SU734630A1 - Device for regulating loose material moisture-content - Google Patents

Description

one

The invention relates to the automation of tachyological processes and can be used in many branches of the national economy to automatically regulate the moisture content of the materials.

A device for regulating the wetting of the bulk material is known. This device has a sensor and setting unit of humidity and a regulator of the amount of water added to the material. The unit sets the desired value of material moisture. The humidity sensor provides indications of the actual current value of the moisture content of the material after it has been humidified. If the actual value of humidity deviates from the set | the regulator changes the amount of water added to jg to the material in an appropriate manner until the actual moisture content of the material after dehumidification is equal to the specified one.

The closest in technical cyuvism to this invention is a device for regulating the moisture content of the bulk material, containing sensors for moisture, material amount and amount of water, and sequentially connected humidity controller, comparator unit, water quantity regulator, actuator and regulator installed on the main water supply 2, However, this device has insufficient accuracy.

The aim of the invention is to improve the accuracy of the device.

Claims (1)

The goal is achieved by the fact that the device contains a series-connected multiplier5, a first adder and a division unit, and a second adder, the output of which is connected to the second input of the division unit, the first input to the output of the water amount sensor and the second input to the output of the material amount sensor and the first output of the multiplication unit, the second output of which is connected to the output of the humidity sensor, the output of the division unit being connected to the second input of the comparison unit. The drawing shows the block-s EMA proposed device. The moisture control device for the bulk material consists of a humidity sensor 1, a quantity sensor 2. material, water quantity sensor 3 multiplication unit 4, first adder 5, second adder 6, dividing unit 7, humidity adjusting device 8, comparison unit 9, water quantity regulator 10, actuator 11, regulator 12 installed on supply line 13 water. Additionally, a technological apparatus 14 is depicted in which the material is additionally humidified. The device operates as follows. According to the signals from sensors 1–3, using blocks 4–7, calculate the value of the moisture content of the material after dehumidification. The obtained value in, block 9 is compared with the humidity value set by the setting point 8. If the calculated value of humidity deviates from the set one, then the regulator Yu with the help of the isapnatal mechanism 3.1 and the regulating organ 12 changes the amount of water added until the calculated humidity becomes equal to the set one. In block 4, the amount of water contained in the material is determined as the incoming signals .1. and 0 g.fA are multiplied in it, i.e. ..B., Oi .. In the adder 5, the amount of water that will be contained in the material after dewetting is determined, since the incoming signals are summed H, jO U (L = 0 W p. L. In the adder 6, the total number is determined of the material after dehumidification, since the incoming signals are summed and. (L N "PLC-7A dividing unit 7 determines the moisture content of the material, which is obtained after humidification, as the input signal is divided by the signal Q. according to the formula CdO (.pdI.; OU.A N; odey. x .n. LL.P-D. (A H OAOBSo, Due to the correct choice of the functioning algorithm, the proposed device allows to increase the accuracy of automatic regulation of the wetting of the bulk material. water actuator and regulator mounted on the water supply line, characterized in that, in order to ove the device, it contains a series-connected multiplication unit, a first adder and a division unit, and a second adder, the code of which is connected to the second input of the division unit, the first pass to the output of the water amount sensor and the second input to the first adder. the output of the material amount sensor and the first input of the multiplication unit, the second input of which is connected to the output of the humidity sensor, and the output of the division unit is connected to the second input of the comparison unit. Sources of information taken into account in the examination 1, Pitch to B, A, and others. Radioisotope control and automation in the ferrous metallurgy, M., Atomizdat, 1972, p. 27s rice, 9, 2 “USSR Copyright Certificate No. 42O993, cl. GO5 15 22 / OO, 1972 (prsgotype)