SK54896A3 - Device for cutting solid, still not hardened porous concrete block - Google Patents

Abstract

Device for cutting the solid non-hardened porous concrete block, particularly of vertical format of bodies mainly in the shape of an ashlar such as bricks or boards, or prisms, laying with its width on the cutting bed through the cutting device, consisting of the cutting frame, portable bottom-up or vice-versa, which is in parallel distances equipped with cutting wires (24, 25) and of the fixed cutting bed (1) which is equipped with supporting elements (12, 13) and gaps placed parallel with the cutting wires of the frame, whilst the porous concrete block is placed during the cutting on the supporting surface of the supporting elements, among which there are the grates of the chipping grate (7) embedded. The cutting bed (1) has different width of the supporting surface of the supporting elements (12, 13) which are arranged with various gaps (15, 16) between the supporting surfaces with such distances, whilst the cut bodies of different format highness are while drying from the cutting bed (1) with the help of chipping grate (7) supported by at least two grate girders (8, 8a) of the chipping grate (7).

Description

Device for cutting solid, not yet hardened aerated concrete block

Technical field

The invention relates to a device for cutting a rigid, yet unhardened, aerated concrete block lying preferably on its cutting bed into block-shaped bodies such as bricks, slabs or prisms, in particular according to standard formats (according to DIN 4165, DIN 4166) as described in the preamble of claim 1.

BACKGROUND OF THE INVENTION

Such devices are described, for example, in DE-AS 10 87 960 or DE-AS 12 29 433. They usually have a stationary cutting bed, also called a cutting table and a cutting frame, which moves vertically in the longitudinal direction of the cutting bed with vertically or obliquely cut cutting the wires are guided in the cutting bed by slots and channels. Longitudinal cutting wires usually produce slabs or bricks of a standardized thickness corresponding to the wall thickness of the building.

In practice, the cutting bed resp. a cutting table at some distance to the longitudinal cutting wires provided with support bridges or prisms or slats or similar support elements e.g. in the form of stands on a pedestal, with gaps arranged between the support elements. The bars of the grating fit into the gaps, which serve to move the cut body, respectively. and which essentially consists of transverse beams which are bounded from the sides by longitudinal beams. During the cutting, the grating is embedded under the supporting surfaces of the supporting elements in the cutting bed. Slots for longitudinal cutting wires are arranged in the support elements. The transverse cutting of the aerated concrete block, which usually generates a prescribed height, is carried out by wires which are stretched longitudinally or in a range of gaps in parallel and which are pulled upwardly by the aerated concrete block for making a cut (DE 25 02 866 C2).

Fig. 3 shows schematically a cutting device according to the prior art without cutting wires. In a top view, several stands 2 are arranged transversely to the longitudinal direction of the cut in the rectangular cutting bed 1. The construction of the racks is arbitrary as long as the channels 4 and slots 5 are provided in the longitudinal direction for guiding the longitudinal wires (not shown). The stand can also be formed of individual columns or bases arranged transversely aligned to the longitudinal direction of the cut. The stands are spaced apart at a certain distance in the longitudinal direction of the cut 3 so that gaps 6 in the form of a groove or a shaft can be formed. Before a rigid, yet unhardened aerated concrete block to be cut is placed on the supporting surfaces of the stands 2, a square grid grating 7 consisting of a plurality of grid-shaped crossbeams 8 spaced apart and longitudinal beams 9 connecting the grid 7 from the sides is lowered. 8, they freely penetrate the gaps 6 and the longitudinal beams 9 extend (in the direction of the arrow 11) along the outer sides of the racks. Then the cutting frame with the cross cutting wires (not shown) is lowered onto the support surface of the cutting bed formed by the stands 2, whereby the cutting wires can be arranged in the spacing 6 or on the stands 2. Thereafter, the porous concrete block is laid e.g. its width on the stands 2 and cuts in the longitudinal and transverse directions. The grate 7 is lifted after cutting and carries the bodies formed by the cut from the aerated concrete block at once. The grate 7 together with the bodies is transferred to an autoclave where the bodies cure.

Typically, the gaps 6 are the same, and the width of the stands is the same, so that only one body format of a certain height can be cut from a single aerated concrete block to support each cut brick or prism with two adjacent grate cross beams 8. the width of the stands 2 is 90 mm and the gap width 6 is then 110 mm for a conventional cutting device which carries out cutting of 200 mm high bricks or prisms, the cutting wires of the cutting frame being arranged in gaps 6 and 6, respectively. above the slatted crossbeams 8 of the grating 7 lying on the cutting bed. When the grate 7 is lifted, each cut brick or prism is supported by two transverse grate beams 8a, thereby allowing further transport and the cutting slot extending between the two bodies longitudinally through the center of the transverse beam 8. In the body cutting device, i.e. the gripper. bricks or prisms of a height of 250 mm are the stands 2 equally wide and spaced 160 mm apart. A disadvantage here is that the support surface of the racks is relatively narrow and insufficiently wide to support bricks or prisms optimally, which can lead to the material being stripped in the cutting area.

Efforts have been made to provide cutting devices with a stationary cutting table and mechanically adjustable slats so that the slit between the two slats could be enlarged and then different body formats could be formed (DE-PS 24 28115, DE 34 34505 C1). However, the construction of such an adjustment is very complicated, costly and, moreover, can be considerably defective. For this reason, this device has not yet been implemented in practice. This design arrangement would also require the use of different types of grates.

SUMMARY OF THE INVENTION

It is an object of the invention to provide a cutting device that is structurally simple, but which is capable of cutting at least two different, standardized body formats.

This object has been achieved by the means described in claim 1. Further preferred embodiments falling within the scope of the invention are defined in the dependent claims.

drawings

The invention will be explained in more detail by means of the following drawings:

Fig. 1 is a schematic front view of a cutting device according to the invention in the cutting direction, FIG. 2 is a schematic side view of the cutting bed and its support, FIG. 3 is a perspective and schematic illustration of a cutting device according to the prior art.

description

The cutting device of FIG. 1 to 3 can in particular be used for the cross-section of solid, yet unhardened, aerated concrete blocks 21 in the form of a cuboid. The construction of this device is known in principle e.g. from DE 2502 866 C2, FIG. 1 and 2. Such a cutting device has a cutting bed as well as a transverse and longitudinal cutting device. If only prisms are to be cut, then the longitudinal device can fall off. In the cutting device of FIG. 1 to 3, the cutting is carried out, in particular, with cutting wires which are pulled upwards or downwards.

The cutting device according to the invention thus has a cutting bed 1 with a base 10 on which two kinds of support elements 12, 13 are arranged with a differently wide support surface, parallel to the cutting direction 14 with different gaps 15, 16.

E.g. for the cuts of 200 and 250 mm high prisms 19, 20 of the not yet hardened aerated concrete block 21, the support surface width of the support elements 12 is 90 mm and the support surface width of the support elements 13 is 115 mm, the support elements arranged in the cutting direction 14 are grouped periodically The gaps are periodically arranged in intervals such that two equal gaps 16 are followed by three equal gaps 15. The gaps have the following dimensions:

f space 15. 110 mm gap 16: 85 mm

By grouping these support surfaces and gaps, it is achieved that the series of cuts according to the cutting line 19 and the cutting line 20 lie in the gaps 15 and 16 and are spaced from the support elements 12, 13.

In combination with the use of differently wide supporting surfaces of the supporting elements 12, 13 and differently wide gaps 15, 16, a grating is used which is provided with two kinds of grating crossbeams 8, 8a forming corresponding wide supporting surfaces, mentioning the width of the grating crossbeam. 8 100 mm and grate cross beam width 8 and 75 mm. The grate beams are also arranged periodically at intervals, so that two grate beams 8a are followed by three grate beams 8, both grate beams 8a having the same gaps 22 as between them, as to adjacent grate beams 8 and a middle three-member group separated by a larger gap 23. Eg. the gap width 22 is 100 mm and the gap width 23 is 125 mm.

the grate beam 8 of the grate beams of this 8 is

After lowering the grate 7 at the bottom of the cutting bed 10, a cutting frame (not shown) is placed with the cutting wires

24. The cutting wires 24 are spaced apart at intervals 15 and 16 such that 200 mm high prisms can be cut. In the latter case, the cutting wires 25 are stretched in the cutting frame at a distance such that prisms of 250 mm height can be cut when the cutting wires 25 are predominantly disposed in the region of the gaps 15, 16 and only some cutting wires 25 periodically divide before cutting support element 12.

In each case, the grate 7 drops before cutting so that the grate crossbeams 8a fit into the gaps 16 and the grate crossbeams into the gaps 15.

The support elements 12, 13 provided with a bridge 27 are substantially the same in width. Their arrangement results from FIG. 2. They are provided with channels 4 and slots 5 and with a support 26 abutting the bottom 10 of the cutting bed 1.

Instead of the support elements so formed, it is possible to use second support elements which fulfill the same purpose.

The illustrated and described embodiment of the invention with the indicated dimensions serves to cut 200 mm and 250 mm high prisms 19, 20 from aerated concrete block 21 at the same time on one and the same cutting device with the same cutting bed 1 and one and the same grid grate. according to the principle of the invention, it could also adapt the device for other dimensions or dimensions. the spacing of the supporting elements and of the grate, if it would be necessary to form a second body format from the aerated concrete block with the same cutting device. In this case, it is possible to use an adjustable device for the cutting bed with corresponding adjustment of the spacing of the supporting elements, respectively. slats or bridges so that bodies of different heights can be cut. The grating can also be adapted accordingly. In principle, it is always necessary to ensure that the brick or prism 19, 20 is supported by two grate cross beams 8 or 8a or 8 and 8a respectively when lifting from the cutting bed. this body may abut as a bridge on two slatted crossbeams.

Claims (17)

PATENT CLAIMS 1. Apparatus for cutting a size, in particular a height-format, of largely cuboid bodies such as bricks or slabs or prisms of a rigid, yet unhardened, aerated concrete block lying by width on a cutting bed by means of a cutting device consisting of equipped with cutting wires as well as a stationary cutting bed provided with support elements and gaps arranged parallel to the cutting wires of the cutting frame, the porous concrete block lying on the support surface of the support elements, between which are embedded grid grids, embedded in the grid sat that the cutting bed (1) has a different width of the supporting surface of the supporting elements (12, 13), which are arranged with different gaps (15, 16) between the supporting surfaces at such intervals that the cut bodies of different format height are disengaged from the cutting l the legs (1) supported by the grate (7) supported by at least two grate beams (8, 8a) of the grate (7). Device according to claim 1, characterized in that for cutting two different height formats, the cutting bed (1) is provided with periodically varying groups of support elements (12, 13). Device according to claim 2, characterized in that one group of support elements (12) in each case follows periodically the group of support elements (13). 4, characterized in that one group consists of three support elements (12) and the other group consists of two support elements (13). 4 / Device according to claim 3, characterized in that the support elements (12, 13) in any group have the same spacing in the form of gaps (15, 16). 5, characterized in that the support surface of the support elements (12) is narrower than the support surface of the support elements (13). Device according to one or more of claims 2 to 5 6, characterized in that the gaps (16) are narrower than the gaps (15). Device according to one or more of claims 2 to 6 7, characterized in that the gap between the group consisting of support elements (13) and between the group consisting of support elements (12) is always the same width of the gap (15) between the two support elements (13). Device according to one or more of claims 2 to 7 8, characterized in that the grid grate (7) is provided with grate beams (8, 8a), the width of the bearing surface of which is adapted to the width of the gaps (15, 16) so that they fit therein and are spatially arranged to match the spatial arrangement of the gaps (15, 16). Device according to one or more of claims 2 to 8 9, characterized in that the cutting wires (24, 25) of the cutting frame in the cutting direction are so positioned that separation cuts of each cut aerated concrete body are made. above two gaps (15, 15) or (16, 16) or (15, 16). Device according to one or more of claims 1 to 9 Device according to one or more of claims 1 to 10 Apparatus according to one or more of Claims 1 to 10, characterized in that for optional cutting of 200 and 250 mm high bodies such as plates or prisms (19, 20) in the support surface width of the support elements (12) is 90 mm and the width of the support surface of the support elements (13) is 115 mm and the support elements (12, 13) are grouped at intervals of three elements (12) followed by two elements ( 13) - separated by spaces (15, 16) - perpendicular to the cutting direction. Apparatus according to claim 11, characterized in that the gaps (15, 16) are arranged periodically at corresponding intervals with two equal gaps (16) followed by three equal gaps (15). Apparatus according to claim 12, characterized in that the gaps (15) have a dimension of 110 mm and gaps (16) of 85 mm. Apparatus according to one or more of claims 11 to 13, characterized in that the grate (7) is provided with a grate beam (8) of 110 mm width and a grate beam (8a) of 75 mm width arranged periodically at intervals of two grate beams. (8a) followed by three grate beams (8), the two grate beams (8a) in their group being separated from each other by the same gaps (22), just like the adjacent grate beams (8) and the middle grate beam (8) of this three-member the group of adjacent grate beams (8) is separated by a larger gap (23). Device according to claim 14, characterized in that the gap width (22) has a dimension of 100 mm and the gap width (23) is a dimension of 125 mm. I Apparatus according to one or more of Claims 1 to 15, characterized in that it is provided with a further cutting device perpendicular to the direction of the first cut, wherein channels (4) and longitudinal slits are arranged in the support elements (12, 13) for this further device. (5). AJ - ίο Apparatus according to one or more of Claims 1 to 16, characterized in that the support elements (12, 13) form bridge bridges whose bridge (27) is provided with channels (4) and slots (5) and whose supports (26) abut the bottom of the cutting bed (10).