RU2064704C1 - Twin pressure relay-transmitter - Google Patents

Abstract

FIELD: switching devices for electric signals in monitoring, control, and warning systems. SUBSTANCE: means controlling lever position relative to switch is mounted on switching lever made in the form of flexible member rigidly fixed to balancing lever. EFFECT: improved design. 1 dwg

Description

 The present invention relates to the field of instrumentation and can be used in control systems, regulation and signaling as a switching device for electrical signals, used to control two extreme values of pressure or temperature.

 For modern dual pressure sensors, high demands are placed on reliability, design excellence.

 Known dual pressure sensors-switches do not fully meet the specified requirements.

 Thus, the KP7B double high pressure regulator manufactured by Danfoss is known and contains a pressure regulator with an external return and a pressure regulator with an internal return, the return of which to its original position is carried out by mechanical pressing of the return buttons, which limits the scope of this regulator.

 In addition, this high pressure regulator has a complex structure, which reduces reliability and increases the complexity of manufacturing and tuning.

 Also known is the combined MP 15 low pressure regulator manufactured by Danfoss, consisting of a housing, a switch, a high pressure unit and a low pressure unit, in which the balanced lever is pivotally connected to the switching lever, their relative position and the position of the switching lever relative to the switch Adjustable with a screw and torsion spring mounted on the same axis as the levers. The lever of the high-pressure unit with the switching lever of the low-pressure unit is connected by a rod.

 The disadvantage of this pressure regulator is its complex design and lack of reliability due to the large number of kinematically connected moving parts. The closest in technical essence and design features to the proposed device is a two-pressure pressure switch RD-3-01 (RD-3-02) (see book V.S. Uzhansky and other Refrigeration Automation. Publishing House "Food Industry", 1971, p. 65 prototype), comprising a housing, a switch located therein, a high-pressure unit with a two-arm lever and a low-pressure unit with balanced and switching levers, as well as means for adjusting the position of the levers of the blocks relative to each other, made in the form of a screw and a spring and established and the switching lever.

 However, the disadvantages of this two-unit pressure switch are insufficient reliability due to the complex connection of the balanced and switching levers of the low pressure unit and the complex device of the lever position control means, as well as the fusion of the regulation of the position of the switching lever to operate the high pressure unit due to a change in the spring force the process of rotation of the screw mounted on the switching lever, since the force of the specified spring must be overcome by the lever of the high Lenia while rotating it counterclockwise. After changing the position of the levers of the low-pressure unit relative to each other and the switch in this pressure switch, additional adjustment of the high-pressure unit is required, which increases the complexity of its settings. In addition, due to the presence of a gap in the articulation of the balanced and switching levers of the low pressure unit, instability may occur in the specified pressure switch during operation.

 The technical result that can be achieved by using the present invention is to increase reliability and reduce the complexity of setting the response of the high pressure unit.

 The technical result is achieved due to the fact that the pressure sensor-relay is double, comprising a housing, a switch located therein, a high pressure unit with a two-arm lever, a low pressure unit with balanced and switching levers, and means for adjusting the position of the levers mounted on the switching lever of the low pressure unit and made in the form of a screw, is equipped with additional means for regulating the position of the lever of the high-pressure unit, made also in the form of a screw and mounted on a switching lever and a low-pressure unit, both screws being installed with the possibility of acting on the switch, and the specified switching lever is made in the form of an elastic element and is rigidly connected to the balanced lever.

The combination of these features in the proposed device exhibits other properties, which are:
in the exclusion of the influence of adjusting the position of the switching lever of the low pressure unit on the operation of the high pressure unit, due to the fact that the dual pressure switch is equipped with additional means for regulating the position of the lever of the high pressure unit, made in the form of a screw mounted on the switching lever of the low pressure unit, and due to the fact that both means of regulating the position of the levers, made in the form of screws, are set with the possibility of influencing the switch;
in simplifying the design and eliminating the possibility of jamming of the switching lever at its junction with the balanced lever, due to the fact that the switching lever is made in the form of an elastic element and is rigidly connected with the balanced lever.

 The proposed device is illustrated by the drawing in FIG. 1, which depicts a dual pressure sensor-switch in its original position. The pressure dual pressure switch contains a housing 1, a switch 2, a low pressure unit consisting of a spring 3, a screw 4, a sensing system 5 with a stem 6, a pivotally balanced balanced lever 7 connected by rivets 8 to a switching lever 9, on which means for adjusting the position of the levers made in the form of screws 10, 11 having the ability to act on the switch, and a low pressure unit consisting of a spring 12, screw 13, a sensitive system 14 with a rod 15 in contact with the hinge fixed two-arm lever 16.

 The switching lever 9 is made in the form of a leaf spring, the elastic deformation force of which is created by bending it with an emphasis 17 when connecting between the balanced and switching levers 7, 9.

 The dual pressure sensor-relay operates as follows. Controlled pressure, low, is supplied to the sensitive system 5 of the low pressure unit, high to the sensitive system 14 of the high pressure unit.

 With increasing pressure supplied to the sensitive system 5, the rod 6 moves up and, having overcome the force of the spring 3, rotates the balanced lever 7 and is connected to the switching lever 9 clockwise, while the screw 10 pushes the switch 2 and closes its contacts.

 The magnitude of the pressure supplied to the sensitive system 5 of the low pressure unit, at which the contacts of the switch 2 are closed, is determined by the compression force of the spring 3.

 When the pressure supplied to the sensitive system 5 increases, after the contacts of the switch 2 are closed, the balanced lever 7 together with the switching lever 9 then rotates clockwise until the screw 11 stops in the vertical shoulder of the two shoulders lever 16, after which the switching lever 9, made in the form of a leaf spring , elastically deformed to the side against the movement of the balanced lever 9, preventing switch 2 from destruction.

 When lowering the pressure supplied to the sensitive system 5, the balanced lever 7 connected to the switching lever 9, under the action of the spring 3 is rotated counterclockwise, and the screw 10 after the clearance between the screw 11 and the two-arm lever 16 releases the switch 2 from pressing, and it contacts open.

 With increasing pressure supplied to the sensitive system 14 of the high pressure unit, the rod 15 moves up and, having overcome the force of the spring 12, turns the two-arm lever 16 counterclockwise. If the contacts of the switch 2 are closed, the vertical shoulder of the two-arm lever 16 acts on the screw 11 and, overcoming the elastic deformation of the switching lever 9, made in the form of a leaf spring, presses the screw 10 from the switch 2, and its contacts open.

 The magnitude of the pressure supplied to the sensitive system 14 of the high pressure unit, at which the contacts of the switch 2 open, is determined by the compression force of the spring 12.

 When lowering the pressure supplied to the sensitive system 14, the two-arm lever 16 under the action of the spring 12 rotates clockwise, and its vertical arm releases the screw 11 from pressing, while the screw 10, turning clockwise together with the switching lever 9, made in the form leaf spring, presses the switch 2 and closes its contacts.

 The position of the switching lever 9, made in the form of a leaf spring, relative to the switch 2 in the initial position of the dual pressure sensor-pressure switch is regulated by a screw 10, while the force of elastic deformation of the leaf spring does not change, since the means for adjusting the position of the levers is made in the form of a screw 10, set to the leaf spring itself, and the force of elastic deformation in the initial position is determined only by its interaction with the stop 17.

 The position of the two-arm lever 16 relative to the switching lever 9 and the switch 2 is also regulated by means for adjusting the position of the levers, made in the form of a screw 11 mounted on the switching lever 9.

 Thus, switching the electrical contacts of the switch under pressure changes in the sensitive system of the low-pressure unit by the switching lever rigidly connected to the balanced lever and made in the form of a leaf spring with means for adjusting the position of the levers made in the form of screws 10, 11, increases the reliability of the sensor - double pressure switch, since the articulation of the balanced and switching levers is eliminated, and also reduces the complexity of the settings triggered th block of high pressure on the switch contacts opening when the pressure increases in its sensitive system, since it does not require further adjustment after adjusting the position of the shift lever due to the fact that the force of elastic deformation of the leaf spring is not changed by rotating the adjusting screw mounted thereon. The use of the proposed dual pressure sensor-relay will increase its reliability, simplify the design and reduce the complexity of setting the response of the high pressure unit.

Claims (1)

 The pressure transmitter is dual, comprising a housing, a switch located therein, a high pressure unit with a two-arm lever, a low pressure unit with balanced and switching levers, and a lever position control means mounted on the switching lever of the low pressure unit and fired out in the form of a screw, characterized in that it is equipped with additional means for regulating the position of the lever of the high-pressure unit, also made in the form of a screw and mounted on the switching lever of the low-pressure unit, whereby both screws are mounted with the possibility of acting on the switch, said switching lever is made in the form of an elastic element and is rigidly connected to the balanced lever.