CZ191794A3 - Process and apparatus for measuring properties of moulding material - Google Patents

Abstract

The device has a filling station (2) and two testing stations (2, 3). A shell body (9) filled with a foundry casting material is moved together with a base plate (10) into the first testing station (2), in which the compressibility measurement takes place using a press device (13) and a test specimen is produced. After moving the shell body (9) with the test specimen on the base plate (10) into the second testing station (3), the measurement of gas permeability, crushing strength and double shear strength takes place here. <IMAGE>

Description

(57) The apparatus has a charging station (1) and two test stations (2, 3). The sleeve-shaped body (9) filled with the foundry molding material is moved together with the soil plate (10) to the first test station (2), where the compressibility is measured by the device (13) and the test body is made. After the sheath-shaped body (9) with the test body on the soil plate (10) has been moved to the second test station (3), the gas permeability and the double shear strength are measured.

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9427.

Method and apparatus for measuring the properties of the molding material

FIELD OF THE INVENTION The present invention relates to a method for measuring the properties of a molding composition of foundry molding compositions according to the decisive features of claim 1, and to an apparatus for carrying out the method.

For consistently the same quality of the castings, the molding compound is of the same constant quality and therefore it is necessary to maintain its properties within the required narrow tolerances during the entire casting process during the preparation of the foundry molding compound.

BACKGROUND OF THE INVENTION

Known laboratory test methods using individual instruments are not suitable for rapid evaluation of measurement results and for automatic control / control of sand preparation during the manufacturing process. For automatic control / control devices have been developed and procedures of the type mentioned above (e.g. USPS 2,791,120) The molding materials taken from the sand circulation form test bodies, on which only the two measuring methods (compressibility and compressive strength) / instantaneous properties of the molding material are determined.

The disadvantage of this method and apparatus is that in most cases the number of different measurements is too small for accurate evaluation and continuous influencing of the molding material properties, the measurement results are often inaccurate, and that the device is often equipped with several round table housings to produce cylindrical test specimens. large equipment dimensions and large construction costs.

SUMMARY OF THE INVENTION

SUMMARY OF THE INVENTION It is an object of the present invention to provide a method of the kind initially described in which more different methods of measurement and accurate measurement results, including evaluation thereof, can be achieved more precisely by maintaining the required molding material quality. should be used as a laboratory apparatus at low construction costs, but also for automatic control of sand treatment.

With the invention, this object is achieved by the characterizing part of the claim of the measuring method 1 and of the device 6.

Further advantageous embodiments of the invention are described in the dependent claims.

Overview of the drawings

The invention is illustrated in the accompanying drawing by way of example and is described below.

The single figure shows a schematic representation of a device for measuring the properties of a molding composition.

DETAILED DESCRIPTION OF THE INVENTION

The figure shows an apparatus for measuring the properties of the molding material having a foundry molding material taken from the feed station 7 for the batches taken out of circulation, a first test station 2 and a second test station 3.

The filling station 1 has a filling funnel 5 arranged outside the housing 4, which can be closed by a flap arranged at the lower end. Handling device 2 / ^per login account ^and lifting cylinder, the shutter may be opened or closed 6_ .Plnící 2 funnel ³ and connected to a device for measuring the weight 2 is fixed to the housing

Shaped body housing 3, which can be filled foundry molding, together with the bottom plate 10 can be shifted from the filling station to the first test station 2 s ^{The first} sliding device 11 engages on the bottom plate 10, the second přičemč 'sliding device 12 is arranged on the attic panel 10 and with this sliding, serves to move the housing 9 on the soil plate 10.

The sliding devices 11, 12 may be actuated by electric, hydraulic or pneumatic actuators.

In the first test station 2, a compression device 13 with a pressure measuring device 14 and a track measuring device 15 is not arranged above the housing 2 for compressibility. The compression device 13 preferably has an electric or pneumatic actuated actuator 16 with a punch 17, being between the actuator 16 and a pressure measuring device 14 operating on the basis of an electric box load cell is provided by the punch 17.

In the second test station 3, a further compression device 18 with a servo drive 19 and a punch 20 is arranged above the housing 9 to measure the resistance to pressure. The servo drive 19 is provided with a path measuring device 21 and corresponds to the servo drive 16 with its path measuring device 15.

Below the soil plate 10 with a through hole 22 there is arranged on the abutment part 23 a pressure measuring device 24, designed as a box load cell, which is used for measuring the resistance to pressure.

The seating part 23 and the pressure measuring device 24 are displaceably displaceable by the sliding device 25, the sliding device 25 having an electric, hydraulic or pneumatically actuated actuator 26, on which a holding part 27 with a pressure measuring device 24 and a bearing part 23 is arranged.

The punch 20 has nozzles 28 for the flow of gas or compressed air in its printing surface. The nozzles 28 are coupled for measuring gas permeability to a gas pressure generator, preferably a compressed air generator 29 designed as a fan. .

Below the bottom plate 10 is in the second test station 2 an actuator 30 horizontally movable plunger 31 provided with _a U-shaped abutment 33 with the pressure measuring device 32 for measuring the double shear strength.

All pressure measuring devices 14,24,32, track measuring devices 15 and 21, as well as weight measuring devices 8, are connected via a line to the measuring device 40 for the transmission of electrical measurement values, in which they are evaluated, displayed, stored memory and / or print, so that they can be used for quality assurance.

The process of manufacturing the test specimens and measuring the properties of the molding composition with the apparatus described above is as follows:

For foundry purposes in the molding plant, the molding compound produced is conveyed in small quantities to the filling funnel 5, which is filled with a molding compound of a predetermined weight

By opening the flap 6, the molding mass is filled in the loosened state into the cavity of the housing-like body below it.

As the sleeve 9 is moved together with the soil plate 10 to the first test station 2, the excess molding mass is wiped off the sleeve 9.

In the test station 2 the molding mass is measured, the punch 17 compacting the molding mass up to a predetermined pressing force, which is measured by the pressure measuring device 14. The compression path is then measured by the travel measuring device 15 and transferred as a signal to the evaluating apparatus. 40.

The measured compression path simultaneously determines the height of the normal specimen. If it does not have a normal height of the specimen, the measured value is used to correct the weight of the molding mass dosed v. the full volume of the sleeve-shaped body 9 is also taken as the basis for the calculation.

By compacting the first test body, by sliding the housing 9 on the soil plate 10, it moves to the second test station 3. The test body is then passed through a through hole 22 in the soil plate 10 through the punch 20 of the compression device 18 up to the abutment part 23.

Here, by shifting the U-shaped punch 31 by the actuator 30, the double shear strength is determined, whereby the signals from the pressure measuring device 32 are fed to the evaluation device 40.

The test pieces cut off after sliding the contact piece 23 to the left into the tank. The resistance to pressure and gas permeability measurements may only be carried out on a normal test piece with a certain normal height. the height of the normal specimen is determined by the path measuring device 15.

If the corrected amount of molding material was not correct by weight, this procedure is repeated until the normal specimen reaches normal height when the corrected amount of fill is compressed.

After moving the normal test body with housing 9 to the second test station, the gas permeability is measured by sliding the punch 20 into the housing-shaped body 19.

In this case, a constant volume of gas flow - preferably through the air jets 28 - is introduced into the test body in the time unit, the maximum pressure increase being measured and supplied as an electrical signal to the evaluation device 40.

Thereafter, the normal test body is forced through the punch 20 through the through hole 22 onto the contact piece 23 and the test body is subjected to pressure resistance. After shifting the abutment part 23 to the left, the scattered parts of the normal test piece fall into the underside of the tank.

All successive measurement values such as compressibility, compressive strength, gas permeability, double shear strength and sand mass, as well as the calculated ratio of shear strength to compressive strength!, Are used to analyze the molding composition treated in the molding composition, comparing the predicted and actual values and automatic correction of the molding material properties is possible.

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- with PATENT REQUIREMENTS

Claims (12)

A method for measuring the properties of a molding composition on a foundry molding mold body made in a sleeve-shaped body, characterized by the following method steps: Filling the sleeve-shaped body with a foundry molding composition, measuring compressibility by a predetermined force, whereby the height of the compacted specimen is determined by measuring the double shear strength on the specimen. Extruding the test piece parts, determining the weight of the molding material filling to achieve a standard height of the normal test body as a function of the compressibility measurement and the full volume of the sleeve-shaped body; measuring the resistance to pressure on a normal test specimen, passing the measured values of compressibility, the weight of the molding mass of the normal specimen, the double shear strength, the gas permeability and the pressure resistance to the evaluator. Method according to claim 1, characterized in that the process steps e (a) and (f) are repeated several times until a normal test specimen of the required height is produced. Method according to claim 1 or 2, characterized in that the measured values are digitally displayed, displayed on the image and / or printed. 3. Ί Method according to one of claims 1 to 3, characterized in that the measurement values are converted into control or control signals which automatically control or control the addition of the components of the mixture necessary to maintain the predetermined parameters of the molding composition. 5. The method of claim laž4 _t wherein t is in that the permeability measurement, which measures the dynamic pressure, the gas stream is conducted preferred method vzduchu- constant volume. Device for carrying out the method according to one of the claims 1-5 _from being characterized in that the shaped body casing / 9 / can be shifted away from the filling station / 1 /, together with the bottom plate / 10 / feeding unit / 11 / to the first test station / 2 / and thence to soil plate (10) to the second test station (3). Apparatus according to claim 6, characterized in that the filling station (1) has a filling funnel (5) with an adjustable weight gain device (8). Device according to claim 6 or 7, characterized in that in the first test station (2) a compression device (13) with a pressure measuring device (14) is arranged for measuring the compressibility over the housing-shaped body (9). and a path measuring device (15). Apparatus according to one of Claims 6 to 8, characterized in that in the second test station (3) a further compression device (18) is provided for measuring the resistance to pressure above the housing-shaped body (9) and below. with a floor plate (10) with a through hole (22), a seat (23) with a pressure measuring device (24). Device according to one of Claims 6 to 9, characterized in that a horizontally displaceable U-shaped punch (31) is arranged in the second test station (3) for measuring the double shear strength under the soil plate (10). , with thrust bearing (33) equipped with pressure measuring device (32). Apparatus according to one of claims 9 or 10, characterized in that the second compression device (18) is provided with nozzles (28) which are connected to a gas pressure generator, preferably air pressure (29), for measuring gas permeability. Device according to one of Claims 9 to 11, characterized in that the bearing part (23) in the second test station is a horizontal adjusting device (25),