EP4076881A1

EP4076881A1 - Device for producing concrete slabs

Info

Publication number: EP4076881A1
Application number: EP20833762.6A
Authority: EP
Inventors: Holger Stichel
Original assignee: Kobra Formen GmbH
Current assignee: Kobra Formen GmbH
Priority date: 2019-12-20
Filing date: 2020-12-15
Publication date: 2022-10-26
Also published as: WO2021122541A1; US20230019683A1; DE102019135427A1; CA3165391A1

Abstract

The invention relates to a device (2) for producing concrete slabs. A mold lower part (8) is inserted into a frame (14) which is secured to receiving areas (18) of multiple guiding columns (20) via retaining braces (16), said guiding columns being oriented along an insertion direction (42) and having, above the mold lower part (8), a structural loading device (28) which can be moved along the guiding columns (20) and which has, on the side facing the mold lower part (8), a mold upper part (22), one or more pressure plates (24) of which are inserted or can be inserted into one or more recesses (12) of the mold lower part (8), said structural loading device (28) being connected to the pressure plates (24) via pressure rams (26). An upper guide element (38) is arranged between the structural loading device (28) and the pressure rams (26), said guide element interacting with a lower guide element (40) arranged on the retaining brace (16) such that, during the production of concrete slabs, the structural loading device (28) is constantly guided relative to the mold lower part (8) on a plane perpendicular to the insertion direction (42).

Description

Device for the production of concrete blocks.

The invention relates to a device for producing concrete blocks. From the general prior art it is known to use devices for the manufacture of concrete blocks, in which by means of a so-called block paver, a concrete mixture within a block form is correspondingly sealed ver to create a concrete block. Typically, such devices contain a stamp unit with pressure plates which can engage in one or more mold cavities of a lower part of the mold. The lower part of the mold is open upwards and downwards, with the underside being closed by a horizontal support. Through the upper openings of the mold cavity, a filling wagon is used to fill a quantity of concrete, which is then pressed over the pressure plates by lowering them into the mold cavity through the upper openings by means of a loading unit. Subsequently, by shaking the base, the concrete mass solidifies to form stable concrete molded parts. In a final step, the molded concrete parts are removed from the mold through the lower openings in the mold cavities. The stamp unit is typically operated hydraulically and can be moved vertically within the molding machine by means of the loading unit. The Auflastein unit usually forms with the punch unit an upper mold part as a unitary assembly which is arranged above the lower mold part and can be connected to a hydraulic press from the opposite side. A uniform stone height can also be achieved with different compaction of the amount of concrete, typically stops are provided on the punch unit. In known devices for the production of concrete blocks, the connection between the upper part of the mold and the lower part of the mold is of particular importance. It is known from DE 3638207 A1, for example, that in molds of this type, if the upper mold part is not properly aligned with the lower mold part, there is a risk of the plunger colliding with an upper side of the lower mold part. This occurs in particular when the upper part of the mold is guided into the lower part of the molding machine in order to shape and compact the molded concrete part to be produced. According to solutions known from the prior art, attempts have been made to circumvent this by aligning the upper part of the mold exactly with the lower part of the mold and providing corresponding inlet bevels on the mold cavities, which facilitate the introduction of the pressure plates.

However, the connection between the upper part of the mold and the lower part of the mold has already been examined in more detail in the prior art in another context. From DE 19924926 A1 a block molding machine is known, on the guide columns of which a block mold is arranged. The stone mold consists of a lower mold part and an upper mold part which, according to the work section, can either be fixedly connected to one another or arranged to be displaceable relative to one another.

This enables simple further processing, in particular by means of a pull-off mechanism that separates the lower part of the mold and the upper part of the mold. From DE 102005048930 A1 a block mold for the production of concrete blocks is known which comprises an upper mold part with at least one punch with a pressure piece and a lower mold part with at least one mold cavity for use in a block molding machine, the lower mold part up and down in a block molding machine is movable. The lower part of the mold can be placed on a base of the block molding machine and the upper part of the mold is Can be coupled with an upward and downward movable machine holder of the Steinformma machine. A filling box of the block machine can be moved over the Formun lower part and the upper part of the mold and / or the lower part has a machine frame of the block machine game. A centering device is provided for aligning the lower part of the mold and the upper part of the mold in an xy plane. An exact centering of the two molded parts to one another is effected, with a conical section on the centering device slowly releasing the centering of the molded parts after the pressure piece has dipped into the mold cavity.

In DE 102015 103829 A1 a device for setting concrete moldings in a molding machine is described, which comprises an upper mold part with at least one plunger for transmitting a force to at least one pressure plate, the pressure plate in the vertical direction into an opening of a mold cavity can be introduced into a lower mold part, the lower mold part being surrounded by a frame which has a guide means connected to the upper mold part, which guide means is designed so that the lower mold part against the upper mold part from the vertical direction during the engaging of the pressure plates in the Openings of the mold cavity is tiltable.

It is the object of the invention to provide a device for Fierstellung of concrete mold parts, in which the centering between the upper part of the mold and the lower part of the form is further improved, in particular all phases of the production process should be taken into account.

This object is achieved by the features of claim 1. Further advantageous embodiments of the invention are each the subject of the subclaims. These can be combined with one another in a technologically sensible way. The description, in particular in connection with the drawing, additionally characterizes and specifies the invention. According to the invention, a device for the production of concrete blocks is created in which a lower mold part is inserted into a frame, which is fastened via retaining struts to receptacles of a plurality of guide columns which are oriented along an insertion direction and have a loading device movable along the guide columns above the lower mold part , which has an upper mold part on its side facing the lower mold part, in which one or more pressure plates can be introduced or introduced into one or more recesses in the lower mold part, the loading device being connected to the pressure plates via pressure stamps, with an upper one between the loading device and the pressure stamps Guide element is arranged, the mencooperates with a arranged on the retaining strut lower guide element so that during the production of concrete blocks the Auflasteinrich device relative to the lower mold part in a plane perpendicular to the direction of insertion constantly ge leads is.

Accordingly, in the device according to the invention, an upper guide element is arranged on the loading device and a lower guide element is arranged on the receptacle, which guide the upper part of the mold with the plungers and the lower part of the mold with the recesses and which, in addition to the existing guide on the guide columns ensure constant guidance of the plunger relative to the lower part of the mold. He follows a guide of the Auflasteineinrichtung relative to the lower mold part in a plane perpendicular to the direction of insertion constantly during the production of concrete blocks. It is true that the upper and lower guide elements can be pushed so far apart in the axial direction relative to one another that they are no longer in engagement, so that, for example, they are no longer guided to one another during a renovation or maintenance, during the manufacture of concrete blocks, i.e. also during filling with a filling carriage, compression or demolding, there is a guide between the load device is held relative to the lower part of the mold in the plane perpendicular to the insertion direction. It has been observed that the guidance via the guide columns is often inadequate, so that the pressure plates occasionally strike laterally in the recesses or sit on them, which results in increased wear. The solution according to the invention now creates a kind of self-guided device in a block-making machine, in which, in particular, a guide over the upper guide element and the lower guide element, for example during filling with a filling car, can be guaranteed. The pressure plates and the recesses in the lower part of the mold now only have a shaping property for the desired stone product, so that they no longer have to be provided with any additional guiding function.

According to one embodiment of the invention, the loading device is connected to the guide columns via a bear plate, the pressure stamps being connected via a stamp plate which is connected to the loading device via an intermediate plate, the intermediate plate having laterally protruding sections on which the upper guide device is angeord net is.

In addition to the weight of the loading device, it is connected via a bear plate, for example to a hydraulic press, whereby the combination of load device and bear plate is connected to the guide pillars in the usual way. The pressure stamps are not connected directly to the loading device on their side facing away from the recesses, but are typically screwed to an intermediate plate which has laterally protruding sections so that a connection option for the upper guide device is created outside the stone field. This results in a compact structure in which the guide is achieved via the upper guide device on the loading device, without the construction to make a device according to the invention complicated. In particular, the device according to the invention allows wear parts such as the pressure plates or the upper guide device to be easily exchanged when worn, while the pressure stamp or the basic load can be reused as reusable parts in the area of the upper part of the mold even when changed or worn.

According to a further embodiment of the invention, the upper and the lower guide device have a plurality of guide positions in the area of the frame and to the side of the loading device.

Accordingly, guidance between the lower part of the mold and the upper part of the mold is achieved at several guide positions, so that more precise guidance or centering of the two components with respect to one another can be ensured. It is particularly provided to provide two on opposite sides of the For muntteils or the Auflasteineinrichtung with corresponding guide positions, which are advantageously arranged diagonally opposite in order to further improve the leadership between the upper mold part and the lower mold part. Alternatively or additionally, four guide positions can also be provided, which are advantageously arranged in the area of the corner of the frame or the loading device. A double or quadruple execution of the guide positions allows a precise guide function by means of the upper and lower guide elements. According to a further embodiment of the invention, the upper guide element and the lower guide element have a plurality of centering pins engaging in centering bushes.

Accordingly, the leadership between the upper mold part and the lower mold part is achieved by means of centering bolts and centering bushes, which, for. B. with a round cross cut can be chosen to create a constant concentric guidance of the upper mold part relative to the lower mold part. In other embodiments, however, it is also conceivable to use other cross-sections or to work with different diameters along the guide pin.

It is provided in particular that the guide bushings and / or the guide pins are exchangeable, since they are subject to wear as moving parts and may have to be changed once or several times as long as the device according to the invention is in use.

According to a further embodiment of the invention, the lower mold part is arranged over a production board on a vibrating table, the frame of the lower mold part defining the height of the mold. The lower mold part can have an exchangeable insert, which can also be changed as a wear part during operation of the device according to the invention or is adapted to a different stone shape if the device is to be converted for a different stone shape. Just like the pressure plates and the centering bolts or centering bushes, the use of the lower mold part is provided in the form of a wear part, while the frame of the lower mold part is a reusable component of the device. The frame can therefore be reused if the stone layer changes but the shape height is the same.

The device is designed in such a way that its components can be changed in such a way that simple adaptation is possible in the event of wear or a change in the shape of the stone.

Some exemplary embodiments are explained in more detail below with reference to the drawing. Show it: Figure 1 a device according to the invention in a perspective Be tenansicht,

FIG. 2 shows the device from FIG. 1 in a first side view,

FIG. 3 shows the device from FIG. 1 in a second side view,

FIG. 4 shows a detail of the device from FIG. 1 in a perspective side view,

FIG. 5A shows a further side view of the device according to the invention during operation,

FIG. 5B shows a further side view of the device according to the invention during operation,

FIG. 6A shows a further side view of the device according to the invention,

FIG. 6B shows a sectional view of the device according to the invention in a side view, and

FIG. 7 shows a detail of the device according to the invention in a perspective side view. In the figures, the same or functionally equivalent components are provided with the same reference symbols.

With reference to FIG. 1, a first exemplary embodiment of a device 2 according to the invention is explained in detail below. The device 2 is shown in a perspective side view and has specialized che way a vibrating table 4, on the top of which is a manufacturing board 6 is. A lower mold part 8 is arranged on the production board 6, which has an exchangeable insert 10 with recesses 12 which are surrounded by a frame 14, the insert 10 in the frame 14 being exchangeable. On two opposite sides of the frame 14 retaining struts 16 which create a connection between the frame 14 and each egg ner receptacle 18. The folding struts 16 can also be part of the recording 18 men. The two receptacles 18 are arranged on four guide columns 20, which are arranged in a conventional manner in the area of the corners of the lower mold part 8 and surround the area outside of the vibrating table 4. Opposite to the recesses 12, the upper mold part 22 is arranged, which has a plurality of pressure plates 24 which correspond approximately to the recesses 12 in terms of their dimensions. The pressure plates 24 are connected via pressure rams 26 to a loading device 28, which in turn is connected to a bearing plate 30 on the side facing away from the upper part of the mold, which is guided on the guide columns 20 and can be actuated via a stamp 32 with a hydraulic press .

Between the plungers 26 and the loading device 28, a holding plate 34 is attached, which has sections 36 protruding laterally beyond the loading device 28, each of which has a guide pin 38 on its underside facing the lower mold part 8, which is inserted into a corresponding guide bushing 40 on the Folding struts 16 can intervene, the device 2 according to FIG. 1 having corresponding guide bolts 38 at each corner of the upper mold part 22 and corresponding guide bushings 40 at each corner of the lower mold part 8, so that the upper mold part 22 with respect to the lower mold part 8 via the combination of guide bolts 38 and guide bushing 40 is guided. ok

The device 2 according to the invention thus creates a combination of mold upper part 22 and mold lower part 8, in which a guide takes place not only via the guide columns 20 but also via the guide pins 38 and guide bushings 40 formed guide devices. Thus, the pressure plates 24 together with the insert 10 no longer take on any guiding function, since they are only required to compress the concrete mixture located in the recesses 12 and when the upper mold part 22 moves in the direction of the lower mold part 8, there is no longer a stop between the two moving parts can

With reference to FIG. 2, the device 2 from FIG. 1 is shown again in a first side view. It can be seen that the guide pins 38 forming the upper guide device are arranged outside the area of the stone field on the laterally protruding sections 36 so that they can engage past the production board 6 and the vibrating table 4 into the corresponding socket on the folding strut 16 without restricting the movement of the upper mold part 22 relative to the lower mold part 8 except for the Füh tion in a plane perpendicular to the direction of insertion 42. In FIG. 3, the device from FIG. 1 is shown again in a second side view from the narrower side of the upper mold part 22. It can be seen that the guide pins 38 are arranged in the area of the corners of the upper mold part 22, so that a total of four guide pins 38 can be pulled in as a guide. These are advantageously arranged in the area of the corners of the upper mold part 22, but an embodiment with only one guide pin 38 on a short side of the upper mold part 22 would also be possible.

With reference to FIG. 4, the position of the guide bushes 40 in the retaining strut 16 is shown again in greater detail. You can see that the guide bushes 40 are mechanically stable in connection with the frame 14 via the retaining struts 16 and the receptacles 18, so that the guide pins 38 can immerse accordingly. The receptacles 18 are in turn firmly connected to the guide columns 20. The combination of guide pin 38 and guide bushing 40 is shown in FIG. 4 with round cross-sections, which represent the preferred embodiments. In other embodiments, however, it may also be conceivable to use a shape of the cross-sectional area that deviates therefrom, so that, for example, elliptical, hexagonal or square bolts or sockets can also be used. The guide bolt 38 is shown in FIG. 4 in the form of a cylinder. This can also have a slightly conical shape with respect to its outer surfaces.

In FIGS. 5A and 5B, the function of the guide devices by means of the guide pin 38 and the guide bush 40 during the operation of the device 2 is explained in more detail below. It can be seen in Figure 5A that when the lower mold part 8 is released, the guide pin 38 engages the guide bush 40 so that the lower mold part 8 can be filled with an amount of concrete, which is typically done by means of a filling carriage The upper mold part 22 is already guided with the lower mold part 8 over the guide elements. With complete compression by means of the bearing plate 30, which is shown in Figure 5B, the maximum engagement of the guide elements is achieved, so that in operation of the device 2, the upper mold part 22 is constantly guided with respect to the lower mold part 8, so that on the usually not Adequate guidance via the guide pillars 20 can be dispensed with.

In FIG. 6A, the view from FIG. 5A is shown again, an auxiliary line being drawn in here, which illustrates the sectional plane A-A 'shown in FIG. 6B. It can be seen that the device 2 is modular, so that quickly wearing parts such. B. the guide pins 38, the guide Rung bushings 40, the pressure plates 24, or the inserts 10 can be changed quickly, so that a quick exchange is possible both when adapting the device 2 to changed stone shapes and when individual components of the device 2 are worn.

In Figure 7, the upper mold part 22 and the lower mold part 8 are shown again separately. It can be seen that the frame 14 of the lower mold part 8, which is provided with the exchangeable inserts 10, has the lateral folding strut 16 which is provided with the guide bushes 40. The fleas 44 of the frame 14 are the fleas of the stone formed in the recesses 12. Consequently, with the same stone height, the frame 14 can also be used for different stone sizes by replacing the insert 10 with a different insert, so that cutouts 12 that are changed in terms of dimensions would result. It can also be seen that several pressure stamps 26 and pressure plates 24 are combined to form a unit by means of a stamp plate 46.

The features indicated above and in the claims, as well as the features which can be inferred from the illustrations, can advantageously be implemented both individually and in various combinations. The invention is not limited to the exemplary embodiments described, but can be modified in various ways within the scope of the skilled person.

List of reference symbols:

2 device

4 vibrating table 6 production board

8 lower part of the mold

10 use

12 recesses

14 frame 16 retaining strut

18 recording

20 guide pillars 22 upper part of the mold

24 printing plates 26 printing stamps

28 Loading device 30 Bärplatte

32 stamps

34 retaining plate 36 sections

38 upper guide element, guide pin

40 lower guide element, guide bush 42 insertion direction

44 height

46 stamp plate

Claims

Patent claims:

1. Apparatus for the production of concrete blocks, in which a lower mold part (8) is inserted into a frame (14) which is fastened by means of retaining struts (16) to receptacles (18) of several guide columns (20) which extend along an insertion direction (42) are oriented and above the lower mold part (8) have a loading device (28) which is movable along the guide columns (20) and which has an upper mold part (22) on its side facing the lower mold part (8), in which one or more pressure plates (24) in one or more recesses (12) of the lower mold part (8) can be guided or introduced, the loading device (28) being connected to the pressure plates (24) via pressure rams (26), with between the loading device (28) and the pressure rams ( 26) an upper guide element (38) is arranged, which cooperates with a lower guide element (40) arranged on the retaining strut (16) so that the Auflasteinrich device (28) relatively during the production of concrete blocks is constantly guided to the lower mold part (8) in a plane perpendicular to the insertion direction (42).

2. Apparatus according to claim 1, wherein the Auflasteineinrichtung (28) via egg ne Bärplatte (30) with the guide columns (20) is connected, wherein between's pressure ram (26) and the Auflasteineinrichtung (28) a holding plate (34) is arranged , which laterally protrudes from the stone field from sections (36) to which the upper guide device (38) is attached.

3. Apparatus according to claim 1 or 2, in which the upper guide device (38) and the lower guide device (40) have several guide positions in the region of the frame (14) and laterally to the loading device (28).

4. Apparatus according to claim 3, in which two guide positions are provided on opposite sides of the lower mold part (8) or the loading device (28), the two guide positions advantageously being arranged diagonally opposite one another.

5. The device according to claim 4, wherein the four guide positions are vorgese hen, which are advantageously arranged in the region of the corners of the frame (14) and the Auflaeineinrichtung (28).

6. Device according to one of claims 1 to 5, wherein the upper Füh approximately element (38) and the lower guide element (40) have a plurality of centering pins engaging in centering bushes.

7. The device according to claim 6, wherein the guide bushings (40) and / or the guide pins (38) are exchangeable.

8. Device according to one of claims 1 to 7, in which the lower mold part (8) is arranged on a production board (6) on a vibrating table (4), the frame (14) of the lower mold part (8) specifying the height of the mold.

9. The device according to claim 8, wherein the lower mold part (8) has an interchangeable insert (10).

10. Device according to one of claims 1 to 9, the components of which can be changed so that an adjustment is possible when the stone shape is worn or changed.