SU532369A1 - Liquid count - Google Patents

Description

one

The invention relates to a milking technique, namely, to counters of the amount of fluidity, preferably milk.

The counters of the quantity of liquid-} predominantly milk are known, containing a light source, a beam scanning cylinder with a hole cut through an upward spiral, a focusing system of mirrors, one of which is installed inside the cylinder, photo cells, an electric motor and an electronic control unit.

However, when the well-known counters work, the measured amount of milk npOTeJcaex through its receiving channel and has a large error in the milk count.

The aim of the invention is to increase the reliability of the account.

This is achieved by the fact that the mirror of the cylinder is mounted on the float inserted into the latter, and the cylinder bore has a rectangular profile, with the float with a mirror centered on the rod of the shaped profile.

FIG. 1 shows schematically the operation of the counter; Fig, 2 is a block diagram of the electronic part of the counter.

The counter contains a beam scanning cylinder 1 with a hole 2 cut in an upward spiral and a hole 3 for starting reading with a slotted light source 4 with a focusing system built in. The cylinder rotates from the electric motor 5. In addition, the counter contains a device 6 for moving the vertical cylinder , a float 7 with a mirror 8 fixed at its end, moving in a measuring glass 9 in a vertical plane on a figure rod 10, focusing a mirror system 11, a receiving photocell 12 and a photocell 13 readout, connected through the element OR 14 and the differentiating circuit 15 to the counting input of the control trigger 16, the unit output of which is connected to the controllable input of the pulse generator 17, which is connected to the pulse counter 18, the element And 19, the information processing unit 20, the decoder 21, the perforator 22,

In operation, the scanning cylinder 1 rotates at a constant speed and, with its full rotation, the beam from the slit source 4 moves in a vertical plane along a straight line and at a certain interval falls on the mirror 8. When a beam hits through the hole 3 on the photocell 13, the control trigger 16 through the differential circuit 15 is transferred and at its output there will be a zero potential, the pulse generator 17 will start producing signals that will be read by the pulse counter 18.

If the measuring cup 9, located on the milking unit, did not approach the location of the scanning cylinder 1, then the beam from the slit light source 4 does not fall on the mirror 8, and the pulse generator 17 will give pulses until the counter 18 is filled, which will count the pulses to a certain the numbers, and then is reset, with the same signal it will transfer the control trigger 16 through the OR 14 element and the differentiating circuit back to the initial state. The latter, switching a negative potential at its output, will open the power supply circuit of the pulse generator, which closes again when the photocell starts to read when the light beam crosses 13 The information processing unit will not read signals from the counter, since there is no resolution signal from the receiving photocell 12 to element I. If the Mepiibift glass 9 will fall into the measurement interval, then the beam from source 4, reflected from the mirror 8j, will fall through the focusing system of mirrors 11 to the photocell 12, which through the element OR 14 and differentiates

the circuit 15 will reset the control trigger 16 to the initial state. The latter opens the power supply circuit of the pulse generator 17 and gives a signal to read the number of pulses from counter 18 to element 19. The information-processing unit will reduce the number of pulses from the generator 17, counted last, to the number of pulses proportional to the height of the mirror 8 and the float and, consequently, the amount of milk in the measuring glass 9. The block 2O, when read, will put the counter 18 into the initial state and through the decryptor 21 and the perforator unperformes the tape on which children reside average result of measurement equal to the number of complete revolutions of the cylinder 1.

The vertical movement device 6 of the scanning cylinder and the photocell start reading, serves to combine the height of the measuring cups and the counter.

Claims (1)

1. A counter of the amount of liquid, mainly milk, containing a light source, a beam scanning probe with a hole cut in an upward spiral, a focusing system of mirrors, one of which is installed inside the cylinder, photo cells an electric motor and an electronic control unit, characterized in that In order to increase the reliability of the account, the cylinder mirror is installed on the floating part inserted into the latter, and the cylinder bore has a straight profile, 2, the counter according to claim 1, characterized in that the float with a mirror is centered with a rod of a shaped profile