SU1001218A2 - Relay device - Google Patents

Description

(54) RELAY DEVICE

The invention relates to electrical engineering and can be used in various schemes of relay automation.

According to the main author. St. 775783, a relay device is known comprising a base on which at least two electromagnetic relays are installed, each of which has its own magnetic system, with the measles of electromagnetic relays mechanically interconnected. The device includes a microswitch, angle brackets for the number of electromagnetic relays, articulated mechanisms also for the Number of electromagnetic relays, and a common bracket that is connected with the specified angle brackets with the help of articulated mechanisms and is installed with a possibility to act on the microswitch. The adjustment mechanism is made in the form of a screw and the nut is centered l.

However, the known device has limited functionality, since it does not contain means for providing memory.

The purpose of the invention is to expand: the functionality of the device.

The goal is achieved by the fact that the relay device is equipped with a Vi-i unlocking screw and and - 1 latch, where I is the number of electromagnets, latches are mounted on I-1 electromagnet, each latch is intended to fix the core of the corresponding electromagnet, and unlocking screws are mounted on a common bracket when

10 this each, of the unlocking screws is installed with the possibility of interaction with one of the latches.

Every measles electromagnet with a latch is made with a projection, koikda

15, the latch is made in the form of an L-shaped jpeg, one of the arms of which is made with a groove for inserting the protrusion of the core of the electromagnet, and the other of its shoulder is spring-loaded.

20

Each spring-loaded shoulder of the L-shaped lever is made with a shank, the levers are set so that their shanks are placed one below the other in the switching sequence of electromagnets with latches and with the possibility of pressing each subsequent shank into the previous one when it is turned off.

Claims (6)

A groove in one of the arms of each lever 30 ha is made with a bevel of the groove edge. in order to simplify the design of the device, one unlocking screw is used in it, which has in. possibility of interaction with the upper arm arm. In order to increase the duration of the output signal. A micro switch with several closing contacts is used, the input of each electromagnet with a latch is connected through the corresponding closing contact of the microswitch to the input of an electromagnet without a latch. FIG. 1 shows a relay device, general view; in fig. 2 1, top view; in fig. 3 is the principle electrical scheme for using a material metering device in batch dosing. The device contains a base 1 with electromagnets 2-4 attached to it, each of which consists of a movable core 5, on which hinges b are installed, magnetic circuits 7 on which latches 8 with a locking element 9 are mounted. Each electromagnet has a limiter 10 of the cor. The latches 8 have the form of L-shaped levers, are installed with the possibility of turning on the axis 11 and are spring-loaded with the help of springs 12. Each lever is equipped with a shank 13 and five 14. The grooves 15 in the locking elements of the latches are made with bevels of their edges. Each measles 5 electromagnet –lz is prepared with a protrusion 16, which is installed with the possibility of free entry into the opening of the limiter of the core stroke and free entry into the groove of the fixing element 9 of the latch 9. The armature 5 is connected to each other by means of hinges b by a common bracket 17, the screws 18 are installed, each with the possibility of affecting the corresponding latch pin 14 of the latch. The common bracket 17 is provided with an adjusting screw 19, which is mounted with the possibility of operating the microswitch 20 fixed on the base 1. In addition, the common bracket 17 is spring-loaded. 21 installed on the direction of & shh. The electric circuit shows the control windings of electromagnets 2-4, the contact group of the closing contacts of the microswitch 20 and the electromechanical counter 22 pulses. The device works as follows. When a signal appears at the input of an electromagnet, for example, its control winding 2 is energized and attracts the movable measles 5, the protrusion 16 of the core, while slipping into the groove 15, enters it. Fixing element 9 of latch 8 by means of push-bar 12, turning on axis 11, fixes measles on protrusion in a tightened state and when the input signal disappears on electromagnet 2. At the moment of movement of the cortex 5 and fixing element 9 of latch 8, the unlocking screws 1 move down thanks to the movement of the common bracket 17. In turn, the following 14 latch: the electromagnet moves upward to meet the unlocking screw. When an input signal appears at the input of the electromagnet 3, by analogy with the above, is fixed with the help of the latch latch of the electromagnet 3 bore. Due to the increment of movement of the common bracket 17 and the setting, each unlocking screw 18 comes close to the corresponding 14 latch 8, more In addition, the adjusting screw 19 is almost in contact with the microswitch 29. When the input signal is applied to the electromagnet 4 and with the beginning of its movement, the core moves through the common bracket 17 to the adjusting screw 19, microswitch 20. A signal appears at the output of the device. Further movement of the rolling core. 5 electromagnet 4 causes further movement of the common bracket 17 down. The force on the microswitch 20 increases slightly, since the adjusting screw 19 is spring-loaded and has the failure necessary to move the common bracket from the moment the core of the electromagnet 4 is moved until it is fully turned on. The rest of the measles electromagnets 2 and 3 must be fixed by snaps in an attractive state. At the end of the movement, each unlocking screw 18 acts on the corresponding 14 of the latches 8. The locking elements 9 release the protrusions 16 of the bark 5. The anchors, returning to the initial position, pull the common bracket 17 through the hinges b to the initial position. -. set Thus, the device is adjusted so that the microswitch 20 operates from the moment the electromagnet 4 is moved when two friends 2 and 3 are turned on. This is done by adjusting the screw 19. The impact on the pin 14 of each latch should occur only at the end of the movement of the electromagnet core 4, which is achieved by adjusting the unlocking screws 18. Hence, the signal at the output of the device is present from the moment of moving the electromagnet 4 to its full activation. With the number of inputs equal to three, two electromagnets are equipped with latches, with two inputs - one. In order to ensure that the korea is fixed in a certain sequence, the latches 8 are provided with shanks 13, which are installed one below the other in the switching sequence of the electromagnets with the possibility of abutting each subsequent one into the previous one. The order of switching on the device is as follows. First, the magnet of the electromagnet 2 is fixed. The latch tail moves upward freely, clearing the way for the movement of the shank of the electromagnet 3. If the input signal comes first to the winding of the electromagnet 3, then its measur 5 is pulled, but is not fixed by the locking element 9 of the latch due to that the latch cannot be turned from along the axis 11, resting with the shank in the needles. electromagnet 2. When the input signal :: aa disappears, the measles returns to its original state. For this purpose, there is a groove in the fixing element with a bevel of its edge, as a result of which the projection of the core does not stop. The electromagnet, which is included in the last turn, is not necessary to equip with a latch. The operation of the relay device in order to account for the material or the passage of the product in batch dosing is as follows. Accounting for products can be conducted in three (three-input device and two two-input device) parameters. Consider the operation of a three-input device for this purpose. Input 1 of the device is connected, for example, to the control circuit of the hopper gate, from which material is fed. Inlet 2 is connected to a control circuit of a conveyor (fan) conveying material (product). Input -3 is connected to the control circuit of the batch metering unit (weights). An electromechanical counter 22 records a unit of production only after all operations have passed in a certain sequence. When testing drives in manual mode in a different sequence, false triggering of counter 22 is eliminated. To increase the duration of the output signal, a microswitch with several closing contacts is used. One make contact is connected to the output signal line, the other two to the inputs of electromagnets equipped with latches, as shown by the dotted line in FIG. 3. The power of the contact group is taken from the line of the input signal of the device, which is not equipped with a latch and is included in the last cycle. The appearance of the signal on the electromagnet 4, while the electromagnet 2 and 3 are in a fixed state, leads to the inclusion of the microswitch 20 and the signal to the two remaining inputs. The output signal is now present as long as there is an input signal at the input of the electromagnet 4. With its disappearance, the relay device returns to its original state. The output signal disappears. Claim 1. Relay device according to the author. St. No. 7757JZ, characterized in that, in order to expand its functionality, it is equipped with a U1-1 unlocking screw and an L-1 latch, where K1 is the number of electromagnets, the latch is mounted on the vi-l electromagnet, each latch is designed to fix the core of the corresponding electromagnet, and the unlocking screws are mounted on a common bracket, with each of the unlocking screws mounted with the ability to interact with one of the latches, 2. The device according to claim 1, characterized in that each measles of an electromagnet with a latch is made with a protrusion, each latch is made in the form of an L-shaped lever, one of the arms of which is made with a groove for inserting the protrusion of the electromagnet core, and its other shoulder is spring-loaded. . 3. The device according to claim 1, or 2, which is different in that each spring-loaded shoulder of the L-shaped lever is made with a shank, the levers are set so that their shanks are placed one below the other in the sequence of switching on the electromagnet with latches and with the possibility of an emphasis of each subsequent shank in previous when disconnected. 4. The device according to claim 3, characterized in that the groove in one of the arms of each lever is made with a bevel of the groove edge. 5. The device according to claim 3, characterized in that, for the purpose. simplify the design, it uses One unlocking screw is used, which has the ability to interact with the upper arm arm. , 6. The device according to PP, 1, .2 or 3, which distinguishes with. so that, in order to increase the duration of the output signal, a microswitch with several closing contacts is used, the input X1 of the electromagnet with a latch is attached a turn ... the corresponding closing contact of the microswitch to the input of the electromagnet without a latch. Sources of information taken into account in the examination 1. USSR author's certificate W 775783, cl. H 01 H 51/04, 1978.  No. 17 fS18 - 7