WO2008125140A1 - Core shooting machine - Google Patents

Abstract

A core shooting machine (1) typically comprises at least one two-part mold (2) for forming one or more cores for casting purposes. It is particularly beneficial if it has two molds (2), so that while one mold (2) is being cleaned, the other mold (2) can produce. For the most simple possible handling and cleaning, the upper mold (3) in each case can be rotated about a horizontal axis with a mounting element (7) in a separate position from the lower mold part (4), thus making the underside thereof more accessible for cleaning purposes, wherein the upper mold (3) remains in the interior of the machine frame (6), and thus inside the working space of the core shooting machine (1).

Description

 Core shooter

The invention relates to a core shooting machine with at least one two-part tool for forming one or more cores for foundry purposes, the tool having an upper and a lower tool part in use position and the tool parts for removing the cores are separated from each other, wherein the upper tool part with his Holder is rotatable or pivotable in a separate position from the lower tool part about a horizontal axis.

For the production of sand molds for foundry products core shooters are used in which a shootable sand-binder mixture is shot with pressure in a tool. The binder tends to resin on the tool contour. There is also the danger that the vent nozzles are clogged in the tool by a resin structure.

Usually, after about 200 to 400 cycles, the tool must be removed from the core shooter and brought to the crane or forklift for cleaning. This is done in a rhythm of about two to four hours. The entire cleaning of such a tool takes about two to three hours, because the tool must be opened in its parting plane to get to the inner contour. Typically, a crane or similar lifting device such as the core shooter must be used to open the tool at average weights of 200 Kg to 5000 Kg. Cleaning the tool contour itself only takes about ten percent of the entire process. As a result of such a long cleaning procedure, two identical tools are usually kept in foundries. In this case, a tool is on the core shooter in production and the second tool is opened with a suitable device, cleaned and then stored until its use.

The frequent clamping and unclamping of the tool on the core shooting machine interrupts the production. Likewise, transporting the heavy tool through the foundry requires a separate cleaning station. In addition, a special device for opening the heavy tool is necessary. Em crane is in fact unsuitable because the tools require precision-precise movements in the division plane.

Since the contour within the upper tool part points downwards after the separation, the operator must crawl on his back into the machine in order to be able to carry out the cleaning. Falling sand residues require special protective measures and / or special clothing of the operator. Thus, especially for the cleaning of the upper tool part, there is the problem that a cleaning person must either lie down between the retracted lower part and the raised upper part or cower under the upper part after moving out of the lower part in order to make cleaning more uncomfortable in any case and to be able to carry out dangerous situations.

From DE 197 35 618 C1 one of the initially defined core shooting machine comparable device is known. However, the upper part of the tool must be connected to the machine at four points, because when it pivots out of the machine Workspace of the machine must be swung out to get into an inspection position. This costs a relatively long time, so that the cycle times extend accordingly. Furthermore, the shears necessary for holding the shooting head, in particular outside the working space, are to be regarded as disturbing the accessibility.

It is therefore an object to provide a core shooting machine of the type defined, in which the cleaning of the upper part of the tool in particular can be performed more easily and quickly. Also, the tool shell should be easily accessible in its pivoted position.

To solve this problem is provided in the core shooting machine defined above, that the upper tool part attached to a serving as its holder, up or vertically adjustable carriage or carriage and is movable when opening the tool up and pivoting in the up position. Thus, it is not necessary to move the upper tool part out of the working space for pivoting and to swivel it out, and to provide correspondingly expensive holders for this purpose. Rather, in an expedient and simple manner, the holder provided for the upper tool part can be moved upwards away from the lower tool part when opening the tool, thereby making the lower tool part free, without the upper tool part having to be removed from the working space in a time-consuming manner has to be moved out. By pivoting or twisting the upwardly adjusted upper tool part in the working space or machine frame, less time is required than with a swiveling out of the working space, so that correspondingly shorter cycle times are possible. Under up position is to understand that adjustment upwards, which allows the pivoting of the upper tool part.

It is expedient here if the upper tool part-in particular with the aid of its holder-can be rotated in a position in which the contour arranged in it can be accessed from the side and / or from above.

The lower tool part can be displaced or moved from its position of use into a position for removing the core or cores. After opening the tool and moving the upper tool part m an up position so the lower tool part can be freely moved out of the core shooting machine to remove the core or cores, while the upper tool part remains within the core shooter. In this case, the upper tool part remain on its holder and can also be pivoted to a position favorable for cleaning, after which it can again assume its position of use.

Furthermore, there is the possibility that the upper tool part can be displaced or moved upwards beyond the upper position. If the top position is the position in which the upper tool part m is usually rotated or pivoted, it may be favorable, for example, in cleaning work or when particularly tall people operate the core shooting machine, if a shift beyond the usual top position is possible ,

It is favorable in this case if the upper tool part can be pivoted out of its position of use by approximately a right angle or more. When panning by one Right angle, the parting plane of the tool part is usually aligned vertically, so that an operator can easily perform the cleaning from the side. When pivoting at an even greater angle cleaning can even be done largely from above.

An expedient construction results when the upper tool part by means of a turntable or large bearing flying on the upwardly or vertically adjustable carriage or carriage mounted and pointing after lifting from the lower tool part with its underside facing an outside of the core machine rotatable or pivotable. Thus, the upper tool part after opening the mold and the twisting or pivoting according to the invention is particularly well accessible for cleaning.

The carriage for the upper tool part can be moved in the vertical direction by means of a cylinder or spindle drive and / or along a rack and the carriage can carry a rotatable, the upper tool part receiving plate on which connectable to the upper tool part or connected arms protrude. This results in an effective flying bearing on the one hand for the rotatable plate with their holding arms and thereby indirectly on the other hand for the upper tool part.

An embodiment of the invention of very considerable and advantageous importance can provide that the core shooting machine contains at least two forms, which are each connected to a shooting unit or connectable. In this way it is possible to continue production with the other tool during the opening and cleaning of one tool, so that continuous production is possible. Since the firing process is short in comparison with the core hardening, it is possible for at least two juxtaposed tools to have a be provided common shooting unit, which is alternately laterally adjustable to the one and to the other shape and thus detachable. So it can make do with a twin core shooter with only one shooting unit, which keeps the production costs and accordingly the cost low.

In this case, for each tool a gassing hood or a device for gassing the cores shot in the tool can be provided for their hardening, and the gassing hoods or devices can be displaced upwards or downwards in about the same direction as the upper tool parts. In practice, they can be vertically adjustable or moved on the same upward or vertical guides as the upper tool part.

Conveniently, the two tools can be arranged side by side in the common core shooter, with parallel for the lower tool parts, leading out of the same side of the machine guides for their displacement after opening the mold can be present. In this case, the core shooter may have a machine frame for one or more molds and the interior of the machine frame may be accessible to operators at least after pushing out the lower parts of the tools. Thus maintenance and repair work can also be carried out in a simple manner.

Especially when combining one or more of the above-described features and measures results in a particular walk-core shooting machine with out movable tools, the upper tool part or the upper tool parts in one of the horizontal, downwardly directed position to any deviating position such can be rotated or turned, that the tool contour is easily accessible not only from below, but from the side or from above for cleaning purposes or for insertion of tool release parts. If at least two tools are present in the machine, continuous production is also possible during cleaning or loading of loose parts.

An embodiment of the invention will be described in more detail below with reference to the drawings.

It shows in partly schematized representation:

1 is a perspective view of a core shooting machine according to the invention with two juxtaposed tools, the shooting unit is located above the left of the viewer tool,

2 shows a representation corresponding to FIG. 1 after the displacement of the common shooting unit via the tool arranged on the right and after the opening of the tool and the movement of the lower tool part forwards into a position suitable for removing the core,

FIG. 3 shows a representation corresponding to FIG. 2 after pivoting or turning the upper tool part about 90 degrees into a position that is easily accessible from the side or from the front, FIG.

Fig. 4 is a FIGS. 1 to 3 corresponding representation, wherein the shooting unit is located above the left tool and the lower tool part of the right Tool is moved forward before turning the upper part of the tool as well

5 shows a representation corresponding to FIGS. 1 to 4, wherein the shooting unit is located in the middle in one

Gap between the two tools is located and both tool parts are moved forward from the core shooter out.

A core shooting machine designated as a whole by 1 in the exemplary embodiment has two two-part tools, generally designated 2, for molding one or more cores for foundry purposes. The tools 2 each have an upper tool part 3 in the position of use and a lower tool part 4, and the tool parts 3 and 4 are separable from each other for removing the core or cores, as for example the comparison of FIGS. 1 and 2 or 4 or 5 suggests. In this case, the upper tool parts 3 m can still be adjusted or moved upward relative to the lower tool parts 4 upward or vertically upward, according to FIGS. 3 to 5, the respective lower tool part 4 on a suitable horizontal guide 5 from the interior of the Machine frame 6 can be moved forward. When comparing FIGS. 2 and 3, it can be seen that after the process or displacement of the lower tool part 4, the upwardly moving upper tool part 3 is rotatable or pivotable about a horizontal axis with a support 7 supporting it, so that its contour part is from the front or is easily accessible from the side, for example, for cleaning purposes or for bringing loose parts.

The upper tool part is thus in each case rotatable in a position in which the arranged in it contour 8 of the Side or even further pivoting from above is accessible. It can be seen in all figures that the upper tool part 3 in the interior of the machine frame 6, ie inside the working space of the machine 1 remains, while the lower tool part 4, as already mentioned, from the interior of the machine frame 6 and thus out of the workspace can be moved.

According to FIG. 3, the upper tool part 3 can be pivoted out of its position of use by approximately a right angle or can be rotated.

In this case, the upper tool part 3 is fixed by means of a recognizable in Fig. 3 turntable 9 or large warehouse on the serving as a holder 7 up or vertically adjustable carriage or carriage and can thus be moved when opening the tool 2 upwards and pivoted in the up position, said In addition, the lower tool part 4, as also seen in Fig. 3, from its position of use in a position for removing the core or from the machine frame 6 out is displaced or moved.

According to FIG. 3, the lower side of the upper tool part 3 in the position of use can be turned towards an outer or front side of the core machine 1.

The essentially the holder 7 for the upper tool part 3 forming carriage can be moved by means of a cylinder or spindle drive and / or along a rack, not shown, to separate the upper tool part 3 of the lower tool part 4. In this case, the carriage can carry a plate 10, which can be rotated about a horizontal axis and receives the upper tool part 3, at which point tool part 3 connectable or connected arms 11 protrude to capture the tool part 3.

The two tools 2 provided in the exemplary embodiment are in each case alternately connectable to a single and common shooting unit 13, so that the second tool 2 can produce during the opening and cleaning of a tool 2.

Each tool 2 also has a gassing hood 12 or a device for gassing the cores shot in the respective tool 2 for their hardening. In the exemplary embodiment, the gassing hoods 12 can be moved or moved upwards approximately in the same direction as the upper tool parts 3, when a respective tool 2 is opened. These gassing hoods 12 can be adjustable on the same guides as the respective upper tool part 3.

In all figures it can be seen that the machine frame 6 of the core shooting machine 1 for two molds 2 in the interior, in particular after pushing out of the lower parts 4 of the tools for operators is easily accessible.

While the embodiment shows a core machine 1 with two tools 2, the advantageous arrangement can also be used if only one tool 2 is present.

The core shooter 1 includes in a conventional manner at least a two-part tool 2 for molding one or more cores for foundry purposes. It is particularly advantageous if it has two tools 2, so that during the cleaning of a tool 2, the other tool 2 can produce. For the simplest possible handling and cleaning, the respective upper tool 3 can be rotated with a holder 7 in a separate position from the lower tool part 4 about a horizontal axis, thereby making its underside more accessible for cleaning purposes, wherein the upper tool (3) inside the machine frame (6), ie within the working space of the core shooting machine (1) remains.

Claims

claims

1. Core shooter (1) with at least one two-part tool (2) for forming one or more cores for molding purposes, the tool having an upper tool part (3) and a lower tool part (4) in the use position and the tool parts (3, 4) for removing the cores are separable from each other, wherein the upper tool part (3) with its holder (7) in the separate from the lower tool part (4) separate position about a horizontal axis rotatable or pivotable, characterized in that the upper Tool part (3) attached to a serving as its holder (7), upwardly or vertically adjustable carriage or carriage and when opening the tool (2) is movable upwards and pivotable in the up position.

2. core shooter according to claim 1, characterized in that the upper tool part (3) is rotatable in a position in which the arranged in it contour (8) from the side and / or from above is accessible.

3. core shooting machine according to claim 1 or 2, characterized in that the lower tool part (4) is displaceable or movable from its position of use in a position for removing the core or cores.

4. core shooting machine according to claim 1 to 3, characterized in that the upper tool part (3) from its position of use by about a right angle or more is pivotable or rotatable.

5. core shooting machine according to one of claims 1 to 4, characterized in that the upper tool part (3) via the top position is also displaceable upwards or downwards.

6. Core shooting machine according to one of claims 1 to 5, character- ized in that the upper tool part by means of a turntable (9) or large bearing flying on the upwardly or vertically adjustable carriage or carriage mounted and after lifting from the lower tool part (3). with its underside pointing to an outside of the core machine (1) rotating or swiveling.

7. Core shooter according to one of claims 1 to 6, characterized in that the carriage for the upper tool part (3) in the vertical direction by means of a cylinder or spindle drive and / or along a rack is movable and that the carriage is a rotatable, the upper die part (3) receiving plate (10) bears against which with the upper tool part (3) connectable or connected arms (11) protrude.

8. core shooting machine according to one of claims 1 to 7, characterized in that it comprises at least two tools (2) which are each connected to a shooting unit (13) or connectable.

9. core shooting machine according to one of claims 1 to 8, characterized in that for at least two juxtaposed tools (2) a common shooting unit (13) is provided which is alternately laterally adjustable to the one and to the other shape and thus detachable ,

10. core shooting machine according to one of claims 1 to 9, da- characterized in that each tool (2) is provided with a gassing hood (12) or a device for gassing the cores shot in the tool (2) for their hardening and the gassing hoods (12) in approximately the same direction as the upper tool parts (3). can be adjusted or moved upwards.

11. core shooting machine according to one of claims 1 to 10, characterized in that the gassing hood (s) (12) on the same guide as the respective upper tool part (3) is vertically adjustable / are.

12. core shooter according to one of claims 1 to 11, characterized in that it comprises a Maschmengestell (6) for one or more molds (2) and that the interior of the machine frame, at least after pushing out of the lower parts (4) of the tools accessible to operators is.