The present disclosure relate to a device for producing cast parts, such as aluminum castings, in a pressure method or a low-pressure method using a casting tool, which includes movably arranged side parts, a base receiving a lower part or a lower mold part, and an upper part or a plate having an upper mold part, where at least the upper part, together with a demoulding plate and the upper mold part, can be adjusted in the vertical direction relative to a supporting surface of the casting tool by means of at least one adjusting device, and the side parts can likewise be adjusted in the horizontal direction by means of the adjusting device and/or additional adjusting devices
A tool is disclosed in DE 102 34 026 C1 that relates to a device for producing cast parts, such as aluminum castings, in a pressure method or a low-pressure method. The tool includes movably arranged side parts as well as a base receiving a lower part or a lower mold part, and an upper part or a plate having an upper mold part, where at least the upper part, together with a demoulding plate and the upper mold part, can be adjusted in the vertical direction relative to the supporting surface of the casting tool by means of at least one adjusting device, and the side parts may likewise be adjusted in the horizontal direction by means of the adjusting device and/or additional adjusting devices. In such a device, short-time and simultaneous or synchronous movement of adjustable components cannot be realized. Additionally, the production of the known device is complicated and costly.
The present invention aims to improve and design the device, such that the simultaneous or synchronous movement of the adjustable components can be realized, and no damage to a cast part will occur during demoulding.
This aim is realized according to the invention in that: for demoulding the cast part, at least one adjusting device interacts directly or indirectly with the demoulding plate, and during vertical adjustment, the upper mold part can be adjusted in the vertical direction, and then the side parts can be adjusted in the vertical direction likewise at least via the one adjusting device. As a result, a shorter demoulding time can be realized in a simple and low-cost way, since short-time and simultaneous or synchronous movement of adjustable components can be realized and overall a very space-saving device can be achieved.
For this purpose, it is advantageous that the adjusting device interacts with positive control elements, which cause a continuous or uniform movement of the side parts or the side sliders in the vertical and horizontal directions relative to the supporting surface of the casting tool.
Furthermore, it is advantageous that the positive control elements are sliding surfaces. Due to the shorter demoulding time, the production cost of the cast part can be reduced. With the aid of the demoulding of the invention, a simpler process for producing the cast part can be realized. The positive control apparatus can be realized by means of a plurality of sliding surfaces, so that during demoulding, the side parts move downward uniformly in direction Z, and the side parts will not swing back and forth. Therefore, the surface of the cast part will not be damaged during demoulding.
It is also advantageous that every two or more sliding surfaces interacts with each other for demoulding the cast part. As a result, during casting, the cast part enclosed by the lateral sliders moves upward along with the upper part after being cooled and then is demoulded from the upper part. By lowering and lateral continuous retraction of the side sliders, the cast part can be removed without damaging especially, in particular the surface of the cast part, is placed downward on a transportation board and moved away laterally. By demoulding according to the invention, no defect will be caused on the front side of the cast part either.
By the simultaneous kinematics of a single part in combination with a plurality of sliding surfaces, the cast part can be detached from the upper tool or the upper part very quickly and uniformly, thereby realizing uniform and intact demoulding.
It is advantageous that the casting tool is configured with five sliding surface pairs.
It is particularly important to the invention that, a first sliding surface pair extending at an angle of 45° is consisted of a first sliding surface arranged on a first sliding element or a T-shaped rod and a second sliding surface arranged on the upper part, where a second sliding surface pair extending at an angle of 45° is consisted of a third sliding surface arranged on the first sliding element or the T-shaped rod and a fourth sliding surface arranged on the sliding element or the tilting rod, where a third sliding surface pair extending at an angle of 45° is consisted of a fifth sliding surface arranged on the first sliding element and a sixth sliding surface arranged on the demoulding plate, where a fourth sliding surface pair extending horizontally is consisted of a horizontal seventh sliding surface arranged on the demoulding plate and a sliding surface horizontally arranged on the first sliding element or the T-shaped rod, where a fifth sliding surface pair horizontally extending is consisted of a ninth sliding surface arranged on the first sliding element or the T-shaped rod and a tenth sliding surface arranged on the upper part.
It is also advantageous that, the plate or the upper part and the second sliding element or the tilting rod may be firmly connected with each other and connected to the casting tool, wherein when the demoulding plate is directly or indirectly pressed against the sliding element or the T-shaped rod, with the interaction between the third and the fourth sliding surfaces of the second sliding element or the tilting rod and the T-shaped rod, between the fifth and the sixth sliding surfaces, and between the first and the second sliding surfaces as well as between other horizontally-extending sliding surfaces, the first sliding element is moved outward, such that the fifth and the sixth sliding surfaces of the first sliding element or the T-shaped rod and the demoulding plate rest on each other, and when the adjusting device further moves downward in the vertical direction, the side part or the lateral slider is forced and guided to move downward and outward on an inclined plane.
Furthermore, it is advantageous that, the first sliding element is a T-shaped rod which is consisted of a horizontal part and a vertically-arranged connecting piece. An opening is provided in the connecting piece to receive a fixing element, and the fixing element is connected to the side part by means of the opening.
It is also advantageous that, the second sliding element or the tilting rod and the upper part are firmly connected to each other via a fixing element and are connected to the casting tool in a vertically adjustable manner, where the connecting piece arranged on the first sliding element is received in the elongated opening arranged on the upper part, and the side parts or the lateral sliders are allowed to be laterally adjusted.
Additionally, it is advantageous that, the first sliding element is a T-shaped rod which has a first sliding surface and a fifth sliding surface arrange reversely at an angle of 45°, the first sliding surface and the fifth sliding surface are both arranged in an end region of the horizontal part, where a recess with three sliding surfaces is arranged on a lower side of the first sliding element, and the second sliding element is received in the recess such that the first sliding element in the side part can be laterally adjusted, thus the fifth and the sixth sliding surfaces can come to abut and the side parts can be adjusted downward in the vertical direction and outward in the horizontal direction, and the demoulding plate has on its outer circumference a plurality of sliding surfaces, which abut against sliding surface of the first sliding element.
Furthermore, it is advantageous that, the side parts are consisted of at least two or more side part segments, and the side part segments are consecutively fed toward a center or a vertical longitudinal axis direction via an inclined and cooperative sliding rod or moving rod to close the casting tool; and the sliding surfaces of the second sliding element and the first sliding element or the T-shaped rod abut against each other and extend inclinedly, and the sliding surfaces on the first sliding element or the T-shaped rod are arranged horizontally, such that they upon the adjustment of the demoulding plate, enable the first sliding element or the T-shaped rod to move outward in the vertical direction. Thereby, the large production cost of the cast part can be reduced overall since the movable parts can be detached simply and rapidly or continuously. Therefore, a shorter down time of the whole device may be realized, and thus the cost can be saved significantly. With the aid of the advantageously constructed synchronous kinematics and by using only one adjusting device, such as in the form of only one adjusting cylinder, the machine cost can be further lowered.
Other advantages and details of the invention will be illustrated in the claims and embodiments of the invention and be shown in the drawings:
Wherein:
In
The casting tool 20 includes a plurality of movably arranged side parts 4 together with a base 1 receiving a lower part or a lower mold part 3, and an upper part 7 or a plate having an upper mold part 5. At least the upper part 7 is connected to a cover plate 14 of the device via a spacing column 14. A demoulding plate 10 is connected to the upper mold part 5 of the device and adjusted in the vertical direction Z relative to a supporting surface of the casting tool 20 by means of at least one adjusting device 17, and the side part 4 can likewise be adjusted in the horizontal direction X by means of the adjusting device and/or another adjusting device.
To demould the cast part 9, at least one adjusting device 17 directly or indirectly interacts with the demoulding plate 10. During the vertical adjustment of the adjusting device 17, the upper mold part 5 is adjusted in the vertical direction Z, and then the side part 4 is adjusted likewise in the horizontal direction X at least via one adjusting device 17.
The adjusting device 17 interacts with positive control elements, and the positive control elements make the side parts or the side sliders 4 move continuously or uniformly in the vertical and horizontal directions relative to the supporting surface of the casting tool.
The positive control elements are formed as sliding surfaces 18a, 18b, 19a, 19b, 50a, 50b, 60a, 60b, 70a and 70b. To demould the cast part 9, every two or more of 18a, 18b, 19a, 19b, 50a, 50b, 60a, 60b, 70a and 70b interact with each other. The device or the casting tool 20 is configured with five sliding surface pairs.
A first sliding surface pair 18a, 18b extending at an angle of 45° is consisted of a first sliding surface 18a arranged on a first sliding element or a T-shaped rod 8 and a second sliding surface 18b arranged on the upper part 7.
A second sliding surface pair 19a, 19b extending at an angle of 45° is consisted of a third sliding surface 19a arranged on the first sliding element or the T-shaped rod 8 and a fourth sliding surface 19b arranged on a sliding element or a tilting rod 11.
A third sliding surface pair 50a, 50b extending at an angle of 45° is consisted of a fifth sliding surface 50a arranged on the first sliding element 8 and a sixth sliding surface 50b arranged on the demoulding plate 10.
A fourth sliding surface pair 60a, 60b extending horizontally is consisted of a seventh horizontal sliding surface 60a arranged on the demoulding plate 10 and an eighth sliding surface 60b horizontally arranged on the first sliding element or the T-shaped rod 8.
A fifth sliding surface pair 70a, 70b extending horizontally is consisted of a ninth sliding surface 70a arranged on the first sliding element or the T-shaped rod 8 and a tenth sliding surface 70b arranged on the upper part 7.
The upper part 7 and the second sliding element or the tilting rod 11 are firmly connected to each other via a fixing element and firmly connected to the casting tool 20, thus are unadjustable in the vertical direction. The casting tool 20 has an opening 25, in which the cast part is shaped (
The first sliding element 8 according to
Since the plate or the upper part 7 and the second sliding element or the tilting rod 11 are firmly connected to each other and are directly or indirectly connected to the casting tool 20, when the demoulding plate 10 directly or indirectly abuts against the first sliding element or the T-shaped rod 8 and thus indirectly acts on the side part 4, the T-shaped rod 8, together with the lateral part 4, moves outward in the direction X according to
Since the first sliding element is formed as a T-shaped rod 8 and is consisted of a horizontal part and the vertically-arranged connecting piece 21, in which the opening 53 is provided for receiving the fixing element not shown in the drawings, an in the connecting piece, the connecting piece 21 and the horizontally extending part 22 and thus the sliding element 8 can be firmly connected to the side part 4. The T-shaped rod 8 and the side part 4 are therefore adjusted together in the direction Z and the direction X.
The demoulding plate 10 has on the outer circumference a plurality of, in particular 8, sliding surfaces 50b which abut against the sliding surface 50a of the first sliding unit 8.
According to
The function of the sliding surface will be summarized below:
Number | Date | Country | Kind |
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10 2016 104 019.3 | Mar 2016 | DE | national |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2017/000302 | 3/6/2017 | WO | 00 |