CS201682B1 - Connection for manual control of the output at the continuous regulation - Google Patents

Description

The aforementioned drawbacks are eliminated by the ore control system of the continuous control according to the invention.

SUMMARY OF THE INVENTION The inlet of the red shaft potentiometer is connected to a common input terminal of a non-contact phase-controlled epinads, the runner then moves to the fourth inlet contact of the first functional switch and the lead from the potentiometric ore control to the fourth inlet contact of the second functional switch.

The advantage of the proposed wiring is the possibility of continuous ore power control from at least to the maximum value.

The overall schematic of the ore power control in continuous temperature control is shown in the attached drawing.

The wiring consists of a contactless phase-controlled switch A, connected by terminal 6 and terminal 8 to contacts 5 and terminal 7 to terminal E; gauge B connected to terminals 7 and 8j of function switch C, its contacts 1, 2, 3 are connected to terminals E, Fj Gj H, and both contacts 4 to potentiometer D and contacts 5 to terminals 6 and 8; manual control potentiometer D connected by terminal to terminal Έ and by leads and runners to terminals 4 and from temperature controller output terminals fi, F, G, H connected to terminals 1, 2, 3.

The circuit according to the invention operates such that in the first position of switch C, the input, terminals 6 and 7 of the proximity switch A are shorted via the connected contacts 1 and 5 of the first part I of switch C, the meter B indicates zero. In the second position of switch C, one pole from terminal E is applied directly to terminal 7 and the other pole of the control voltage from terminal F via the connected contacts 2 and 5 of the first part I of the switch C to terminal G. in this position, the output control voltage is reddish by the signal supplied from terminal G. In the third position of the switcher C, a maximum voltage is applied to the contactless switch input at least one terminal from terminal 6 to terminal 7 and the second terminal from terminal H through connected contacts 3 and 5 of the first part. The magnitude of the control voltage is indicated by the meter B. In the fourth position, the regulator is switched off by the appropriate sectional coupler and the ore control is transferred by the setting slider of the potentiometer D connected inlet to the output terminal 8 of the contactless switch A directly. of the second part II of the switch C n and terminal 7, which is common to both input and output, and the second pole of input from potentiometer D is connected through the connected contacts 4 and 5 of the first part Ί of switch C to terminal 6 of contactless switch A input. B.

The wiring according to the invention can be used to manually control all B-line feeders.

Claims (2)

201 082 The aforementioned drawbacks are eliminated by the connection to ore power control with continuous control according to the invention. The essence of the invention is that the supply of the red-potentiometer is connected to a common input terminal of the contact-free phase-controlled switch, the non-ionizer deity to the fourth supply contact of the first functional switch part and the outlet of the ore-potentiometer to the fourth supply contact of the second functional switch part. Power Management from minimally maximum value. An overall schematic connection of ore power control with continuous temperature control is shown in the attached drawing. The connection consists of a contactless phase-controlled switch A connected by terminal 6a to terminal 8 to contacts 5 and terminal 7 to terminal 6; a gauge B connected to terminals 7 and 8 of a function switch C its contacts 1, 2, 3 are connected to terminals E, Fj Gj H, and both contacts 4 to potentiometer D and contacts 5 to terminals 6 and 8; the manual steering potentiometer D connected to the terminals and the leads to the contacts 4 and the output terminals of the heat regulator 6, 7, 9 connected to the contacts 1, 2, 3. The connection according to the invention operates in the first position of the switch C the input, terminals 6a 7 of the non-contact switch A are shorted through the connected contacts 1 and 5 of the first part I of the switch C, the meter B indicates zero. In the second position of switch C, one pole is applied from terminal E to terminal 7, and the other pole of control voltage from terminal F is connected via terminals 2 and 5 of first switch I of switch C to terminal G. The size of the automatically controlled control voltage is also indicated by B. In this third position of the switch C, the input of the non-contact switch is fed at a constant rate through one field from terminal 6 to terminal 7, and the other field from terminal H through the connected contacts 3a. 5 of the first part 1 of the switch C to the terminal 6. The size of the control unit is indicated by the gauge B. In the fourth position the controller is a respective section switch. 4 and 5, second part II of switch C to svo 7, which is common to both input and output and second pole of input of potentiometer runner D, is connected via connected contacts 4 and 5 of the first part i of switch C to terminal 6 of contactless switch input A. The set control voltage of potentiometer D is indicated by meter B The connection according to the invention can be used to manually control all appliances powered by the supply voltage. PHEDMET V Ϊ LOAD Connection to manual power control with continuous control, where the output terminals of the temperature regulator are connected to the first, second and third input contacts of the function switch, which is connected to one pole of the meter and to the input terminal of the non-actuating 3 Z 81 882 hé switch. that the common output terminal is connected to the other half of the meter and to the temperature controller, making it clear that the lead from the ore control potentiometer (D) is connected to the common input terminal / 7 / non-contact phase controlled switch / A /, addOm runner the ore control potentiometer (D) is connected to the fourth / 4 / supply contact first / 1 / function switch / 0 / and the ore control potentiometer / D / is connected to the fourth supply contact / 4 / the second part / 11 / functional switch / G/. 1 drawing