CS258225B1 - Connecting a circuit to eject, especially temperature mosquito - Google Patents

Abstract

The essence of the solution is that the heating elements are connected via an auxiliary relay alternately to the terminal block and in a series-parallel combination to a single-phase voltage source. A time relay is also connected to the source.

Description

BACKGROUND OF THE INVENTION The present invention relates to a solution for connecting a circuit for drying the most temperature chambers.

So far, the solution of temperature chambers does not contain a drying mode, which causes inefficiencies in operation. After the operation of the temperature chamber in the COOL mode, it remained in the tempered areas of the frost chamber, which had melted over time. This humidity was not able to evaporate until the next temperature chamber was put into operation in the COOL mode, which caused the formation of frost and the associated test pieces in the tempered area. This has little to do with malfunctioning of the temperature chamber. Their removal requires the opening of tempered spaces, whereby moisture is generated from the surrounding area, further frost and resulting malfunctions arise. This reduces the reliability and performance of the temperature chamber.

The above-mentioned drawbacks are solved by the technical problem of connecting a circuit for drying out the temperature chambers according to the invention, the principle of which is that the heating elements are connected via an auxiliary relay alternately to the terminal block and in a series-parallel combination to a single-phase voltage source. A time relay is connected to the single-phase voltage source via a button and a switch.

By connecting the circuit to dry out the temperature chambers in particular, the amount of heat generated in the tempered chamber chamber is sufficient to remove the moisture generated during operation in the COOL mode. This results in the elimination of malfunctions in the operation of the temperature chamber for the reason of the test components being fed, resulting in higher reliability and performance.

In the accompanying drawing, a schematic drawing of a circuit for drying a temperature chamber is shown.

The connection of the circuit for drying the temperature chambers consists of heating elements ΙΑ, 1B, ... 1N, which are connected to the terminal block 5 and alternatively to a single-phase voltage source 14 by means of switching contacts of the auxiliary relays 2. The transformer 13 with the signal lamp 12 is connected via switching contacts 3 of the auxiliary relay 2 to a single-phase voltage source 14. The contact 7 of the timing relay 6 is connected via switch 2 to a single-phase voltage source 14, the contact 23e connected to the coils 1 of the auxiliary relay 2. The timing relay coils 6 are also connected to the single-phase voltage source 14 via button 10 and switch 9 is connected via a changeover contact 2 of the auxiliary relay 2 and a switch 2 to a single-phase voltage source 14.

The function of wiring the circuit to dry the temperature chambers is as follows: Switch 2 is used to select the OPERATION mode when the NC contact of switch 9 is closed, temperature chamber modes are provided, TEMPERATURE TEMPERATURE, COOLING, and HEAT. At that time, the heating elements ΙΑ, 1B ... 1N are connected to terminal block 5 via the switching contacts 2 of the auxiliary relays 2, through which their individual supply and control are secured. By moving switch 9 to the DRY position, its break contact opens, leaving the temperature chamber inoperative and connected to DRY mode.

To actuate it, a pushbutton 10 serves to energize the loop 2 of the timing relay 6 via the switched contact of the switch 9 and the pushbutton 10, thereby switching the timing relay contact 7 to energize the coils 6 of the auxiliary relays 2 Thereby, their switching contacts 2 are switched and the heating elements ΙΑ, 1B ... 1N are disconnected from the terminal 5 at the same time connected to a single-phase voltage source 14 in a parallel-to-parallel combination. At the same time, by switching the switching contact 2 of the auxiliary relay 2, a voltage is applied to the motor 11 of the time relay 6, whereby this is ready for operation.

By releasing the button 10, the coil 2 of the time relay 6 is disconnected from the voltage and thus the set time of operation of the time relay 6 begins to run. is indicated by the illuminated indicator light 12 through the transformer 13 3 258224

After the set drying time has elapsed, the contact T_ of the time relay 6 is opened and thus the coil 4 of the auxiliary relays 2 is switched off, thereby simultaneously switching their switching contacts 2 and disconnecting the heating elements ΙΑ, 1B from the voltage. . . 1N. At the same time, the switching contacts 3 of the auxiliary relays 2 are connected to the terminal block 2 and the cycle is repeated. Termination of the drying time and disconnection of the heating elements 1A, 1B ... 1N from the voltage is signaled by switching off the indicator light 12.

Claims (1)

OBJECT OF THE INVENTION Wiring a circuit for drying, in particular temperature chambers consisting of heaters, auxiliary relays provided with change-over contacts and coils, terminal blocks, a timing relay that includes contact, coil and motor, switch, pushbutton and single-phase voltage source, characterized in that the heating the bodies (ΙΑ, 1B ... 1N) are connected via an auxiliary relay (2) alternately to the terminal block (5) and in a series-parallel combination to a single-phase voltage source (14), with the single-phase voltage source (14) via the button (10) ) and switch (9) time relay (6). 1 drawing 258224 Severography, η. p., MOST Price 2,40 Kčs