EP1789251A1

EP1789251A1 - Press for the production of ceramic tile blanks

Info

Publication number: EP1789251A1
Application number: EP05789508A
Authority: EP
Inventors: Dietrich Engmann
Original assignee: Euroditan SL
Current assignee: Euroditan SL
Priority date: 2004-09-15
Filing date: 2005-09-05
Publication date: 2007-05-30
Also published as: WO2006029738A1; EP1637315A1

Abstract

The invention relates to a press for the production of ceramic tile blanks with a stamp support plate (2), to which several upper press stamps (3;4) are fixed, each cooperating with a corresponding lower press stamp (8;9), whereby at least one press stamp (3;4) of a cooperating stamp pair is embodied as an isostatic press stamp (3,8;4,9) with a chamber (14;15) filled with hydraulic oil. A pressure-resistant cylinder (19;27) communicates with said chamber (14;15) by means of a pressure-resistant line (18;26). The amount of oil in the isostatic press stamp (3;4) can be altered by means of changing the volume of the cylinder (19;27) filled with hydraulic oil with a continuously displaceable piston (20;28). The height of the cover plate (13) of the press stamp (3;4) can thus be altered and hence the relative press pressure between the cooperating stamp pairs (3,8;4,9) regulated.

Description

Press for the production of ceramic tile blanks

description

The invention relates to a press for the production of ceramic tile blanks with a punch carrier plate to which a plurality of upper punches are attached, each cooperating with an associated lower punch, wherein a punch of a cooperating pair of punches as isostatic stamp with a with incompressible liquid (oil) filled Chamber is formed, which is closed by a variable by changing the pressure of the incompressible liquid in its height position stamp cover plate and connected via a pressure-resistant line with an oil pressure source

A press with these features is known from document EP 0894587 A1. In this known press is the

Oil pressure source an oil pump, which is associated with a complicated system with a pressure accumulator, with pressure gauges and with valves, which are controlled by an electrical control circuit. This system serves to increase the press efficiency without increasing the pressing pressure by superimposing vibrations of the press ram with a vibration frequency of 10 to 50 pressure pulses per pressing cycle.

An isostatic press die for the production of ceramic tile blanks is also known from document EP 0893217 A1. In this known press stamp is the

Hydraulic oil-containing space within the press ram divided into a plurality of chambers, each associated with a pressure sensor and a valve, wherein the valves Chambers are selectively separable and connectable to each other. During the pressing process, the chambers are separated on the pressure medium side, and the distribution of the granules in the mold can be controlled by the pressure sensors associated with the individual chambers.

In the production of ceramic tiles, the average density of the pressed tile blanks is of great importance. In particular, when burning the pressed blanks, it is a crucial criterion for the quality of the resulting product. For example, with different average densities of tile blanks, the tiles will vary in size after firing and will need to be sorted by size (caliber). The sorting and the associated storage are on the one hand complex measures and also cause additional costs.

Different average densities of the blanks can be caused in particular by errors in filling the stamp cavities with the mixture, by dimensional tolerances of the molds and press punches and also by different pressing pressure of the individual ram. A different high pressing pressure of the individual ram often results from the fact that the punch carrier plate and / or the truss carrier plate carrying crossbeam slightly bend under the high pressure, so that the arranged in the central region of the punch carrier plate punch pairs press more than the laterally arranged pairs of punches.

In order to avoid errors caused by different average densities of the tile blanks, the average densities of the blanks are determined in the production process at certain time intervals. The values of the mean density are calculated for the Correction of the filling quantity in the molds and used for the correction of the pressing pressure of individual punches.

In practice, in isostatic punches, it is known to correct the pressing pressure of the punches so as to increase the amount of the incompressible liquid (for example, hydraulic oil) in the respective punches by connecting an oil pump. While the upper plungers, depending on the design of the press, may occasionally remain in the press when oil is changed using an oil pump, the lower plungers must almost always be removed from the press for this purpose. You are inside the mold, and have access to the filling valves located on the bottom of the mold

Press punches are therefore rarely possible. In addition, to change the amount of oil in one or more press dies, it is always necessary to stop the press and stop the production operation.

The invention has for its object to allow the pressing pressure of a pair of punches regardless of the pressing pressure of the other pairs of punches by changing the amount of liquid in an isostatic press stamp in a simple manner, without having to interrupt production.

According to the invention, this object is achieved in a press of the type mentioned above in that the oil pressure source is filled with the incompressible liquid and communicating with the chamber of the isostatic stamp communicating and forming a closed system with this pressure-resistant container, and that for the correction of medium density of the pressed tile blanks the volume of the container filled with the liquid is variable. In the apparatus according to the invention, therefore, there is a closed system consisting of two communicating chambers filled with the liquid and having a constant amount of liquid. To increase the

Amount of liquid in the chamber of the isostatic plunger, a portion of the liquid from the other chamber, namely the pressure-resistant container, displaced by reducing the container volume. Conversely, if the pressing pressure of the respective pair of dies is to be reduced, the amount of liquid in the chamber of the isostatic stamp is reduced by increasing the volume of the pressure-resistant container.

Conveniently, the container communicating with the isostatic ram is a pressure cylinder closed by a movable piston and in which the piston is slidably disposed.

Advantageously, each pair of stamps of the press is equipped with this possibility by either the upper punch or the lower punch each having its own pressure-resistant liquid container is assigned.

In an advantageous embodiment of the invention, it is provided that the determination of the average density of the tile blanks takes place by measuring the pressure-reaction forces with the aid of pressure sensors directly in the mold. While the hitherto customary method for determining the average density of the blanks is time-consuming and several further pressing operations are performed in this time, in a density determination directly in the mold, the correction of the pressing pressure can be made immediately, that is, already for the next pressing operation. It is particularly advantageous if the displaceable pistons are connected in the communicating with the respective associated press dies pressure vessels with a controllable drive, and if this controllable drive is controlled by a control circuit of the signals of the pressure sensors. In this way, an automatic correction of the pressing pressure takes place immediately, without the need for manual intervention.

For the purpose of measuring the pressure-reaction forces directly in the mold, for example, the isostatic press ram itself may additionally be provided with suitable pressure sensors.

A particularly expedient embodiment of such a pressing pressure automatically correcting press is that in a cooperating pair of dies a press ram is formed as isostatic press ram with variable amount of oil that the other ram is a solid, not isostatic press ram in which between the ram base plate under the Stamping plate Pressure sensors for measuring the pressure-reaction forces are arranged during the pressing process.

An embodiment of the invention will be described below with reference to FIG. 1 in more detail.

Fig. 1 shows a schematic representation of a section of a press with a plurality of press punches comprehensive

Press mold for the production of ceramic tile blanks.

From a press cylinder, not shown in the drawing, the Presstraverse 1 is actuated, to which the upper punch carrier 2 is attached. At the upper cancel carrier 2 a plurality of isostatic upper ram 3, 4 are secured in a suitable manner.

The lower part of the press comprises the mold frame 6 with the mold cavities (cavities) 7 forming the side walls of the molds, the lower press punches 8, 9 resting on stamp carriers 10, and the base plate 11, which in turn rests on the press table 12. By a lifting mechanism, not shown, the lower ram 8,9 are raised after the pressing process, so that thereby the pressed blanks can be raised to the upper level of the mold frame 6 and removed from the molds.

Basically, both the upper press dies and the lower press dies may be isostatic press dies. In general, however, it is advisable to form either only the upper press punches or only the lower press punches as isostatic press punches. In the illustrated embodiment, the upper

Press punches 3 designed as isostatic press punches. Behind the stamp cover plate 13 is filled with hydraulic oil chamber 14 and 15 by changing the oil volume in the chamber 14 and 15, the stamp cover plate 13 can be adjusted in height.

The chamber 14 of the ram 3 is connected via a pressure-resistant line 18 with a cylindrical pressure-resistant container 19. The volume of oil in the container 19 can be changed by moving the piston 20. When reducing the volume of oil in the container 19, the displacement of this amount of oil leads to a corresponding increase in the volume of oil in the chamber 14 of the ram 3, whereby the stamp cover plate 13 moves downward. The adjustment of the piston 20th in the container 19 can be carried out continuously via the thumbscrew 21.

The connection for the pressure line 18 takes place in the

Pressing punches 3 on the back of the press ram via a check valve 23. The check valve 23 serves to prevent leakage of the hydraulic oil from the punch when clamping the pressure line 18.

As with the punch 3, the filled with hydraulic oil chamber 15 of the isostatic press ram 4 via a check valve 25 and a pressure-resistant line 26 with a cylindrical pressure-resistant container 27 is connected. In this case, the connection valve 25 is arranged laterally on the press ram 4. Whether it is arranged at the side or at the back depends on the other design conditions of the press. With the help of the piston 28, which can be moved continuously by the thumbscrew 29, the oil volume in the container 27 is reduced or increased, resulting in a corresponding change in the volume of oil in the chamber 15 of the ram 4 and thus to a displacement of the cover plate 13 of the Press stamp 4 leads.

Of course, instead of the upper press dies, the lower press dies may be formed as isostatic press dies having the features of the invention. In the lower press dies, however, it is not possible to provide the connection to the pressure line laterally, but the connection must then always be arranged on the back.

In the example described here, the correction of the ram takes place in accordance with the values determined for the mean density by hand. As already mentioned, it is also possible to make the correction automatically when the Determining the average density of the tile blanks takes place in the manner described, for example, in EP 1533109 A2.

Claims

claims

A press for the production of ceramic tile blanks, comprising a punch carrier plate (2) to which a plurality of upper punches (3; 4) are fixed, each cooperating with an associated lower punch (8; 9), a punch (3; 4) of a cooperating pair of stamps

(3,8; 4,9) is formed as an isostatic stamp with a chamber (14; 15) filled with incompressible liquid, which is closed off by a stamp cover plate (13) which can be changed by changing the pressure of the incompressible liquid in its vertical position and via a pressure-resistant Conduit (18; 26) connected to an oil pressure source, characterized in that the oil pressure source communicates with the incompressible fluid and communicates with and communicates with the chamber (14; 15) of the isostatic plunger (3; 4) forming pressure-resistant container (19; 27), and that for correcting the average density of the pressed tile blanks, the volume of the container filled with the liquid is variable.

A press according to claim 1, characterized in that the container (19; 27) communicating with the isostatic punch (3; 4) is a pressure cylinder closed by a movable piston (20; 28), and in that the piston 20; 28 ) in the cylinder is finely graduated or continuously displaceable.

3. Press according to claim 1 or 2, characterized in that the isostatic ram is provided with pressure sensors for measuring the pressure-reaction forces during the pressing process for determining the average density of the tile blank.

4. Press according to claim 3, characterized in that the displaceable piston is provided in the communicating with the isostatic press ram pressure vessel with a controllable drive, and that this drive is controlled by a control circuit of the signals of the pressure sensors.

5. Press according to one of claims 1 to 4, characterized in that in a cooperating pair of dies a press ram is formed as an isostatic press ram with variable amount of liquid, that the other ram is a solid, not isostatic press ram, in which under the ram cover plate pressure sensors for Measurement of the pressure reaction forces during the pressing process for determining the average density of the tile blank are arranged, that the displaceable piston is provided in the communicating with the isostatic press ram pressure vessel with a controllable drive, and that this drive via a control circuit from the signals of the pressure sensors of the other Press stamp is controlled.