RU2443985C1 - Manometric depth gauge gm-08 - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: manometric depth gauge has a cylindrical housing, a base, a tubular Bourdon spring with a fixed tip with a hard projection, having a hole for attaching a first hinge. At the tail of the tubular sector there is also a hole for attaching a second hinge for joining a rod by its ends using the first and second hinges. The depth gauge also has a zero adjuster which is mounted onto the housing of the device and has a cylindrical tension spring which is freely tied using hooks. One hook is freely inserted into the hole of the larger cantilever span of an arm, and the other into the hole of a lug which is rigidly attached to the free end of the tubular Bourdon spring to the tip with the flat projection. The smaller cantilever of the arm has a hole at the end for mounting a third hinge and joining the smaller cantilever of the arm with the cylindrical tip, which is fitted into the fitment hole of the top part of an adjustment screw. The adjustment screw is fitted into the hole vertically and in parallel to the longitudinal axis of the device.

EFFECT: simple design of manometric depth gauges by improving the design of the zero adjustment unit.

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Description

The invention relates to instrumentation, in particular to the field of creating arrow depth gauges, the cases of which are cylindrical in shape with a protective glass located above the dial.

The devices are designed to measure the hydrostatic pressure of sea water and are installed inside the underwater vehicle.

Designs of gauge-type devices showing the ship’s MTPSd-100-OM2, VTPSd-100-OM2, MVTPSd-100-OM2 and similar ship pressure gauges manufactured by OJSC Manotom [1], the hulls of which have a cylindrical shape, can be used as analog ones:

- MKr - 160V with the registration function of the control arrow of the maximum pressure during operation of the device;

- MKR-160S with a control arrow and a device for returning it to zero;

- manometers and manovacuometers MP-3Kr and MVP-3Kr for measuring air pressure, sea water;

- ship pressure gauge [2].

The well-known "Pressure gauge showing for accurate measurements MPTI" [3], selected as a prototype, containing a cylindrical body, inside which there is a base holder, ending with a fitting for connecting to the measured pressure from the outside of the housing, a Bourdon tubular spring, which is connected with the free end to using traction with a transmission tribo-sector mechanism that converts the movement of the free end of the tube into circular motion of the arrow mounted on the axis of the tribe and located above the dial, balancers chnoe device constituting weights moving on the threaded stud and zero corrector that imposed on the housing and includes a cylindrical tension spring, the tension of which changes when rotating eccentric screw and adjusts the position of the arrow relative to a reference zero. Moreover, the cylindrical tension spring is installed with the possibility of damping the pulsations of the Bourdon tubular spring. In addition, the cylindrical tension spring is freely fixed by means of trailers obtained by bending the extreme turns of the spring, so that one trailer of the spring is freely inserted into the hole of the screw earring with an eccentric, and the other into the hole of the ear, which is rigidly attached to the Bourdon tubular spring to the tip with flat protrusion. An advantage of the prototype is also that the design of the device has a zero corrector, which is attached to the device body with screws and a mounting washer and consists of a screw with a slot on the front side, and a disk with an eccentric, which is made at the same time, is attached to the rear end screws. moreover, to keep the zero corrector in a fixed position between the mounting washer and the disc with an eccentric, a disk spring is located, the tension tension with a reserve of which is created when fastening the screws with an eccentric to the threaded ERSTU rear end of the screw with a slot, wherein the screw located in the sleeve and having a flange made of elastic material, which makes it possible to insert the sleeve into the opening of the housing and to fix it by means of flange returns.

However, the prototype has a number of disadvantages, namely:

- a disk spring is located in the design of the zero corrector, with the help of which a reliable tightness is created with a margin and a fixed fastening of the zero corrector on the cylindrical body of the pressure gauge, however, during long-term operation of the device, the mechanical characteristics of the disk spring material change due to material fatigue [4, p.354], which leads to a weakening of the mounting of the zero corrector to the body of the device and, as a result, leads to errors in the readings of the pressure gauge;

- due to the above reason, another negative point arises: during pulsations of the Bourdon spring, which is connected with the eccentric of the zero corrector by means of a cylindrical tension spring, the zero corrector is displaced relative to the initial installed position on the cylindrical body of the device, which increases the error of the pressure gauge.

Further, in the prototype - to increase vibration resistance by eliminating the influence of pulsations of the measured medium - in which, in addition to the use of a cylindrical tensile spring, a balancing device is used, which is weights moving on a threaded rod, and due to their inertia, a stabilized position of the pointer arrow on the scale of the device is created at measured pressure, then in the new proposed technical solution it is not necessary to use a balancing device, since the new device is operated To measure hydrostatic pressure, which greatly simplifies the design of the device and increases its efficiency.

The aim of the proposed technical solution is to simplify the design of gauge-type depth gauges by improving the design of the zero correction unit.

The technical result is achieved by the fact that the gauge depth gauge containing a cylindrical body, inside which there is a base holder, ending with a fitting for connecting to the measured pressure from the outside of the body, a Bourdon tubular spring, on the free end of which a tip with a flat protrusion having a hole is rigidly fixed made in the form of a groove for fastening the first hinge, and in the shank of the gear sector there is also a hole made in the form of a groove for fastening the second hinge for soy dividing the rod with its ends using the first and second hinges, and the length of the rod is regulated using the shoulder, in which there is a longitudinal groove for moving the shoulder up and down, which is attached to the rod with screws, in addition, contains a new design of the zero corrector, which consists from a cylindrical tension spring, which is freely fixed by means of trailers obtained by bending the extreme turns of the spring so that one spring trailer is freely inserted into the departure hole of the larger arm console on the axis of rotation, which is fixed on a cylindrical protrusion of the inner wall of the device, and the other in the eyelet, which is rigidly attached to the Bourdon tubular spring to a tip with a flat protrusion, in addition, the smaller arm console has a hole in the form of a longitudinal a groove for attaching the third hinge and connecting the smaller arm of the lever with a cylindrical tip, which is installed in the upper part of the adjustment screw, the upper part of which is made in the form of a threaded rod, which the screw is screwed into the threaded hole of the sleeve, which is made integral with the flat shoulders, which are attached to the inner wall of the device with screws, and the adjustment screw is installed vertically parallel to the longitudinal axis of the device in the hole, which is made in the lower part of the cylindrical body of the device, in addition, the lower part the adjusting screw protrudes beyond the limits of the device body and has a slot at the end for the adjusting tool.

Comparison of the claimed technical solution with the prototype made it possible to establish its criterion of "novelty." In the study of other well-known technical solutions in this technical field, distinguishing the claimed invention from the prototype were not identified and therefore they provide a technical solution that meets the criterion of "significant differences".

Drawings explaining the essence of the invention are shown: in Fig.1 - shows the device of the front side; in Fig.2 - node A of the zero corrector in Fig.1, in Fig.3 a section bB in Fig.1, in which: 1 - a cylindrical body of the device with a rear flange 2, in which there are three holes for fixing the device in place , 3 - the dial of the device, 4 - arrow pointer, 5 - protective glass, 6 - the fitting, which is part of the holder 7, and fixed motionlessly in the case 1 with a Bourdon tube 8, which is connected by a free end via a rod 9 through a shank 10 of the gear sect transfer tribo-sector mechanism (conventionally not shown in the drawing) that converts movement the free end of the Bourdon tube 8 in a circular motion of a pointer 4 mounted on the axis of the tribe 11 and located above the dial 3, and the axis of the tube 11 coincides with the central geometric axis of the cylindrical body of the pressure gauge, in which a flat protrusion 12 is rigidly fixed to the free end of the Bourdon tube the hole 13, made in the form of a groove for mounting the first hinge 14 of the zero corrector, and in the shank 10 of the gear sector of the tribo-sector mechanism (not conventionally shown in the drawing) there is also a hole in the form of a groove 15 for attaching a second hinge 16 for connecting the rod 9 to its ends using the first 14 and second 16 hinges, the length of the rod 9 being adjusted using a shoulder 17, in which there is a longitudinal groove 18 for moving the shoulder 17 up or down, the shoulder 17 is attached to the rod 9 with screws 19 and 20, respectively, in addition, the zero corrector contains a cylindrical tension spring 21, which is freely fixed using trailers, 22 and 23, respectively, obtained by bending the extreme turns of the tension spring I 21 so that one trailer 22 is freely inserted into the departure hole of the larger console of the lever 24 mounted on the axis of rotation 25, which is mounted on the cylindrical protrusion 26 of the inner wall of the housing 1, and the other in the hole of the ear 27, which is rigidly attached to the free end of the tubular Bourdon springs 8 to the tip with a flat protrusion 12, in addition, the smaller console of the lever 24 at the end has an opening made in the form of a groove for attaching the third hinge 28 and connecting the smaller console of the lever 24 to the cylindrical tip 29 (Fig. 3 - section AA n figure 1), which is installed in the mounting hole 30 of the upper part of the adjusting screw 31, the upper part of which is made in the form of a threaded rod 32, which is screwed into the threaded hole of the bracket 33, made integral with the flat shoulders 34 with holes for mounting the bracket 33 with screws to the inner wall of the device, and the adjusting screw 31 is installed vertically parallel to the longitudinal axis of the device in the hole, which is made in the lower part of the cylindrical body 1 of the device, in addition, the lower part egulirovochnogo screw 31 protrudes from the housing 1 of the device and has at the end of the slot 35 by the adjusting tool.

The device device operates as follows.

The depth gauge is installed on board the submarine and is connected to a hydraulic system that is directly connected to sea water.

As the submarine dives, water pressure is supplied to the internal cavity of the gauge spring 8 by connecting the device using the nozzle 6 (Fig. 1) to the hydraulic system of the submarine.

When applying pressure, the movement of the free end of the spring 8 using the rod 9 through the shank 10 of the gear sector with a gear sector-sector gear is converted into the rotational movement of the arrow 4. The readout is made on the dial 3 of the device.

The depth of immersion of the submarine is determined by the reading of the instrument, the scale of which is graduated in meters.

The design of the depth gauge is based on traditional mechanical pressure gauges, reliable and easy to operate, in addition, it contains a new design of the zero corrector.

Information sources

1. The nomenclature catalog of products of OJSC Manotom. www.manotom-tmz.ru. Pressure gauges showing ship. Specifications - TU 02.25.1946-76.

2. A manometer showing the ship. RF patent No. 2382342. Authors: A.Yu. Getz, V.I. Machkinis, S.M. Vezner.

3. A pressure gauge showing for accurate measurements MPTI - prototype. RF patent No. 2381465. Authors: A.Yu. Getz, V.I. Machkinis.

4. Stepin P.A. Springs, their calculation and design, 424 p. M., MPEI, 2003

Claims (1)

A manometer depth gauge containing a cylindrical body, inside of which there is a holder-base installed, ending with a fitting for connecting to the measured pressure from the external side of the body, a Bourdon tubular spring, on the free end of which there is a rigidly fixed tip with a rigid protrusion having an opening made in the form of a mounting groove the first hinge, and in the shank of the gear sector there is also a hole made in the form of a groove for attaching a second hinge for connecting the rod with its ends using the first of the second and second hinges, the length of the rod being adjusted using a shoulder, in which there is a longitudinal groove for moving the shoulder up and down, which is attached to the rod with screws, as well as a zero corrector, which is placed on the device body and contains a cylindrical tension spring, which freely fixed by means of trailers obtained by bending the extreme turns of the spring, characterized in that on the free end of the Bourdon tube a flat protrusion is firmly fixed, having a hole for attaching the first hinge correctly zero, and in the shank of the gear sector there is a hole for attaching the second hinge of the zero corrector to connect the rod to its ends using the first and second joints of the zero corrector, and the length of the rod is adjusted using the shoulder, in which there is a longitudinal groove for moving the shoulder up and down, moreover, the shoulder is attached to the rod with screws, in addition, the zero corrector contains a cylindrical tension spring, which is freely fixed with trailers so that one trailer is freely inserted into the hole that large console of the lever mounted on the axis of rotation, which is fixed on the cylindrical protrusion of the inner wall of the device body, and the other in the eyelet, which is rigidly fixed on the free end of the Bourdon tubular spring to the tip with a flat protrusion, in addition, a smaller lever console on the end has a hole made in the form of a groove for mounting the third hinge and connecting the smaller arm of the lever with a cylindrical tip, which is installed in the landing hole of the upper part of the adjusting screw, the upper part of which is made in the form of a threaded rod, which is screwed into the threaded hole of the bracket, made at the same time with flat shoulders with holes for mounting the bracket with screws to the inner wall of the device body, and the adjustment screw is installed vertically parallel to the longitudinal axis of the device in the hole, which is made in the lower part of the cylindrical body of the device, and the lower part of the adjusting screw of the zero corrector protrudes beyond the body of the device and has a slot for adjustment at the end vegetable tool.

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