SU1157455A1 - Device for monitoring moulding capacity of silicate mixture - Google Patents

Abstract

THE DEVICE OF THE DAY OF CONTROL OF THE FORMUIMOSH OF A SILICATE MIXTURE, containing a two-shelf vibratory channel with a calibrated hole on the upper shelf, a vibrating conductor, and a measuring device, so that, with the purpose of improving the reliability of operation, the measuring device is made in the form of a pneumoeon with a hole with a hole and a hole with a hole and a hole with a slot; air pressure and air flow meter, rum installed on the bottom shelf .2 У1 1 4 JV IC cr / rfbfu $ los1uh

Description

The invention relates to the production of building materials and can be used in mass production shops. - plants for the production of silicate bricks. A formability sensor is known that contains a tray with two peaks, for each pz of which: a photosensor and a vibrating conductor are installed. The device lacks its use for the silicate mixture in low accuracy due to the frequent failure of photosensors of the silicate mass working in a highly dusty environment. The closest to the invention is a device for controlling the formability of a sheeting mixture containing a two-shelf vibrator with a calibrated hole on the top shelf, an EI conduit and a measuring device 23. A disadvantage of the known device is the low reliability due to the sling of the calibrated holes and conveyor belt The purpose of the invention is to increase the reliability of the device, - The goal is achieved. The fact that the device for controlling formability with 1pikatnogo mixture, contains two double vibratory chutes with a calibrated orifice on the top shelf, vibrodrive and measuring device, the device is made as a pyvic probe with constant pressure compressed air source: and air flow meter mounted on the bottom shelf. The drawing shows devices for controlling the formability of a silicate mixture, a general view. The device includes a vibrodrive associated with a chute 2 containing the upper shelf 3 with a hole 4 and the NIZH1Y shelf 5, on which is attached a clamp 6, connected to a l.1th source of compressed constant pressure (not shown) through route 2, on which An air flow meter is installed, consisting of a rotameter 8 and a secondary transducer 9. The pneumoeon is a hollow body with a calibrated orifice 1.5-2 mm in diameter. The device operates as follows. The receiving elongated part of the tray 2 under the action of the vibroscopic i takes a sample of the silicate mass from the incident flow. The sample, moving along the upper shelf 3 of tray 2, under the action of the nibro wire, is sifted into opening 4 and falls onto the lower shelf 5 of tray 2. Next, the sample moves in the lower shelf 5 of the tray. In the flow of the engine; the working part of the pneumatic 6 is placed along the bottom shelf of the sample. The strout of the compressed air flowing out of the calibrated orifice of the nevmotonic probe encounters resistance of the silicate mixture on its way, depending on a set of parameters characterizing the formability of the mixture, mainly moisture and granulometric composition. A change in the resistance of the mixture to the air flowing out of the pneumatic 6 leads to a change in the flow rate of compressed air in the cavity of the pneumatic cavity, which is functionally dependent on the napai-ierpa formability. The change in the flow rate of compressed air in line 7 is recorded and converted to an anap signal by a rotameter 8 and a secondary transducer 9. The proposed device has high operational reliability, since continuous blowing of the calibrated orifice of the BZ probe prevents it from flowing. In this case, the air flow meter generates an analog output signal, which allows the device to expand its functionality to control the formability of the silicate mixture and use eiO in a system with continuous control.

Claims (1)

DEVICE FOR CONTROL OF FORMABILITY OF A SILICATE MIXTURE, containing a two-shelf vibratory tray with a calibrated hole on the upper shelf, a vibroconductor, and a measuring device, characterized in that, in order to increase reliability, the measuring device is made in the form of a pneumatic probe with a constant pressure compressed air source and an air flow meter · rum mounted on the bottom floor - air 157455