SU402800A1 - VPTB ipup wmmim - Google Patents

Description

one

The invention relates to the field of automatic dosing and determining the properties of building materials.

A device for automatically taking a sample of a building material is known, which includes a feed bin, metering devices with a weight meter and a weight sensor connected to a control unit for the selection process.

The purpose of the invention is to determine the physicomechanical and physicochemical properties of a building material.

This is achieved by the fact that the device is made with the mechanism for changing the sample of the material, with the device for removing the impurities separated from the test sample and the secondary weighing dosing unit whose inputs are connected to the outputs of the control unit connected to the analog memory unit connected in turn to the system of automatically setting the prescription weight of the material under study.

Diagram of the device shown in the drawing.

The device comprises a feed hopper 1 having an inlet shutter 2, a dispenser 3 and a secondary weighing dispenser 4. Dispensers 3 and 4 are connected to a weight measuring device 5 and a weight sensor 6 connected to a control process control unit 7.

The device is equipped with a mechanism 8 for moving a material sample and a device 9 for removing detachable samples from the test sample.

impurities. The inputs of the dispensers 3 and 4 of the mechanism 8 and the device 9 are connected to the outputs of the control unit 7, which, in turn, is connected to the analog memory unit 10 connected to the system 11 automatically setting the prescription weight of the material under study. The device works as follows. In accordance with a predetermined time cycle, at the command of the selection process control unit 7, the shutter 2 of the feed hopper opens and the material to be analyzed enters the dispenser 3. The weight of the sampling taken is proportional (on a given scale) to the prescription weight of this material for the dosed

composition of concrete. Upon reaching the specified weight of the sample in the dispenser 3, the unit 7 issues a command to close the shutter 2 and simultaneously starts the sample transfer mechanism 8, including its actuator 12. After the mechanism starts

8, block 7 sends a signal to open the outlet gate of the dispenser 3, and the material begins to flow into the device 9, which separates the corresponding impurities from it. After the disperser has been dispensed, the dispenser 3 has its shutter according to the signal

the weight sensor 6 through the block 7 is closed, and after a certain time has elapsed, after finishing the supply of material, the sample transfer mechanism stops. At the end of the cycle of operation of the device 9, the mechanism 8 delivers the remainder of the sample of material to the dispenser 4, which is ensured by reversing the drive 12. The material fed to the dispenser 4 is weighed by the weighing device of biv block 7 is compared with the weight of the material sample until the impurities are eliminated. The difference between these values is entered into the B block 10 of the analog memory, and then supplied to the system 11 by automatically setting the prescription weight of the material under study as a correction value for the weight of this (or several) material. Dispenser 4 is emptied, and the device returns to its original state.

Subject invention

A device for the automatic sampling of a building material, including

feed bin, metering device with weight meter and weight sensor associated with the control unit of the selection process, characterized in that, in order to determine the physicomechanical and physicochemical properties of building materials, the device is made with the mechanism of sample material interchange, with a device for removing a section impurities from the test sample and a secondary weighing dosing unit whose inputs are connected to the outputs of the control unit connected to the analogue memory unit connected in turn to the system of prescription specifying the weight of the material.

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