SU1012366A1 - Bimetallic disc relay with adjustable run differential - Google Patents

Description

The invention relates to electrical engineering, in particular, relays, serving to control and signaling thermal processes, and can be used for automatic control, regulation, protection and signalization of various thermal processes. Bimetallic relays are known, comprising a housing, a base, a cap, a bimetallic disk, leads, a pusher and a contact group, as well as various elements for setting the relay to a predetermined switching temperature fl. The disadvantage of such a device is the impossibility of adjusting the differential of the deadband response). In addition, the accuracy of the relay is influenced by the temperature of the electric arc arising in the process of switching between contacts. A relay is also known in which an insert (screen) of insulation material 2 is placed to eliminate the influence of the electric arc between the contacts and the thermosensitive bimetallic disk. However, in the process of opening the contacts, the temperature inside the volume of the relay may exceed the temperature controlled, i.e. the relay will react to a change in temperature inside the volume, which leads to a large error in response. Closest to the proposed technical entity is a metal disc relay with a regulated travel differential, comprising a case in which a bimetallic temperature sensing element associated with pressing and displacing elements and a pusher mounted with the possibility of interacting contact group and associated with the bimetallic disk thermosensitive element Sz1. However, this device has a complex structure and does not provide a predetermined accuracy of staining. Moreover, such a device does not allow independent control of the forward and reverse response temperatures. The aim of the invention is to simplify the design and improve the accuracy of controlling the response temperatures. The goal is achieved by the fact that in a bimetallic disk relay with adjustable stroke trim, comprising a housing in which a bimetallic thermo-sensitive element is placed associated with the pressing and displacing elements, and a pusher mounted with the possibility of interaction with the contact group and associated with the bimesclic Disk M is a temperature-sensitive element, the pressure element is made in the form of a spring-loaded glass, at the bottom of which there is an external projection in the form of a cone with a through axial hole The support washer is made of an insulating material and an adjusting nut, the spring-loaded cup with the specified protrusion abutting the bimetallic temperature-sensitive element, the support washer of the insulating material rests on the adjusting nut, and the spring is installed between the specified support washer and the spring-loaded glass video-spring-loaded pusher located in the cone hole of the specified spring-loaded glass, and an adjusting screw mounted coaxially with ulirovochnoy nut with the possibility of acting on a spring-loaded plunger. . In addition, the specified relay can be equipped with a metal disk,. which is placed between the bimetallic disk temperature-sensitive element and the spring-loaded glass and is rigidly connected to the housing. The drawing shows the proposed relay section. The relay consists of a metal case 1, a metal cover 2 in which pins 3 and 4 are fastened. To terminal 3 a flat spring 5 is welded with contact 6, and to terminal 4 is a flat contact 7. In case 1 a pressure element is placed that consists of a glass 8 interacting with a bimetallic disk thermo-sensitive element 9, a spring 10, a support washer 11 made of insulating material, an adjusting nut 12, and the displacing element consists of a pusher 13, a spring 14, an adjusting screw 15. Above the bimetallic thermo-sensing disc nym disk element) 9 is arranged a metal plate (screen) 16 .. The apparatus operates as follows. When changing, for example, increasing., The temperature of the controlled medium, the bimetallic heat-sensitive disk 9 gradually bends, reducing its deflection. Having reached the direct response temperature, the bimetallic heat-sensitive disk 9 pops the direction of the deflection. Under the influence of the indicated disc 9 pusher

13 pushes the contact spring 5 ,. closure contacts 6 and 7;

When the temperature is lowered, the bimetallic temperature sensitive di 9 reduces its deflection and as it reaches the return temperature, the slider returns to its initial state and releases the spring 5, while the contacts 6 and 7 open.

Adjustment of the differential (deadband) of the relay is carried out by independent adjustment of the temperature of the direct operation of the upper limit of temperature) and the temperature of reverse operation of (the lower limit of temperature).

Adjusting the temperature of the direct release of the relay occurs by rotating the adjusting screw 15, which compresses or expands the springs 14. Under the action of the elastic force of the spring 14, the pusher 13 presses | on the disk 9. The force with which the pusher 13 presses on the disk 9 can be adjusted by changing the elastic force spring 14 by means of an adjusting screw 15, which allows you to adjust the temperature of the direct operation of the relay.

Controlling the reverse-response temperature, the lower limit of the temperature is relayed by rotating the nut 12, while keeping the adjusting screw 15 in order not to disturb the setting of the relay for the direct-response temperature; During rotation, the nut 12 acts on the support washer 11, squeezes the spring 10, the spring force. 10 through the cup 8 is transmitted to

bimetallic heat-sensitive disk element. By varying the force of the spring 10 by adjusting the nut 12, it is possible to regulate the return temperature.

bimetallic heat-sensitive disk 9 (lower temperature limit). . .

Adjusting the forward and reverse response temperature creates

0 the ability to regulate the differential (dead zone) of the relay in a wide temperature range. To improve the accuracy of the relay, it is necessary to create a uniform temperature field near the temperature-sensitive element (bimetallic disk), and to eliminate the effect of the electric arc in the switching process. To do this, a screen 16 is mounted above the bimetallic thermosensitive disk 9, which is rigidly connected to the metal housing 1.

If when switching relays temp.

5 The temperature inside the relay volume exceeds the temperature of the monitored surface due to the high temperature of the electric arc, the screen 16 connected to the metal case 1 perceives the temperature of the electric arc, transfers part of the heat to the case 1. Case 1 is in this case an operator. Thus, the bimetallic thermosensitive disk 9 is surrounded by a more uniform thermal field, both on the convexity side and on the concavity side, which improves the accuracy of the bimetallic relay.

Claims (2)

157) {. BIMETALLIC DISK. RELAY WITH ADJUSTABLE STROKE DIFFERENTIAL, comprising a housing - in which a bimetallic disk thermosensitive element is connected, connected with the clamping and moving elements, and a pusher installed with the possibility of interaction with the contact group and connected with the bimetallic disk thermosensitive element, In addition, in order to simplify the design and improve the accuracy of controlling the operating temperatures, the clamping element is made of a spring-loaded cup, in the bottom of which there is a an oversized protrusion in the form of a cone with a through axial bore, a support washer made of insulating material and an adjusting nut, and the spring-loaded cup rests against the bimetallic heat-sensitive element by the specified protrusion, a support washer made of insulating material rests on the adjusting nut, and a spring is installed between the specified support washer and the spring-loaded glass, the moving element is made in the form of a spring-loaded pusher located in the hole of the cone of the specified spring-loaded glass, and alignment screw mounted coaxially with the adjusting nut with the possibility of impact on the spring-loaded plunger. 2. Relay pop. 1, characterized in that it is equipped with a metal disk, which is placed between the bimetallic disk thermosensitive element and a spring-loaded glass and is rigidly connected to the housing.