CS213875B1 - Programme regulator for controlling electrically heated ovens - Google Patents

Description

To start the temperature ee uses the program parachute temperature controller · In this case, the heating elements are supplied with a set current that is switched on or off as the temperature in the furnace coincides and the temperature gradually increased according to the shape of the control template included in the parachute controller.

Current temperature rise methods practically require manual operation ·

When using the program parachute controller, the temperature rise is controlled without manual operation, but the maintained temperature is kept within a relatively wide range - 20 ° C. «The design of the template is very laborious and must always be empirically tested for different starts.

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The above mentioned drawbacks are eliminated by the program controller for the control of electrically heated furnaces consisting of a control block, a controllable current source and a signaling block according to the invention. The principle consists in that the control block contains a first contactor connected via a first switch in parallel to the first secondary terminals of the transformer. the first switch of two other contactors, three timers, three relays and a temperature controller · connected in parallel

The first relay branch is connected in series with the button and the idle contact of the second relay, the first time member branch is connected in the aria with the second time contact and the third relay contact, the node between these contacts being interconnected and the node between the first relay and the button , the switching contact of the first relay is connected, the second terminal of which is connected to the node between the pushbutton and the idle contact of the second relay, and longer through the make contact of the first time member to the second time member; one terminal of which is connected to one terminal of the other switch. The second terminal is connected to the second terminal of the second switch. The third contactor contact, the first relay contact, and the temperature regulator contact are connected in series to the branch of the second contactor. Node between Third Contactor Contact and First Relay Contact Connected by 8 first terminal of changeover contact of third relay. A second limit switch contact, a second contactor contact and a temperature regulator contact are connected in series to the third contactor branch. The node between the second contactor contact and the temperature regulator contact is connected to the second terminal of the changeover contact of the third relay. In addition, the third timing contact and the temperature regulator closing contact are connected in series to the third timing contact. the second relay and a third timing contact is connected in series to the third relay branch. A signaling block comprising a parallel connection of four signaling bulbs and a buzzer is connected to the second secondary terminals of the transformer, the first contactor contact being connected to the branch of the first signaling bulb. A parallel connection of the second contactor contact and a third contactor contact is connected in series to the second signaling bulb branch, a second relay contact is connected to the third signaling bulb branch that is bridged by the serial connection of the first buzzer and the second switch. the third relay and the limit switch contact is connected to the second buzzer branch ·

The invention enables a continuous temperature rise by using time, blocking and switching elements. When the temperature in the furnace reaches the setpoint, the locking member will allow the temperature controller to run and disable the temperature rise function. At the same time, it signalizes the end of the temperature rise by sounding the buzzer and the indicator light. The buzzer and the on / off switch are disabled.

When heating is complete, ae switches the control to the manual control position and the other control to3

If the 213 875 is set to the down position, the device will automatically reduce the supply current to the desired start-up time. The rise speed can be easily accomplished by adjusting the time on the timers.

In the case of controlled cooling, an additional timer and interlocking member is required.

As power supply it is possible to use autotrafa with servomotor and reversing of motor operation of servomotor.

It is also possible to use thyristor, triac or transducer and other controllable current sources, provided that the control element can continuously increase the supply current of the heating elements.

When a thyristor, triac or transducer is used to change the required values, a potentiometer or rheostat controlled by a servo drive is used as a control element.

The device reliably guarantees not only the required linear temperature rise, but also maintains the set temperature in a narrow range of 1 to 3 ° C. During the endurance, the most suitable supply current is selected, which is then sensitively adjusted as required by the set temperature.

The device according to the invention avoids surging power consumption, since the supply current flows continuously and the possible changes have a small value.

The device also saves the time required by manual operation when the temperature rises.

The invention is illustrated in more detail by way of example with reference to the accompanying drawing, in which a circuit diagram is shown.

A contactor S1 is connected to the first secondary terminals of the transformer TRI, which is connected via fuses P1 and P2 and the first switch VI to the mains, via the first switch VI and fuse P4. In addition, two contactors S2 and §2, three timers & 1, ŽR2 and CR3, three relays B1, B2 and B3 and temperature controller RTI are connected in parallel via the first V2 switch to the first secondary terminals TR1. button A1 and idle contact 2B2 of the second relay zapoj2 connected »Idle contact 2 of CR2 of the second time member of CR2 and a contact of 1B2 of the third relay §2 are connected to the branch of the first time member SRI in series. with the node between the first relay B1 and the button A1, the switching contact 1B1 of the first relay B1 is connected, the second terminal of which is connected dc node between the button A1 and the idle contact 2B2 of the second relay B2 and longer through the contact 1Č1 of the first timer CR1 to the second timer ČR2, between which and the make contact 1ČR1 of the first time member ČR1 is connected the changeover contact 3-4B3 of the third relay §2, one terminal 4B3 is connected to one terminal of the second switch V2 and the other terminal 3B3 is connected to the second terminal of the second switch V3 · The contacts 2S3 of the third contactor are connected in series to the branch 2 of the second contactor S2. S2, make contact 2B1 of the first relay B1 and contact 2 RTI of the RTI temperature controller. The node between the third contactor contact S3 and the normally open contact 2B1 of the first relay B1 is connected to the first terminal 4B3 of the third relay contact 3-4B3 §2. contactor S2 and RTI temperature controller contact 3 ΒΤ1 »The node between the second contactor S2 contact 2S2 and the RTI temperature controller contact 3RT1 is connected to the other terminal 3¾ of changeover contact 3; 4B3 of the third relay B3. To the branch of the second relay B2. is connected in series to the 2GR3 contact of the third timing element GR3 and the make contact 3RT1 of the temperature controller RT1> In the branch of the third timing element SR3, the make contact 3B2 of the second relay B2 is connected in series. The third relay section §2 is connected in series 1 & 3 of the third time member CR3 ·

213 875

A signaling block containing a parallel connection of four signal lamps H1, H2, H3 and H5 and a buzzer H6 is connected to the second secondary terminals of the transformer TR1 via fuse P3.

A contact 1S1 of the first contactor S1 is connected to the branch of the first signaling lamp B1, a parallel connection of the contact 1S2 of the second contactor S2 and the contacts 1S3 of the third contactor S3 are connected in series to the branch of the second signaling lamp H2. Into the branch of the third signaling lamp H3, which is bridged by the serial connection of the first buzzer B4 and the second switch V4. the make contact 1B2 of the second relay B2 is connected. The third relay B3 contact 5B3 is connected to the branch of the fourth signaling lamp K5. The first contact 1 K71 of the KV1 limit switch is connected to the branch of the second buzzer H6.

By setting the first switch VI to the on position, the first contactor S1 jumps, thereby energizing the device. At the same time, the contact 1S1 of the first contactor S1 supplies current to the first signaling lamp B1, which indicates that the device is energized.

The amperemeter, which is part of the device, determines the supply current value. If necessary. to adjust the initial supply current, the position for manual control is selected on the first switch 72 and the position on the switch Y3 decreases to decrease the current or increases if the current needs to be increased. The second switch 73 is left in the selected position if the supply current is not at the desired value, and then switched to the zero position.

The first switch 72 can now be switched to the automatic control position and the button A1 can be pressed. This is applied to the coil of the first relay B1. This jumps and energizes its coil with its normally closed contact 1B1 and remains in the closed state.

Simultaneously, through the contact 2ČR2 of the second time member ŽR2, it brings current to the second time member ČR2 and it starts to start. After the set time has elapsed - the furnace is warming up - the first time element CR1 with its make contact 1CR1 supplies current to the second time element ® 2 and simultaneously to the coil of the second contactor S2. It jumps in and makes a current to the motor of the servo drive by its make contact and thus increases the supply current of the furnace heating elements by the required value for the duration of the second time member of the Czech Republic2.

After the set time of the second time member ŽR2 has elapsed, its current contact 2CR2 supplies current to the first time member CR1 and it starts to start. At the same time, its make contact 1R1 opens.

This results in an increase in the feed current and a time to allow the increased current to heat the furnace with the desired increase. This is repeated until the oven temperature reaches the set value. At this time, the normally open contact 1RI1 of the temperature controller RT1 applies current to the coil of the second relay B2 and it jumps. The team. the normally closed contact 2B2 of the second relay B2 opens, which interrupts the power supply to the first relay B1 and the first and second time members of CR1 and CR2. This disables the temperature rise function and enables the RT1 temperature controller to operate by closing contact 2B1 of the first relay B1.

At the same time, the normally open contact 1B2 of the second relay B2, via the closed second switch 74, energizes the buzzer coil B4 and it sounds. The third signaling lamp, H3, also lights up. The operator is warned that the furnace temperature has reached the desired value. The second switch 74 turns off the buzzer H4.

The third signal lamp H3 remains on to indicate that the device is operating at the set temperature.

213 873

The other make contact 3B2 of the second relay B2 supplies current through the normally closed contact 2B3 of the third relay B3 to the third time member of CR3 and it starts to start »

The device then maintains the set temperature in the furnace for a desired period of time.

While the temperature in the furnace is maintained, the desired times on the time members CR1 and ZR2 are set to match the desired cooling course.

After expiration of the set time on the third time member CR3, this will bring current to the contact 1ČR3. coil of the third relay B3 and this will close.

The third relay B3 with its normally closed contact 2B3 disconnects the power supply for the third time member CR3. Changeover contact. 3-4B3 of the third relay B3 opens the coil supply for the second contactor S2 and closes the coil supply for the third contactor S3 »The normally open contact 6B3 of the third relay B3 interrupts the supply to the coil of the second relay 132.

By another make contact 5B3 of the third relay B3, it supplies current to the coil of the first relay B1 and to its coil through the contact 1B3 of the third relay B3.

The first relay B1 jumps and its make contact 1B1 via the normally closed contact 2CR2 of the second time member ŽR2 supplies current to the first time member CR1 and this starts to start.

After the set time has elapsed on the first time member ŽR1, this has its make contact.

1CR1 supplies current to the second time member CR 2 and at the same time via the normally closed contact 2S2 of the second contactor S2 and the normally closed contact 2KV1 of the limit switch K71 and the make contact. 3B3 of the third relay B3 into the coil of the third contactor S3.

The second time member of CR2 starts to start and for the time of the third contactor S3 switched on it supplies current to the actuator motor and thus the furnace supply current drops by the required value.

After expiry of the time on the second time member of CR2, contact 1CR1 of the first time member of CR1 closes and the device waits for the temperature in the furnace to drop.

After the set time has elapsed on the first time member of the Czech Republic1 and e repeats. The device alternates between supply current and waits for the furnace to cool down.

This continues until the 2KVL contact of the KV1 limit switch is set to cool down to the desired temperature. At the same time, the normally open contact 1KV1 of the KV1 limit switch turns on the buzzer H5, which notifies the operator that the cooling is complete.

Switching of the second contactor S2 and thus the rising current is signaled by the second signaling lamp H2Switching of the third contactor S3 and thus the falling current is signaled by the third signaling lamp

H3 *

Since the device has terminated, the first switch V1, the first and second switches Y2 and V3 are set to the zero position, and the second switch V4 is set to the on position, and the device is ready for reuse.

Linear temperature increase in the furnace is thus achieved by a combination of two time elements CR1 and CR2 with a different time function. The first time element CR1 with a second time function ensures an increase in the furnace supply current in proportion to the set time value and, in combination with the second time element CR2 with a minute time function, allows linear temperature increase in the range »» 1-50 K min.

213 8T5

The automatic termination of the temperature rise and the transition to maintaining a constant temperature in the furnace is achieved in the device according to the invention by the function of a suitable temperature controller RT1 and the first and second relays B1 and B2.

Provision of linear furnace cooling rate in the range of 1-50 K min ^-1 is achieved after the impulse of the time element CR3 on the third relay B3, which causes the opposite function of the time elements CRT, with CR2.

A program relay can be used instead of the CR1 and CR2 timers on the equipment that will be operated and with a constant temperature rise time mode. Its one cycle would repeat and act as both timers fittl and CR2 until the oven temperature reached the desired value.

Claims (1)

A program controller for controlling electrically heated furnaces, comprising a control block, a power supply block and a signaling block, characterized in that the control block comprises a first contactor (S1) connected via a first switch (VI) parallel to the first secondary terminals of the transformer (TRI); first two switches (S2, S3), three Saxes (CR1, CR2 and CR3), three relays (B1, B2 and B3) and a temperature controller (STI) connected in parallel to the first relay ( B1) the button (A1) and the idle contact (2B2) of the second relay (B2) are connected in series, the idle contact (2 & 2) of the second time member (ČR2) and the contact (1B3) are connected in series a third relay (B3), the switching contact (1B1) of the first relay (B1) connected to the node between these contacts (2CR2 and 1B3), which is connected to the node between the first relay (B1) and the button (A1) outlet is pr connected to the node between the pushbutton (A1) and the idle contact (2B2) of the second relay (B2) and longer than the make contact (1CR1) of the first time member (& R1) to the second time member (& 2) a timing contact (& B1) is connected to a changeover contact (3B3, 4B3) of a third relay (B3) whose one terminal (4B31 'is connected to one terminal of the second switch (V3) and the other terminal (3B3) is connected to the other terminal of the second switch V3), then the contact (2S3) of the third contactor (S3), the breaker contact (2BI) of the first relay (B1) and the contact (2HT1) of the temperature controller (ST1) are connected in series to the branch of the second contactor (S2). contact (2S3) of the third contactor (S3) and break contact (2B1) of the first relay (B1) is connected to the first terminal (4B3) of the changeover contact (3B3, 4BS) of the third relay (B3); the second contact (2KVX) of the limit switch is connected in series e (KV1), contact (2S2) of second contactor (S2) and contact (3ST1) of temperature regulator (ST1), the node between contact (2S2) of second contactor (S2) and contact (3ST1) of temperature regulator (BII) is connected to the second terminal (3B3) of the change-over contact (3-4B3) of the third relay (B3), longer is connected to the second relay branch (B2) in series of contacts (2CR3) of the third timing element (fiR3) and NO contact (1RT1) ), the make contact (3B2) of the second relay (B2) is connected in series to the branch of the third time member (CR3), and to the branch of the third relay (B3) it is connected in series of contacts (1CR3) of the third time A signaling block is connected to the second secondary terminals of the transformer (M1), comprising a parallel connection of four signaling lamps (H1, H2, H3 and H5) and a buzzer (BS), the first signaling lamp (H1) being connected to the first contact (1S1) contactor (Sl), into the branch of the second signaling heat The line (H2) is connected in series in parallel 213 875 connecting the contact (1 »2) of the second contactor (S2) and the contact (1S3) of the third contactor (S3), into the branch of the third signaling lamp (Ϊ3Ϊ which is spanned by the serial connection of the first buzzer (B4) and the second switch normally open contact (1B2) of the second relay (B2) is connected, the contact (5B3) of the third relay (B3) is connected to the branch of the fourth signal lamp (H5) and the first contact (1Κ7Ϊ) of the limit switch ( KV1).