RU2130595C1 - Sensor-pressure switch - Google Patents

Abstract

FIELD: instrumentation engineering; monitoring, control and indicating systems as switch gear of electric signals used for check of pressure limiting magnitudes. SUBSTANCE: differential setting unit of pressure switch is made in form of adjusting bush secured in housing and spring-loaded rod passed through hole in adjusting bush; spring-loaded rod is mounted for exerting action on lever which is engageable with switch. EFFECT: enhanced reliability and reduced consumption of labor required for setting the pressure switch. 1 dwg

Description

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

 Modern pressure sensors are subject to high demands on reliability and structural excellence. Known pressure switches, pressure switches do not fully meet the specified requirements.

 So it is known the pressure switch RD-8-T (see Ageikin D.I. et al. Sensors of control and regulation. Mechanical Engineering, 1965, p. 645), comprising a housing, a range adjustment screw, a switch, a differential adjustment unit, made in the form mounted on the rod of the sensitive system of the adjusting stop interacting with the movable lever of the switch.

 The disadvantage of this pressure switch is that the differential is adjusted or retuned during operation by changing the differential stroke of the switch by rotating the adjusting stop of the movable switch lever, and this requires high precision manufacturing of the switch, adjusting stop and the rod of the sensitive system on which the adjusting stop is mounted, so how a slight change in the differential stroke of the switch leads to significant changes in the differential of the relay avleniya.

 The closest in technical essence and design features to the proposed device is a pressure switch RD-1-01 (see. Uzhansky V.S. et al. Refrigeration automation. Food industry, 1971, p. 51), containing a housing, a switch located in it , an angular lever, consisting of two pivotally connected parts, a range spring and a differential adjustment unit, made in the form of a lever mounted between two stops, with one end of the lever connected to a spring and the other covering an angular lever.

 However, the disadvantage of this device is the unsatisfactory reliability due to the complex design of the differential adjustment unit and the angle lever, as well as the increased complexity of setting the differential value, since when setting the differential, it is necessary to further adjust the location of the angle lever relative to the switch by changing the relative positions of its vertical and horizontal parts.

 The technical task of the invention is to increase reliability and reduce the complexity of the settings of the sensor-pressure switch.

 The technical result is achieved due to the fact that in the pressure sensor containing the housing and the sensitive system located therein with a rod interacting with a lever connected to the range spring, the differential setting unit and switch, the differential setting unit is made in the form of an adjustment sleeve fixed in the case , and a spring-loaded rod, passed through the hole of the adjusting sleeve, and the spring-loaded rod is installed with the possibility of acting on the lever. The proposed design in comparison with the prototype is simpler and eliminates the additional adjustment of the position of the lever relative to the switch when setting the differential, due to the fact that the differential setting unit in the pressure sensor-relay is made in the form of an adjustment sleeve fixed in the housing and a spring-loaded rod passed through the opening of the adjustment sleeve moreover, the spring-loaded stem is mounted with the possibility of acting on the lever.

 The proposed device is shown in the drawing in its original state.

 The pressure switch includes a housing 1, a switch 2, a lever 3 with an adjusting screw 4, a sensitive system 5 with a stem 6, a spring of range 7, a tuning screw for range 3, a differential adjustment unit made in the form of an adjusting sleeve 9 fixed in the housing 1 s using thread, differential spring 10, acting on the rod 11, passed through the hole of the adjusting sleeve 9 and having the ability to act on the lever 3.

 In the case of using the proposed device for monitoring the lower limit pressure value, the pressure sensor-relay operates as follows.

 When the pressure in the sensitive system 5 decreases, the lever 3 rotates counterclockwise and after the termination of the action of the spring-loaded rod 11 on the lever 3, the contacts of the switch 2 open. The value of the contact opening pressure is determined by the elastic deformation force of the range 7 spring and is adjusted by the range adjustment screw 8. Lever 3 position relative to the switch 2 at the moment of opening the contacts is adjusted with the adjusting screw 4.

 When the pressure of the sensitive system 5 increases, the lever 3 rotates clockwise and after exposure to the spring-loaded rod 11 passed through the hole of the adjusting sleeve 9, the contacts of the switch 2 are closed. The value of the pressure of the contacts of the switch 2 is determined by the elastic deformation of the range 7 spring and differential spring 10, and is regulated only by changing the force of elastic deformation of the differential spring 10.

 The position of the spring-loaded rod 11, passed through the hole of the adjusting sleeve 9, relative to the lever 3 at the moment of contact closure is adjusted by the adjusting sleeve 9, without additional adjustment of the position of the lever 3 relative to the switch 2.

 Thus, the implementation in the sensor-relay of the differential adjustment unit in the form of an adjusting sleeve fixed in a spring-loaded rod housing passed through the opening of the adjusting sleeve and mounted with the possibility of acting on the lever increases reliability, as it simplifies the design of the differential adjustment unit and the device as a whole, and also reduces the complexity of the settings due to the fact that no additional adjustment of the position of the lever relative to the switch when setting the differential.

 The use of the proposed sensor-pressure switch in comparison with the prototype allows to increase its reliability and reduce the complexity of the settings.

Claims (1)

 A pressure switch, comprising a housing and a sensing system disposed therein with a rod cooperating with a lever coupled to a range spring, a differential setting unit and a switch, wherein the differential setting unit is made in the form of an adjusting sleeve fixed to the case, and a spring-loaded rod, passed through the hole of the adjusting sleeve, and the spring-loaded rod is mounted with the possibility of acting on the lever.