DE102005024293A1 - Gravity casting mold has at least one channel for a heating medium, linked to a heating unit, to give a controlled mold temperature - Google Patents

Abstract

The assembly to produce a casting, uses a gravity mold (10) with at least one channel (12) to carry a heating medium of water, oil or air. The channel is linked to a heating unit (30) with inflow (18) and outflow (20) lines.

Description

The The invention relates to a device for producing a molded part by means of gravity chill casting, and a method for producing molded parts by means of gravity die casting according to the preamble the independent one Claims.

At the Casting process becomes hot, liquid metal placed in a mold, or a mold, which is then cooled while solidifying in the mold to a molding. A focus in the Gravity chill casting lies in the directional and fast heat and heat dissipation.

At the pour in of the liquid Metal it can happen that due to the high temperature differences between the liquid Metal and the mold cracks are formed in the mold and these thus becomes unusable. To avoid this, the mold is present the filling heated. This is the mold by means of a gas flame, before the melt is filled, at casting temperature brought. This creates stresses in the mold, as a homogeneous Temperature distribution throughout the mold can not be achieved can. The gas flames have the disadvantage that they safety are not safe and high efficiency at low efficiency cause.

Further It is a goal in chill casting, the mold after filling, if possible to cool specifically and evenly. These heat dissipation is realized by the introduction of channels in the molds. These channels be with air, oil or Water flows through. The respective cooling medium has usually then the local Ambient temperature. By mixing with the warm form and cold Medium creates the desired Temperature. This process takes place by means of external cooling systems, due to strong fluctuations in the cooling temperature, by interval-like Cool, often result in the resulting cast being unacceptable quality can have.

task The invention is to provide a device which the reduced disadvantages mentioned above, as well as a cost-effective and a rapid method for producing a casting by means of gravity die casting provide.

These Task is already according to the invention with the characteristics of the independent claims solved.

preferred embodiments and further developments of the invention are the respective dependent claims remove.

The inventive device for producing a molded part by means of gravity chill casting sees before that a mold at least one channel for receiving a Temperiermediums having, wherein the channel connected to a temperature control unit is.

A such device allows an introduction of a tempering medium in the mold, by means of of the temperature control unit a desired temperature can be set or controlled. With this device can Thus, a mold can be tempered exactly in a simple way. At least a channel enters the tempering directly into the mold Contact, where there is heat can be released or absorbed by the temperature control medium. By the temperature control unit is it possible that the casting process is recorded more precisely, since the temperature budget can be specified more precisely and determinable. Thereby can Seasonal fluctuations of the coolant temperatures balanced and a complex external cooling system is unnecessary.

The Invention provides that each channel via a supply line and a drain line connected to at least one temperature control unit is. The temperature control so passes from the temperature control over the Inlet pipe in the channel of the mold, flows through this and passes through the drain line back to the temperature control unit. It creates a cycle through which the temperature control medium flows.

in this connection it is advantageous if the supply line and the drain line include a material that conducts heat poorly, so that little heat energy the temperature control is lost if this is the supply line or the drain line flows through.

In an advantageous embodiment, the invention provides that the channel has an inlet opening and a drain hole having, wherein the inlet opening the supply line and the drain opening the Drain line receives. Furthermore, it is also possible that the channel has only one opening, which both an inlet opening as well as a drain opening has and both the supply line and the drain line receives. In this case, the channel is in the mold as a loop educated.

Through the use of temperature control devices, a targeted solidification can take place. It is conceivable that different temperatures are set in a mold with a plurality of cooling channels. The arrangement and the dimensioning of the channels depends on the size of the mold. It can take place as a directional solidification in the direction of the feeder and thus the cycle time can be reduced with the same or better quality of the casting. Furthermore, the strength can be targeted to localize. Another positive side effect is the rapid cooling of the mold slide, which also faster cooling of the casting is achieved.

It it has been shown that it is beneficial if the mold at least a first channel for receiving a tempering for cooling and at least a second channel for receiving a tempering for heating having. It is thus made possible that the mold over heated the first channel and over cooled the second channel becomes.

There Tempering a high inertia in terms of temperature changes have, it is advantageous if a temperature control for heating and a temperature control unit for cooling is used. This creates two separate circuits, of which one for heating and one for cooling the mold is used.

The The invention further provides that the supply line and / or the Drain line a temperature sensor exhibit. This tempering sensor detects the temperature of the temperature control medium. This will be under be controlled and regulated such that the temperature control medium, which is introduced into the channel of the mold, a certain, has predefined temperature. Furthermore, the temperature budget can the mold can be determined more accurately and so the temperature of the tempering be better controlled.

In an advantageous embodiment, the invention provides that the temperature control unit having a control unit. This control unit allows a exact adjustment of the temperature of the temperature control medium. It is it is advantageous if the control unit is connected directly to the temperature sensor, so that from the temperature sensor measured values are transmitted to the control unit. After one Target / actual value comparison of the temperature of the tempering takes place a setting or regulation of the temperature of the tempering medium.

In an advantageous embodiment The invention is a medium used as tempering, which Water, oil and / or air. These tempering media have a good thermal conductivity and can Thus, heat up the mold quickly and / or cool. Furthermore, these tempering media economical and safe to handle.

It is advantageous if other components of the device according to the invention such as expansion tank, safety valve, Beige, filter, pressure gauge, flow switch and / or check valve to ensure optimal tempering of the mold. These other components enable a maintenance of the flow circuit.

The tempering is always connected to a pump, as well as to a heating and / or cooling.

The The invention further provides a method for producing a molded part by means of gravity chill casting ready, wherein at least one mold is heated to a first temperature, infested with casting material is cooled and cooled to a second temperature, the mold is heated with a tempering medium for heating to the first temperature and / or with a tempering medium for cooling to the second temperature chilled is and the first and / or second temperature of the mold by means set at least one temperature control becomes.

The inventive method allows that the mold before filling heated in a simple manner can be. The heating the mold is used to reduce stresses in the mold, if that's hot Casting material is placed in the mold. In gravity chill casting Temperatures of over Reaches 350 ° C, unlike the die casting process, where temperatures are in one Range of 180 ° C up to 250 ° C are settled.

By the heating of the mold according to the invention deleted one with an external, safety-related concern Gas heating usual Warming.

Further allows this method also cooling the mold. It is with the temperature control unit possible, a permanent cooling flow to produce and thus to allow a fast and uniform cooling of the mold. This is also a shortening given the cycle time, which leads to a cost saving.

It has also shown that by a method in which temperature control for tempering the mold is used, the use of release agents is possible, because a decrease in temperature during the pouring the form slides and also on the base plate is possible and a uniform heating of Mold is done. This carries to a better adhesion of the release agent. It thus disappears the elaborate step of applying the sizing before each casting process.

The The invention further provides that the first and / or second temperature adjusted or controlled by means of at least one temperature control unit becomes. This ensures that a uniform heating or cooling take place can. The temperature of the mold can be set to a specific desired Value kept, purposefully increased or lowered.

in this connection It is advantageous if the tempering for heating and / or Cool the mold constantly flows through. The permanent current ensures a uniform and Constant temperature control of the mold.

advantageously, the first and / or second temperature is adjusted by means of a temperature sensor or regulated. The temperature sensor Measures the temperature of the temperature control medium in the inlet and / or Drainage, consequently a hiring and / or regulation can be made on the basis of the measured values.

Around To achieve an optimal casting result, should the conveyor and Heating power of the temperature control unit to the respective size of the mold be adjusted.

It It has been shown that it is beneficial if for the procedure for the production of molded parts as tempering medium water, oil or air is used. These tempering media are characterized, as already mentioned, by a good thermal conductivity off and allow thereby an optimal tempering of the mold. Further, these are Temperature control media safely safe.

in this connection Is it possible, that other media are used, which has a good thermal conductivity exhibit.

The The invention will be described in more detail below with reference to a preferred embodiment and explained in more detail with reference to the accompanying figure. This same refer Reference numerals in the figure to the same or similar parts.

It shows in a schematic representation:

1 a mold which is connected to two temperature bones.

1 shows an embodiment of the inventive device for producing a molded part by gravity gravity casting. You can see a simplified representation of a mold 10 which two channels 12 having. The channels 12 each have an inlet opening 14 and a drain hole 16 , At these openings 14 . 16 are the supply line 18 and the drain line 20 appropriate.

The supply lines 18 and drain lines 20 are with their respective other end with a temperature control unit 30 connected.

In the present embodiment, the mold is 10 with two temperature control units 30 via supply lines 18 and drain lines 20 connected. This is a temperature control 30 for heating the mold 10 and the other temperature control unit 30 for cooling the mold 10 ,

To the mold 10 To temper a medium, preferably water through the supply line 18 in the channel 12 transported, and passes through the drainage line 20 back to the temperature control unit 30 back. It is by means of the temperature 30 the desired temperature to which the mold 10 tempered, set and controlled. The result is a cycle of the tempering medium which the mold 10 and the temperature control unit 30 flows through.

It is quite possible that the mold 10 with even more temperature control units 30 is connected, or a temperature control 30 connected to multiple circuits. The temperature control unit requires this 30 a radiator, a heater and a pump (not shown here).

In order to be able to precisely control and set the temperature, a temperature sensor is provided (not shown here). The temperature sensor may be arranged such that it the temperature of the temperature control medium in the drain line 20 detected and a corresponding signal to a control unit in the temperature 30 transmitted. By means of the temperature control unit 30 Now, a heating or cooling of the tempering carried out. It is also possible here that further temperature sensors are mounted for measuring the temperature of the temperature control medium, for example on the supply line 18 ,

Shall now a mold 10 be filled with a casting material to produce a casting, it is necessary that the mold 10 previously heated to a certain temperature. This is done by using the temperature control units 30 , A temperature is predetermined and the mold 10 is heated by means of the tempering medium flowing through the channels to this predetermined temperature. The temperature control medium flows through the supply line after it has been heated in the temperature control unit 18 and gets into the channels 12 the mold 10 in which then heat to the mold 10 is delivered. Subsequently, the tempering passes through the drain line 20 back to the temperature control unit 30 , By means of a temperature sensor, the temperature of the temperature control, for example, in the drain line 20 be detected and determined whether the mold 10 still has to be heated or whether no further release of heat of Temperiermediums must take place, since the mold 10 already reached the desired temperature. If the mold has not yet reached the desired temperature, the tempering is further by means of the temperature 30 heated and flows through the channels of the mold again 10 ,

After filling the mold 10 with casting material should the mold 10 cool down again as soon as possible. For this purpose, a tempering medium is introduced into the mold by means of the same procedure as described above 10 introduced, in which case the temperature control serves for cooling.

10

mold

12

channel

14

inlet opening

16

drain hole

18

supply line

20

drain line

30

tempering

Claims (13)

Device for producing a casting by means of gravity gravity casting, comprising a mold, characterized in that the mold has at least one channel for receiving a tempering medium, wherein the channel is connected to a temperature control device. Apparatus for producing a casting according to claim 1, characterized in that the channel via a supply line and a drain line is connected to the temperature control unit. Device according to one of the preceding claims, characterized characterized in that the channel has an inlet opening and a drain opening, wherein the inlet opening the supply line and the drain opening the drain line receives. Device according to one of the preceding claims, characterized characterized in that the mold has a first channel for receiving a tempering medium for cooling having. Device according to one of the preceding claims, characterized characterized in that the mold has a second channel for receiving a tempering for heating has. Device according to one of the preceding claims, characterized in that the supply line and / or the drain line a temperature sensor having. Device according to one of the preceding claims, characterized characterized in that the temperature control unit has a control unit. Device according to one of the preceding claims, characterized characterized in that the temperature control medium water, oil and / or Air includes. Method for producing a casting by means of gravity gravity casting, wherein at least one mold is heated to a first temperature, filled with casting material is cooled and cooled to a second temperature, characterized that the mold with a tempering medium for heating to the first Temperature warmed up is and / or with a tempering for cooling to the second temperature chilled is, wherein the first and / or second temperature of the mold by means at least one temperature control unit is set. A method of manufacturing a molding according to claim 9, characterized in that the first and / or second temperature is controlled by means of the at least one temperature control unit. Process for producing a molded article according to one of the preceding claims, characterized in that the first and / or second temperature by means of a temperature sensor controlled or regulated. Process for producing a molded article according to one of the preceding claims, characterized in that the tempering medium for heating and / or Cool the mold flows through, in particular flows through permanently. Process for producing a molded article according to one of the preceding claims, characterized in that as the tempering medium water, oil or air is used.