RU179624U1 - PIPELINE LOCKING BODY ALARM SIGNAL - Google Patents

Abstract

The utility model relates to devices for monitoring the end or any fixed positions of the moving parts of the actuator of a shut-off element of pipe fittings and can be used in various industries. Permanent control magnets 2 are fixed in the grooves 3 of the rotary shaft 4 of the locking member, for example by pouring an epoxy binder with a hardener. When the shaft 4 of the locking element is turned from one extreme position, the reed switch 1 is activated, which was located opposite to the magnets 2. Later, when the magnets 2 pass by the location of the other reed switch 1, at the time of their opposition, this reed switch 1 is activated, signals the achievement of the other extreme the position of the shaft 4 of the locking element. Thermal vibration compensator in the form of an s-shaped loop 8, as well as a shock absorber, thermal deformations and changes in external pressure in the form of a porous elastic polymer strip 9 and a protective housing 10, provide reed switches with reliable protection from any external influences. 1 ill.

Description

The utility model relates to devices for monitoring the end or any fixed positions of the moving parts of the actuator of a shut-off element of pipe fittings and can be used in various industries.

To assess the novelty of the claimed solution, we consider a number of well-known technical devices of a similar purpose, characterized by a combination of features similar to the claimed device.

Known alarm extreme positions of the valve shutter having kinematically connected with the rod microswitches (ed. St. USSR No. 916859). The stem is equipped with concentric protrusions in contact with elastic plates interacting with microswitches. The disadvantage of this device is that the rod is mounted directly on the locking body and mechanically limits the stroke of the shutter, which complicates the design and narrows the scope of its application.

Known signaling device of extreme positions (ed. St. USSR No. 500407), comprising a housing and reed switches and permanent magnets placed therein, between which movable ferromagnetic shields are mounted connected to the spindle. The disadvantage of this design is the inability to separately configure the mechanical and electrical parts.

A known end position switch (ed. St. USSR No. 1373954), comprising a housing and reed switches and permanent magnets placed therein, between which ferromagnetic screens are mounted, mounted on an axis kinematically connected to the pneumatic actuator rod. Reed switches and magnets are arranged in pairs one above the other and are a gap type sensor. The disadvantage of this design is the inability to separately configure the mechanical and electrical parts.

Known end position switch (ed. St. USSR No. 1373954), comprising a housing and placed in it reed switches and permanent magnets, between which are placed ferromagnetic screens, the rotary axis of which is connected to the spindle drive. The signaling device is characterized by the fact that the reed switches and magnets are fixed in the housing and are arranged in pairs one above the other, the screens are made in the form of plates with cutouts, and a bracket is mounted on the rotary axis with an eccentricity, on which these plates are fixed, and the cutout on one plate is shifted relative to the cutout by another plate by the value of the angle of complete rotation of the spindle, and on the rotary axis and spindle are fixed strips connected to each other by means of a pin and a groove.

This technical solution, as the closest to the declared technical essence and the achieved result, was adopted as its prototype

The disadvantage of this technical solution is the need for movable ferromagnetic screens, which complicates the design of the detector and does not provide reliable protection from external influences.

The objective of the utility model is to simplify the design of the signaling device and ensure its reliable protection against external influences in the form of shock, thermal deformation, and changes in external pressure.

The essence of the claimed technical solution is expressed in the following set of essential features, sufficient to achieve the above technical result provided by the utility model.

According to a useful model, the extreme position indicator of the pipeline locking element, including the reed switches and permanent control magnets, is characterized by the fact that the permanent control magnets are fixed in the groove made in the body of the rotary shaft of the locking body, and the reed switches are made with a magnetically transparent shell and placed in the body of the locking body, in which holes are made opposite the reed switches at the level of movement of the permanent control magnets, while the distance between the permanent control magnets and they at the time of their opposing confrontation were selected from the condition of reliable operation of the reed switches when the constant control magnets passed by them, in addition, the reed switches are equipped with a thermal vibration compensator made in the form of an s-shaped loop at their terminals, as well as a shock compensator, thermal deformations and changes in external pressure, made in the form of a porous elastic polymer gasket placed between the reed housing and a magnetically transparent protective sealed housing.

The claimed combination of essential features ensures the achievement of a technical result, which consists in the fact that the permanent control magnets and reed switches are reliably fixed in place at a distance that ensures reliable operation of the reed switches when the permanent control magnets pass by them, which increases the reliability of the signaling device as a whole, and the reed switches have a thermal vibration compensator, as well as a shock compensator, thermal deformations and changes in external pressure provides them with reliable protection against external their impacts.

The essence of the claimed technical solution is illustrated by the drawing, on which in FIG. 1 shows a cross section of the drive shaft of the locking member at the installation site of the permanent control magnets and reed switches, in FIG. 2 - design of a reed switch with a magnetically transparent shell and a protective compensator.

The signaling device of the extreme positions of the pipeline locking body contains reed switches 1 and permanent control magnets 2, which are mounted in a groove 3 made on the periphery of the rotary shaft 4 of the locking body. Reed switches 1 are made with a protective housing 5 and are placed in the body of the shutter body 6, in which holes 7 are made opposite the reed switches 1 at the level of movement of the permanent control magnets 2. The distance between the permanent control magnets 2 and the reed switches 1 at the time of their opposition is selected from the condition of reliable operation of the reed switches 1 when constant control magnets pass by them 2. The reed switches are equipped with a thermal vibration compensator made in the form of an s-shaped loop 8 at their terminals, as well as a shock absorber, thermal deformations and changes in external pressure, made in the form of a porous elastic polymer strip 9, placed between the protective housing 10 of the reed switch and its magnetically transparent shell 5.

The claimed detector operates as follows.

Permanent control magnets 2 are fixed in the grooves 3 of the rotary shaft 4 of the locking member, for example by pouring an epoxy binder with a hardener. When the shaft 4 of the locking element is turned from one extreme position, the reed switch 1 is activated, which was located opposite to the magnets 2. Later, when the magnets 2 pass by the location of the other reed switch 1, at the time of their opposition, this reed switch 1 is activated, signals the achievement of the other extreme the position of the shaft 4 of the locking element. Thermal vibration compensator in the form of an s-shaped loop 8, as well as shock absorber, thermal deformation and changes in external pressure in the form of a porous elastic polymer strip 9 and a protective housing 10 provide reed switches reliable protection from any external influences.

The claimed device can be implemented using well-known equipment, technical and technological means.

Claims (1)

The signaling device of the extreme positions of the pipeline locking body, including reed switches and permanent control magnets, characterized in that the permanent control magnets are fixed in a groove made in the body of the rotary shaft of the locking body, and the reed switches are made with a magnetically transparent shell and placed in the body of the body of the locking body, in which holes opposite the reed switches at the level of movement of the permanent control magnets, while the distance between the permanent control magnets and the reed switches at the time of their opposite the confrontation is selected from the condition of reliable operation of the reed switches when constant control magnets pass by them, in addition, the reed switches are equipped with a thermal vibration compensator made in the form of an s-shaped loop at their terminals, as well as a shock absorber, thermal deformation and external pressure compensation made in the form of a porous elastic a polymer gasket located between the reed housing and a magnetically transparent protective sealed housing.

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