SU1046792A1 - Pressure relay - Google Patents

Abstract

1. PRESSURE RELAY, comprising a housing, a clamp, hermetically connected to the housing, manometric boxes, each of which has moving and stationary centers, contacts fixed to the moving centers of the manometric boxes, and racks fixed to the fixed centers of the manometric boxes, one of The poles are connected through a sleeve and an insulator with a case, characterized in that, in order to increase the accuracy of work, it is equipped with another sleeve and another insulator, the ends of each sleeve are made with annular projections ring-shaped protrusions adjacent to the insulator adjacent to the rack and annular grooves between them, and the inner surface of each sleeve and the outer surface of each rack are made smooth with steps at one of the ends, the other sleeve and the other insulator are fixed on the collar, and each sleeve and stand are interconnected with a tension in the area of the annular protrusions of the sleeve so that at both ends of the sleeve are formed adjacent to them ring-shaped connectors, and the width of each ring is 3 shaped The interface is less than the width of the annular protrusion of the sleeve, which is adjacent to the stand. 2. Relay POP.1, different. This is because the contacts are hollow. 3. Relay pop. 1, characterized by the fact that the manometric 4 O) box is made in the form of a membrane and a rigid cup. about to

Description

The invention relates to electrical engineering, in particular to the devices Dav. The instruments used in the systems of automatic control and control applied to the action as a result of changes in physical parameters, namely the pressure of the medium. Pressure relays are known, intended for switching electrical circuits at a given pressure value, containing two counter-operating corrugated membranes, at the centers, which, facing a Friend, are connected via insulators. When a predetermined pressure is reached, the contacts touch each other or move away from each other and the electrical contact closes or opens. J The disadvantages of this device include a large total contact mass with the insulator, which leads to a low resonant frequency of the membranes, and therefore a low relay accuracy with harsh mechanical effects. Closest to the proposed technical entity is a pressure switch comprising a housing, an anchor, hermetically connected to the housing, pressure gauge boxes, each of which has movable and fixed centers, contacts fixed to moving centers of gauge boxes, and racks fixed to fixed centers of manometric boxes, in this case one of the racks is connected through a sleeve and an insulator to the body C2 J. However, the known device under conditions of rigid mechanical effects (vibration in the range of One up to 5000 Hz with an acceleration amplitude up to linear acceleration up to 500, a mechanical shock with a peak acceleration value of up to 3000, etc.) has a decreased accuracy of operation for the following reasons: monolithic contacts with large mass are used in the switch, which reduces the resonant frequency of the manometric boxes; in the circuit breakers, two-membrane boxes having lower resonance frequencies than the single-membrane boxes with the same membranes are further aggravated by the fact that the weight of the two-membrane box increases also due to the mass of 922 flanges of both membranes and transitional parts through which; flanges are connected; use in the switch fasteners manometric boxes using a threaded connection used to adjust the pressure switch operation. The first two reasons lead to a decrease in the accuracy of the operation in the preresonance region when subjected to vibration and mechanical shock, since the lower the resonant frequency of the element, the greater the amplitude of the oscillation relative to the base (fixing point of the relay) for the same effect, and therefore at the same resonance frequency of the upper and lower gage boxes, the amplitude of contact oscillations relative to each other also increases. . The third reason leads to a decrease in the accuracy of the response pressure adjustment, as well as to a decrease in the response accuracy under mechanical effects. This is explained by the fact that the threaded connection of the rack box, especially in small-sized relays, will have a backlash, because In this case, it is almost impossible because of the insufficient strength of the thread stand to the forces that arose in it during its rotation and the tension that was generated. If there is a backlash, the relay can be adjusted precisely, but when locking the rack to the threaded connection, it will be necessary to care, which degrades the accuracy of the adjustment. On the other hand, locking the joint by soldering or welding on a free end in the presence of backlash results in cantilever fastening of boxes with large bursts, which reduces the rigidity of the box fastening and leads to a decrease in the accuracy of the device operation under mechanical effects (Especially when operating in the lateral direction In addition, with a threaded adjustment device, the adjustment of the area is carried out by rotating the anometric box. In this case, the contact point on both contacts will be This makes it difficult to carry out a complete technological adjustment of the contacts, since the local plastic deformation of the contacts caused by the initial run-in requires an adjustment of the operating pressure, at which the point of contact changes, this leads to a decrease in the accuracy of the relay as cycles occur and especially after the overload pressure (increased contact press) 1 The purpose of the invention is to improve the accuracy of working. This goal is achieved by the fact that the pressure relay, comprising a shell, tightly connected to the shell, gauge boxes, each of which has movable and fixed centers, contacts fixed to the movable centers of the gauge boxes, and stakes on the fixed centers of the gauge boxes, at that, one of the racks is connected through a sleeve and an Insulator with a housing, equipped with another sleeve and another insulator, the ends of each sleeve are made with annular projections adjacent to the rack, and the rings The grooves between them, and the inner surface of each sleeve and the outer surface of each rack are made smooth with steps at one of the ends, the other sleeve and the other insulator are fixed on the edge, and each sleeve and stand are interconnected with tension in the zone arranging the annular protrusions of the bushings so that at both ends of the bushings there are formed annular mating adjacent to them, and the width of each annular conjugation is less than the width of the annular protrusion of the bush adjacent to the stand. Contacts are hollow. The gauge box is made in the form of a membrane and a rigid cup. The drawing shows the proposed pressure switch. On the case 1 of the relay, the Kirschka 2 is hermetically installed. Two counter-operated pressure gauge boxes 3 located coaxially serve as the sensitive element of the relay. On the fixed centers of each gauge box, racks 4 were erected, with which the gauge boxes were fastened one through the sleeves 5 and insulators 6 on the housing 1, and the other in the gap 2, on the moving centers of the boxes 3 facing each other, there were hollow rigid contacts 7, The inner surface of each sleeve 5 and the outer surface of each rack 4 are made smooth. steps at one end, H & Both ends of the sleeve are made with annular protrusions adjacent to the insulator, and annular protrusions 8 adjacent to the rack, which are stress deconcentrators. These outlets are separated by annular grooves. The sleeve 5 and the stand 4 are connected so that at both ends of the sleeve are formed adjacent ring-shaped mating, and the width of each ring-shaped mating is less than the width of the corresponding deconcentrator stresses 8, Manometric boxes 3 are made in the form of a membrane 9 and hermetically fixed with it along the perimeter rigid cup 10; Channels 11 and 12 serve to supply the working medium. The operation of the pressure relay is based on the dependence of the deformation of the elastic sensitive element on the pressure drop acting on it, supplied to channels 11 and 12. At a certain measured pressure, the electrical contacts 7 are closed,

Claims (3)

1. PRESSURE RELAY, comprising a housing, a cover hermetically connected to the housing, pressure boxes, each of which has movable and fixed centers, contacts fixed to the moving centers of pressure boxes, and racks fixed to the fixed centers of pressure boxes, one of the racks are connected through the sleeve and the insulator to the housing, characterized in that, in order to increase the accuracy of operation; it is provided with another sleeve and another insulator, the ends of each sleeve are made with ring-shaped protrusions adjacent to the insulator, ring-shaped protrusions adjacent to the rack and ring grooves between them, and the inner surface of each sleeve and the outer surface of each rack are made smooth with in steps at one of the ends, the other sleeve and the other insulator are fixed to the cover, and each sleeve and stand are interconnected with an interference fit in the area of the ring-shaped protrusions of the sleeve so that both ends of the sleeve adjacent annular conjugations are formed, the width of each annular conjugation being less than the width of the annular protrusion of the sleeve _f adjacent to the strut. 2. Relay pop. 1, characterized in that the contact is made hollow. 3. Relay pop. 1, characterized in that the pressure gauge box is made in the form of a membrane and a rigid cup. ·>