SU1410922A1 - Ultraviolet irradiation installation - Google Patents

Abstract

The invention relates to agriculture and can be used for ultraviolet irradiation of animals and birds. The purpose of the invention is to increase productivity and reliability. The goal is achieved by separating the control circuits of the UV lamps 3 and the electric motors. The windings 2 of the motor are used as ballasts for ultraviolet lamps 3. The windings 2 of the motor are connected to a star, and its neutral point is connected via a capacitor to one of the phases of the supply network. After steady state operation of the UV lamps 3, a current relay 17 is activated, which, depending on the limit switches, turns on the coils of the magnetic starters with contacts 31 and 35. This leads to the activation of the stator windings 1 of the drive motor. 2 Il. (L

Description

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The invention relates to agriculture and can be used for ultraviolet irradiation of animals and birds.

The purpose of the invention is to show the performance and reliability of work.

FIG. 1 shows the scheme of the ultraviolet installation; Fig. 2 is a control circuit of an ultraviolet plant.

The installation contains a multi-speed motor, in which the stator windings 1 are considered as an integral part of a driving motor and windings 2 are used as ballasts for ultraviolet lamps 3. Windings 1 of an electric motor for moving the installation in the forward and reverse directions are connected to the network with the help of coils 4 and 5 magnetic starters, control buttons 6-10 and limit switches 11 and 12.

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The UV lamps 3 are connected to the mains using the coil 13 of the starter actuator and the control buttons 14 and 15.

In order to improve the ignition conditions of the ultraviolet lamps 3, a capacitor 16 is connected to the neutral point of the windings 2 of the motor used as ballast resistance.

The motion of the ultraviolet device starts when the lamps 3 reach their current value, Kotopoe is monitored with the help of current relays 17.

Installation can work both in manual, and in automatic, the modes. The choice of operating mode of the installation is made by switching the toggle switch 1.8. Time relay 19 is used to control the installation in automatic mode. The unit is connected to the mains using a plug connector 20 and a circuit breaker 21, and the disconnection by limit switches 22 and 23, the control circuits are protected against short circuits by a fuse 24, and the electric motor against overload is thermal relay 25,.

The electrical circuit of the UV unit allows for both manual and automatic control.

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When manually operated by means of a plug connector 20 and a circuit breaker 21, a voltage is applied to the control circuit, while the switch 18 is a series of jobs (turns to Manual. When the button 15 is pressed, the coil 13 of the magnetic starter is energized, which also operates with its contacts 26 connects the ultraviolet lamps 3 to the network through the coils of the current relay 17. The contacts 27 of the current relay 17 when the current of the ultraviolet lamps changes 3 during the process of heating are open, which prevents the installation from moving when it is not installed Modes of operation of lamps 3.

Simultaneously with the activation of the contacts 26 of the magnetic actuator, the activation of the contact 28 takes place, which bypasses the Start button 15.

Upon reaching the current value of the ultraviolet lamps 3 equal to the current triggered by the current relay 17, the contacts 27 close, which together with the closed contacts 29 of the thermal relays 25 and the open toggle switch 30 prepare the electrical circuit for its operation during installation movement.

To move the installation, you need to press buttons 7 and 8, while the coil 4 of the magnetic starter receives power, which is triggered, and with its contacts 31 it connects the winding 1 of the electric motor to the network, and contacts 32 simultaneously bypasses the button 7,

The motor, after receiving power, drives the plant, which moves forward. When the installation reaches its extreme position, the limit switches 11 and 12 are triggered, as a result of which the coil 4 circuit of the magnetic actuator is de-energized, and the coil 5 circuit of the magnetic actuator is prepared for activation.

Pressing buttons 9 and 10 closes the circuit of the coil 5 of the magnetic starter, which also operates with its contacts 33 and 34. bypasses the Start button and the limit switch 12, simultaneously connecting to the network 3. windings 1 electric motor. When this happens, the engine reverses and the installation moves in the opposite direction;

When the installation reaches its extreme position, the limit switches 22 and 23 are triggered, which disconnect the coils 5 and 13 of the magnetic starters from the mains. The installation then stops at the starting position.

To control the installation in case of non-burning lamps, the toggle switch 30 must be set to Off. In order to avoid the simultaneous switching on of the starters 4 and 5, an electrical interlock is provided by contacts 36 and 37.

The disconnection of the coils 4 and 5 of the magnetic actuators from the mains is also the same button 6, and the ultraviolet lamps 3 - button 14,

With automatic control, the switch of the 18 kind of work must be set to Auto. This energizes the time relay 19, which by its closure contacts 38 bypasses the end switch 23 and thereby prepares the switching circuit of the UV lamps 3, and the second contact 39 of the time relay 19 closes a chain of coils 4.5 and 13 magnetic starters. The ultraviolet lamps 3 turn on. After a steady state of their operation, the current relays 17 are activated, as a result of which the contacts 27 are closed.

Depending on the position of the limit switches 11 and 12, which are located in the circuits of the coils 4 and 5 of the magnetic starters, the stdtor windings 1 of the driving motor turn on. At the same time

the installation moves in the forward and reverse directions.

After working out a predetermined program, which is determined by the duration of exposure, the relay 19 of the time by its contacts 38 and 39 disconnects the installation.

Thus, an increase in the performance and reliability of the ultraviolet installation is achieved by separating the control circuits of the electric motor and the ultraviolet lamps.

Claims (1)

Invention Formula An ultraviolet irradiating installation containing two ultraviolet lamps, an asynchronous electric motor with stator windings, a control unit, an automatic switch, characterized in that, in order to increase the performance and reliability of operation, it supplies a capacitor, an additional UV lamp, a unit control - additional magnetic starter with contacts, asynchronous electric motor - additional stator winding, which is connected in a star and its neutral point is connected through The detector is connected to one of the phases, and the other ends of the additional winding are connected to one electrodes of ultraviolet lamps, the electrodes of which through the contacts of the additional magnetic actuator are connected to a circuit breaker. Fie.2 Compiled by U. Sharkov Editor O. Golovach Tehred A. Kravchuk Proofreader N. Korol Order 4338 Circulation 519 INPUTS USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5; Subscription