SU305185A1 - DEVICE FOR REMOTE AND AUTOMATIC PROCESS CONTROL HALL GRAIN SUNGLASSES - Google Patents

Description

The invention relates to the brewing industry, namely, devices for remote and automatic control of the grain locking process, such as barley, in batch vats in the production of brewing malt.

The process of barley lock usually lasts about 70 hours. During this time, the following operations are carried out: washing the grain, disinfecting it, soaking it under and without water, irrigating, sucking carbon dioxide, etc.

In order to perform these operations for the entire lock period, it is necessary to perform about 300 switchings of valves and mechanisms; of which about 80% are mass cyclically repetitive operations.

In the course of the air-irrigation lock, the operations of irrigating the grain with water, draining the water and sucking carbon dioxide are performed. These three operations form a group that is repeated many times. To perform such a group of operations, the following switchings must be performed: open the valve through which water is supplied for irrigation; open a valve to drain water from the tank; close the first valve; close the second valve; turn on the fan for carbon dioxide suction; open the valve on the carbon dioxide suction pipeline; stop

fan; close the valve on the pipeline. After the last operation in the group is completed, the first one begins again, and so the groups of basic operations repeat the specified

number of times During a lock, such groups of operations are repeated first 15–20 times, and after several auxiliary operations, another 8–10 times.

This means that for one full cpc locking device, in order to fulfill the mass cyclically repetitive operations, you need to perform about 240 switchings (30 groups of operations with 8 switches in each group). There are known devices for distapting and

automatic control of the grain locking process, the advantage of barley, containing remote control switches, software, controlled by means of contactors actuators of the locking bodies of actuators and signal lamps.

The proposed device, for the purpose of automating the control of cyclically repetitive priming operations, is equipped with an instrument

to count a given number of operation cycles controlled by a software device.

The actuators of the locking bodies, it is advisable to provide pathways switches used as

us, providing aeration and suction of carbon dioxide from the grain.

The drawing shows a circuit diagram of the proposed device.

The circuit contains switch B of the device; I love you; time relay RV relay counting pulses RSI; Yao switch, switch. drain water / 7, iodachi water

carbon dioxide suction ya

P,

koiechnyi

switch to open the actuator bDO, drain the water of the EKR, supply water VKoD And carbon dioxide suction VK. , water drainage / 7MO (,, j, water supply, PMO, and carbon dioxide suction, magnetic starter, GlMZo irrigation, water filter PA13., water supply, YAL13d, and carbon dioxide suction, magnetic valve starter; g1ora /// VI; switch and. auto:, static 10 operating modes Fan s (M or L); motor D fan; LOT lamp and 3g alarms for signaling the end of the cycle; alarm lamps for opening the LOO and closing the irrigation switch of the RTB time relay.

Time Relay RV has six co-tacts with individual setting of time, time, start, end, and start of each time. These contacts control the NO. MOP1.YO actuators to switch the valves to the tank.

Integral improvements in the reliability of the circuit design without intermediate relays and other auxiliary elements, for which the final switches of the actuators, in addition to their normal functions of locking the drive and executing the mechanism and signaling its position, are assigned the role of control software, including on and off. A torus for carbon dioxide suction.

One of its co-tacts RV time relay delivers innullae at the end of each group of operations. These emulsions are reconstructed by the RSI pulse counting relay, which, when working from a set number of operation groups, which corresponds to the number of irus pulses, turns off the time relay and closes the signal bell circuit. Upon receipt of a signal, service personnel may perform the required operations for remote control of mechanisms or a set of new programs. Without switching valves and mechanisms, cycling operations of B1 1 loop automatically occur.

The attendant sets the duration of the individual operations and sets the relay the count of the number of soil to be performed on the relay.

The rest of the single operations are managed by the staff remotely.

The device works like an educator.

When I turn on the switch I, through its BPV contact, the breaker contact PBi and the contact breaker RSI triggers the time relay PB and, in accordance with the target program, sequentially switches its PBz-PB contacts in time. Simultaneously with the relay in the RV relay, the following are triggered:

a) magnetic starter and MO o, which feeds the drive to the actuator using an inverse valve mechanism, which opens water iodachi

irrigation, by interest: contacts - // o, PB, VKO, PMZo, PMO coil ,. When the valve is fully opened, the VKO limit switch breaks the IMO coil circuit and the actuator. Through the contact of the limit switch VK.Oo turn on the lamp LO ,,. sialymalizing irrigation onset;

b) the YALYU magic actuator, which controls the opening of the valve on the water from the vat of the circuit: contacts - Yao, BPV, RV,

, NMZsl, coil YALUY., - Opening veitil on the discharge of water is signaled by a lamp as described above.

After a specified time delay, the PBz and RVU contacts are bored, which is why the circuits: П, ВРВ, РВ2, VKZo, ПМО, operates ПМЗо and closes the valve on irrigation, and on the Яо, ВРВ, PBz, ПМЗо and closes the creeper on irrigation, and on the chain Yao, BPV, RV VK.Z contact

I / IOSl works and closes the valve to drain water from the tank.

Next, the PB4 contact closes along the circuit: Yao, VRV, PB-, PB, VKO, PMZu, turns on the MIP, so that you open the valve on the pipeline through which carbon dioxide is sucked out of the tank. When this valve is fully opened, the limit switch B KO is closed, and the magnetic drive switch of the fan drive on carbon dioxide suction is turned off. After a predetermined time delay has elapsed, the PBA contact closes and switches off the starter actuator through the Yao, BPB, PB5, and PAU circuit. At the same time, the valve of the suction of gas of the gas

is closed, and the CTP switch opens, shutting down the NM actuator and stopping the fan.

Since one fan can operate for three vats, to start it, it is enough to open the valve on the suction of carbon dioxide gas of any of the three vats. At the same time, JBKO,;, 2ВКОУ or ЗВКО ,, respectively. At one time, the PB contact closes the next impulse to the RCI relay. After the end of the cycle, the contact PBi is opened, which de-energizes the magnet of the relay lipeMeiiii PB, causing the contacts of the latter to switch, drive the circuit to the initial state, and the cycle of operations is repeated.