SU1630896A1 - Device for continuous measurement of wood particle flow - Google Patents

Abstract

The invention relates to the forest industry, namely to automation equipment for the manufacture of wood-based panels. The aim of the invention is to increase the sensitivity of the device. A device for continuously measuring the flowability of wood particles in a stream contains a sensing element 1 made in the form of a plate 2 with a piezoelectric transducer 3 mounted on a frame 4 housed in bearings 5. The frame 4 is provided with a rod 6 connected to a spring 7 and a damper 8 and fitted a plunger 9 disposed in the differential transformer sensor 10. The device also comprises an amplifier 11. a threshold element 12, amplifiers 13 and 15, a voltage source 14, a recorder 16. Piezoelectric transducer photoelectret 3 receives acoustic signals incident on the particle plate, and converts them into electrical signals, which are compared with the reference signal from the reference voltage source, and then amplifying and corrections provided to the registrar 16. The entry 1 yl. (L with

Description

The invention relates to the forest industry, namely to automation equipment for the manufacture of wood-based panels.

The purpose of the invention is to increase the sensitivity of the device.

The drawing shows a diagram of the proposed device.

The device contains a sensing element 1, made in the form of a plate 2 with a piezoelectric transducer 3 mounted on a frame 4 housed in bearings 5. The frame 4 is provided with a rod 6 connected to a spring 7 and a damper 8 and provided with a plunger 9 located in a differential transformer sensor 10. Piezoelectric transducer 3 is connected to an amplifier 11, the output of which is connected to the first input of the threshold element 12, the second input of which is connected to the output of the first amplifier-corrector 13, the inputs of which are connected with the differential transformer sensor 10, the third input of the threshold element 12 is connected to the source 14 of the reference voltage, and the output is connected to the input of the second amplifier-corrector 15, the output of which is connected to the recorder 16.

The device works as follows.

The flow of wood particles falls on the angled plate 2 of the sensing element 1. If the particle flow is less than 0.5 kg / min, the horizontal component of the force resulting from the collision of the wood particles with the plate 2 will be insufficient to overcome the rigidity of the spring 7 and movement of the rod 6 with the plunger 9 in the differential transformer sensor 10. Therefore, this value would practically not be recorded by the device, and therefore would not be taken into account by the operator. But, due to the presence on the plate 2 of the piezoelectric transducer 3, the latter perceives the acoustic signals of the particles falling on the plate, convert them into electrical signals and they (through the output of the amplifier 11) arrive at the first input of the threshold element 12.

With a flow of 0.5 kg / min or more, a part of the particles is retained on the plate due to the fact that the velocity of the newly arriving particles is greater than the velocity of their descent from the plate surface. Therefore, the acoustic signal from the newly arriving particles will hardly be perceived by the piezoelectric transducer. But with such a particle consumption (0.5 kg / min and more) the horizontal component of the force arising from the collision of particles on the plate increases. This force, acting on the plate 2, overcomes the calibrated resistance of the spring 7 and moves the frame 4 placed in the bearings 5, and with it the rod 6 with the plunger 9, which produces a signal in the differential transformer sensor 10, which is fed to the inputs of the first amplifier-corrector 13, and with

0 its output is to the second input of the threshold element 12, in which the two signals are compared with the specified value of the reference voltage supplied through the third input of the threshold element 12 from the source 14 of the reference voltage. The frame 4 returns to its original position under the action of the spring 7, while the damper 8 damps the oscillations.

If the signal from the piezoelectric transducer 3 is smaller in terms of the signal from the source 14 of the reference voltage, and this is equivalent to the particle flow less than 0.5 kg / min, then the threshold element 12 passes it through its the output to the input of the second amplifier-corrector 15, where it, after amplification and correction, enters the input of the recorder 16.

If the signal from the piezoelectric converter 3 is supplied equal to the signal level of the source 14 of the reference voltage, and this corresponds to the fact that the fluidity of the particles is equal to or greater than 0.5 kg / min, the threshold element 12 will switch from the first

5 inputs to the second, resulting in the input of the amplifier-corrector 13 receives a signal from the differential transformer sensor 10. From the output of the threshold element 12, the signal goes to the input of the amplifier-corrector 15, and from its output - to the recorder 16. With decreasing particle yield the amount of movement of the plunger 9 decreases, and when the level reaches less than 0.5 kg / min, the threshold element 12 goes over

5 to the initial state, i.e. the cycle repeats. The plate 2 of the sensing element 1 can be made of aluminum alloy V9573, the piezoelectric transducer 3 can be of the PZT-19 type, the differential-transformer sensor 10 can be of the PD-4 type, and the equalizer-amplifiers 13 and 15 and the threshold element 12 can be made On any operational amplifiers of the K 140 series, any digital voltmeter can be used as a recorder 16.

Claims (1)

Apparatus of the Invention A device for continuously measuring the flowability of wood particles in a stream, comprising a sensing element in the form of an inclined plate with a piezoelectric transducer rigidly connected to a frame mounted on bearings with horizontal movement and rigidly connected by means of a rod to a plunger of a differential transformer sensor The rod of the latter is spring-loaded and associated with a damper, a recorder and an amplifier, characterized in that, in order to increase the sensitivity of the device TWA, the threshold element is introduced into it, the first and the second 0 amplifiers-proofreaders and a source of reference voltage, the output of the piezoelectric transducer through an amplifier connected to the first input of the threshold element, the second input of which is connected through the first amplifier-corrector to the output of the differential transformer sensor, the output of the reference voltage source, the output of which through the second amplifier-corrector is connected with the recorder.