2018/100965
Authority: WO
Inventors: Volker Flesch; Björn Müller; Patrick Müller; Maik Winderlich; Thorsten Wisnia
Original assignee: GEDIA Gebrüder Dingerkus GmbH
Priority date: 2018-02-13
Filing date: 2018-11-28
Publication date: 2019-08-22
Also published as: DE102018103141A1

Abstract

The invention relates to a facility for producing a metal component having at least two regions of different strength properties, said facility consisting of a heating unit (1) comprising heat-producing radiation sources (2) as well as a positioning device for a plate (4) or similar base body consisting of metal, and a protecting device comprising at least one covering part (3) for protecting a pre-determined surface region (6) of the plate (4) or the base body, the protecting device being arranged in the heating unit (1) such that it remains therein during a temperature control of the plate (4) or the base body before the forming of said plate or base body in a forming tool, where the surface of the covering part (3), facing away from the protected surface region (6), is embodied as a radiation reflector (5), or a radiation reflector (5) is applied to said surface.

Description

Apparatus for producing a metal component

The invention relates to a device for

Production of a metal component with at least two regions of different strength properties, consisting of a heating unit with

heat generating radiation sources and with a positioning device for a board or

like basic body of metal, one

Shielding device with at least one cover member for shielding a predetermined surface area of the board or the base body, wherein the

Shielding device to stay in the

Heating unit is designed while a

Tempering of the board or the body before its transformation in a forming tool.

Such devices are described for example in DE 10 2012 016 075 B4. With regard to the problem of the production of metal components, in particular steel components with at least two

Regions of different strength properties, reference is made to this document. These

Problems and possibilities to solve the

Production of such parts are given in the document. In particular, the document also states that for the production of metal components with at least two regions different

Strength properties within it

Components that are different

Cooling rates of the different areas are achieved, as follows. A metallic body, preferably of steel, is heated to austenitizing temperature and provided. A portion of the body is shielded during a subsequent heat application of the base body until the

Component temperature of this range to one

predetermined temperature below the

Austenitizing temperature, but has dropped above the Martensite start temperature, wherein in this component area a medium

Cooling rate below the for

Martening critical cooling rate prevails, while the unshielded area is kept at least Austenitisierungstemperatur. Subsequently, the shield is removed and the main body with the graded

Temperature profile is subjected to a forming process by a tool, wherein at least in the previously unshielded area a

Cooling rate above the for

Martening critical cooling rate prevails.

The publication is a corresponding

Shielding described as well as their function and arrangement. In the publication is also a

Problem indicated, which is the basis of the present invention. Since the shield during the

Remaining of the metal component in the

Heating unit remains or is carried, the shield itself is a high heating

subjected, in particular by the

Radiant heat of the heating unit. Because the Surface of the shield may preferably also consist of aluminum, should be prevented that this melts. This should be achieved by a targeted tempering / cooling of the cover. Such cooling of the shield is specified in the document. Such cooling is very expensive, since it must be carried with the shielding and therefore also with all the connections, leads and discharges in the hot furnace chamber of the heating unit

is located. For this reason, the design and arrangement of a separate cooling for the

Shielding not practicable.

The fact is, however, that the objects in the

Heating unit to be introduced, ie

For example, take a board or a body made of metal, at least in the unshielded area, the temperature of the heat treatment chamber.

Likewise, the components of the

Shielding with time this in the

Heat treatment rooms set temperature. Objects that have a lower melting temperature than the set temperature would therefore have to be cooled, which has already been discussed above and is considered disadvantageous. This would also require an increased cooling cost of the shielding in the heat treatment chamber, which counteracts the heating power of the radiation sources, which in the

Heating unit for the purpose of heating

are introduced. The radiation sources would thus have a significantly higher energy consumption. Based on this prior art, the present invention seeks to provide a device of the generic type, without

additional cooling and the resulting reduction in heating power and the resulting higher energy consumption ensures a permanent use of shielding, without these take after a short time the temperature that prevails within the heating unit.

To achieve this object, the invention proposes that the shielded surface area facing away from the surface of the cover is formed as a radiation reflector or on this surface

Radiation reflector is applied.

In that at least the surface of the

Covering, which is remote from the shielded surface area, is designed as a radiation reflector or a radiation reflector is applied to this surface, is a reflection of

Radiant heat reached by the

Radiation sources is delivered in the heating unit. This ensures that the temperature of the cover even longer time does not accept the temperature within the heating unit, as essential components of the radiant heat

be re-blasted. By the lower

Temperature absorption in the shielding even occur even lower heat losses. The melting point of the shielding components is thus also under control. It is even achieved an increase in process accuracy, because the shape retention the cover parts is better manageable, as with shielding not with the corresponding

Radiation reflectors are equipped so that the process accuracy (transition zone at the

corresponding product board or the main body) is increased.

In addition, it is achieved by this embodiment of the invention that the heat generated by the radiation sources remains in the heating unit and is not dissipated by cooling, which would lead to a higher energy consumption.

A possibly preferred development is seen in the fact that a mirror layer or a mirror is applied to the surface of the cover as a radiation reflector.

The radiation reflector may be applied as a mirror layer on the corresponding surface of the shielding device or be applied in the form of a mirror on the surface of the cover member,

for example, directly or to form an air gap. The desired

Radiation reflection is thereby achieved in a simple manner and very safe.

Alternatively it can be provided that as

Radiation reflector a shiny metallic

Coating, preferably as a chromium plating layer, is applied to the surface of the cover.

For this it is necessary, for example, on the cover at least in the area of the shielded Surface area facing away from a surface

apply metallic coating. These

Metallic bright coating has a mirror effect.

For example, this metallic bare

Be coated coating as chrome plating.

As a further alternative solution can be provided that the cover is made of aluminum material and its surface to form the

Radiation reflector is polished.

It can also be provided that a plurality of radiation reflectors or radiation reflection layers are applied to one another on the surface of the cover part.

In particular, it is provided in a manner known per se that the cover part consists of light metal, in particular aluminum material.

If, as provided, the cover member made of light metal, in particular aluminum material, the desired Strahlungsreflektorausbildung can be created in a simple manner by the surface is polished so that they

is radiation reflective.

The embodiment of the invention is extremely simple and provide low cost, the technical effect is excellent. An embodiment of the invention is shown schematically in the attached diagram and described in more detail below.

The single drawing figure shows a corresponding device seen in longitudinal section.

The device is used to produce a

Metal components 4 with two sections

different strengths, wherein the area 6 is the so-called soft area, during the

Area 7 is the hard area of higher strength.

In essence, the device consists of a heating unit 1, here as closed

Heat treatment room is shown, the

Heating unit 1 a whole number of

having heat generating radiation sources 2. Further, in the heating unit, a

Positioning device for a board 8 or the like basic body made of metal provided. The circuit board 8 is a continuous element, wherein the dividing line between the parts with the reference numeral 4 indicates only the structural change, but not that this would be two parts.

To the desired shielding of the part 6 to

reach, a shielding device with two cover parts 3 is provided, which cover the corresponding area of the board 4 on the top and bottom. This shielding device is intended to linger in the heating unit 1 and designed while the board 4 is tempered. After the appropriate temperature, the board from the Heating unit 1 a forming tool for

Forming supplied, which is not shown in detail in the drawing. The special feature here is that the shielded surface area 6

opposite surface of the cover 3 is formed in each case as a radiation reflector 5 or on this surface, a radiation reflector 5 is applied. The radiation reflector 5 can be realized in different forms. For example, the

Radiation reflector 5 may be a mirror layer or a mirror or the one applied to the surface of the cover member 3 or adjacent to the

Surface of the cover 3 is held. Also, as a radiation reflector 5, a bare metallic coating, for example a chromium plating layer, may be provided. In addition, the cover 3 may be polished on its upper side in order to achieve the corresponding effect of a radiation reflector, which is particularly possible in a simple manner when the cover 3 is made of aluminum material.

Optionally, also on the surface of the

Cover 3 each have an arrangement of a plurality of stacked radiation reflectors 5 may be applied.

The invention is not limited to the exemplary embodiment, but within the scope of the disclosure

often variable.

All new disclosed in the description and / or drawing single and combination features are considered essential to the invention.

Claims

claims

1. Apparatus for producing a metal component with at least two regions of different strength properties, consisting of a heating unit (1) with heat-generating

Radiation sources (2) and with a

Positioning device for a circuit board (4) or the like base body made of metal, a

Shielding device with at least one

Cover (3) for shielding a

predetermined surface area (6) of the board (4) or the base body, wherein the

Shielding device to stay in the

Heating unit (1) is designed, during a temperature control of the board (4) or the

Basic body before its transformation in one

Forming tool, characterized in that the shielded surface area (6) facing away from the surface of the cover (3) as

Radiation reflector (5) is formed or on this surface a radiation reflector (5) is applied.

2. Apparatus according to claim 1, characterized

in that a mirror layer or a mirror is applied to the surface of the cover part (3) as the radiation reflector (5).

3. Apparatus according to claim 1 or 2, characterized

characterized in that the radiation reflector (5) is a bare metallic coating,

preferably as a chromium plating layer, is applied to the surface of the cover (3).

4. Apparatus according to claim 1 or 2, characterized in that the cover part (3) consists of aluminum material and whose surface is polished to form the radiation reflector (5).

5. Device according to one of claims 1 to 4, characterized in that on the surface of the cover (3) a plurality of radiation reflectors (5) or radiation reflection layers

are applied to each other.

6. Device according to one of claims 1 to 5, characterized in that the cover part (3) made of light metal, in particular

Aluminum material, consists.