RU60202U1 - INDUCTIVE MOVEMENT CONVERTER - Google Patents

Abstract

The utility model relates to measuring technique and can be used to convert linear displacements into an electrical signal. The present utility model is based on the solution of a problem that allows simplifying the design, increasing the accuracy of measurements, improving and expanding operational capabilities. An inductive displacement transducer comprises a housing, a displacement mechanism with a movable rod, a ferromagnetic armature, inductors, a rotary device with an axis of rotation, including a lever kinematically connected to the axis of rotation, a measuring tip fixed in the holder, and a closing spring. The movement mechanism is made in the form of a parallelogram with a fixed base rigidly connected to the body and contains elastic elements, some ends of which are fixed on a fixed base, and others on a movable rod, which is combined with a ferromagnetic armature, inductors are mounted on a fixed base located between a ferromagnetic anchor and a measuring tip, the holder of which is fork-shaped and equipped with a fastening device for attaching it to the axis of rotation, and the lever at one end has bench for mounting on the rotation axis, the other end of the lever is kinematically connected to the movable rod and the closure carries a kinematic closing spring placed between the lever and the movable rod, wherein the maximum ductility parallelogram plane perpendicular to the axis of rotation of the lever.

Description

The utility model relates to measuring technique and can be used to convert linear displacements into an electrical signal.

A device for measuring linear displacements, including an inductive transducer, comprising a housing, guides, a measuring rod, an armature rigidly connected to the measuring rod, coils installed in the cores, RU No. 2245512 C1, G 01 B 7/00, 2005.01.27.

The inductive displacement transducer of the known device provides a small measuring range, which reduces the possibility of its widespread use.

Known inductive transducer containing a housing, a guiding device with a measuring rod, a ferromagnetic armature, inductors and a trailing spring, RU No. 51199 U1, G 01 B 7/00, 2006.01.27.

This converter has a small range of operation, which reduces its operational capabilities.

A known inductive displacement transducer comprising a housing, a measuring tip, a guiding device on balls, a measuring rod, an anti-rotation device, a ferromagnetic armature, inductors and a closing spring, RU No. 51197 U1, G 01 B 7/00, 2006.01.27.

When using the known inductive displacement transducer, dimensions are measured along the axis of the measuring rod, and when the cantilever force is applied to the rod, the guides are skewed and jammed in the guides, which does not allow it to be used for measurements in hard-to-reach places and reduces its operational capabilities.

Known inductive transducer containing a housing, a guiding device, a measuring rod, a stroke limiter of the measuring rod, an armature with a ferromagnet, rigidly connected to the measuring rod, inductors located in the cores, supporting elements, one of which is connected to the housing, and the other to the measuring rod , a closing spring located between the support elements, and a measuring tip, Prospectus of the company "TESA" Measuring systems to ensure the quality of ISO 9001, 2003. C. L-4, L-33.

In the known inductive transducer, the movement of the measuring tip is carried out by means of ball guides, which, although small, have backlash, and this reduces the accuracy of the inductive transducer.

Known inductive displacement transducer, comprising a housing equipped with a mandrel with inductors, a guiding device with rods arranged parallel to one another, and two ball guides with ball bushings, with circulating balls placed in them, mounted coaxially and interacting with one of the rods, a carriage with a ferromagnetic armature and anti-rotation sleeve, interacting with another rod, movement controller

carriage and trailing spring located in the housing hole, RU No. 2006112489/22, U1, G 01 D 7/00, the decision to grant a patent of the Russian Federation for utility model dated 05/19/06.

This inductive displacement transducer is difficult to manufacture and has large dimensions.

A known inductive displacement transducer comprising a housing, a displacement mechanism with a movable rod, a ferromagnetic armature, inductors, a rotary device with an axis of rotation, including a lever kinematically connected to the axis of rotation, a measuring tip fixed in a holder, and a closing spring. Prospectus of the company "Mahr" "Production measuring equipment. Manual measuring tools. " 1998, C 4-18.

This technical solution is taken as the closest analogue of this utility model.

However, it has disadvantages.

The inductive converter of the closest analogue performs high-precision measurements with an error of less than 0.1 microns. The design of such a transducer requires the precise implementation of a micrometer pair of the displacement mechanism and the presence of a clearance device eliminating backlash in the kinematics of the transducer, both in the axial and radial directions, and the absence of elastic guide elements in the displacement mechanism reduces the measurement accuracy and complicates the design.

The present utility model is based on the solution of a problem that allows simplifying the design, increasing the accuracy of measurements, improving and expanding operational capabilities.

According to a utility model, this problem is solved due to the fact that the inductive displacement transducer contains a housing, a displacement mechanism with a movable rod, a ferromagnetic armature, inductors, a rotary device with an axis of rotation, including a lever kinematically connected to the axis of rotation, a measuring tip fixed to holder, and trailing spring.

The movement mechanism is made in the form of a parallelogram with a fixed base rigidly connected to the body and contains elastic elements, some ends of which are fixed on a fixed base, and others on a movable rod, which is combined with a ferromagnetic armature, inductors are mounted on a fixed base located between a ferromagnetic anchor and a measuring tip, the holder of which is fork-shaped and equipped with a fastening device for attaching it to the axis of rotation, and the lever at one end has bench for mounting on the rotation axis, the other end of the lever is kinematically connected to the movable rod and the closure carries a kinematic closing spring placed between the lever and the movable rod, wherein the maximum ductility parallelogram plane perpendicular to the axis of rotation of the lever.

The applicant has not identified sources containing information on technical solutions identical to this utility model, which allows us to conclude that it meets the criterion of "novelty."

The essence of the utility model is illustrated by drawings, which depict:

figure 1 inductive transducer displacements in the context;

figure 2 is a section aa in figure 1;

figure 3 - node B in figure 1.

Inductive displacement transducer contains:

Building 1,

- an element of fastening (case 1) 2.

Protective covers (on housing 1) 3.

Parallelogram movement mechanism 4.

Fixed base (parallelogram 4) 5,

- inductor (on a fixed base 5) 6,

- inductor (on a fixed base 5) 7,

- output cable (from inductors 6 and 7) 8,

- mounting mechanism (output cable 8) 9.

Moving rod (parallelogram 4) 10,

- ferromagnetic anchor (combined with a movable rod 10) 11.

Elastic elements (parallelogram 4) 12,

- lining (on the elastic elements 12 on a fixed base 5) 13,

- pads (on the elastic elements 12 on the movable rod 10) 14.

Swivel device 15.

Lever (rotary device 15) 16,

- emphasis (on the lever 16) 17,

- clamp (at one end of the lever 16) 18.

The axis of rotation (rotary device 15) 19,

- bearings (axis of rotation 19) 20.

Closing spring (at the other end of the lever 16) 21.

Measuring tip 22,

- fork-shaped holder (measuring tip 22 on the axis of rotation 19) 23,

- mounting device (on holder 23) 24.

Inductive displacement transducer comprises a housing 1, a displacement mechanism 4, a ferromagnetic armature 11, inductors 6 and 7, a rotary device 15, a measuring tip 22 and a closing spring 21.

The housing 1 has a mounting element 2 for mounting the transducer in the measuring stations, which in this design implementation is made in the form of a “dovetail”. To protect the converter from pollution, protective covers 3 are fixed on the housing 1.

The movement mechanism 4 is made in the form of a parallelogram with a fixed base 5, a movable rod 10 and elastic elements 12. The elastic elements 12 are fixed at one end to the fixed base 5 by means of plates 13, and the other on the movable rod 10 by means of plates 14. The elastic elements 12 are made, for example, in the form of flat springs. The fixed base 5 is rigidly connected to the housing 1.

The movable rod 10 is combined with a ferromagnetic armature 11.

In the fixed base 5, inductors 6 and 7 are installed. The wires from the inductors 6 and 7 are connected by an output cable 8, which fixes the mounting mechanism 9.

A fixed base 5 is located between the ferromagnetic armature 11 and the measuring tip 22.

The rotary device 15 with the axis of rotation 19 and includes a lever 16. The axis of rotation 19 is installed in the bearings 20. The plane of maximum compliance of the parallelogram 4 is perpendicular to the axis of rotation 19 of the lever 16.

The lever 16 at one end is made with a clamp 18, which ensures its fastening on the axis of rotation 19. At the other end of the lever 16 there is a stop 17 that interacts with the movable rod 10 of the parallelogram 4. The lever 16 is kinematically connected with the movable rod 10, and the kinematic closure the closing spring 21. The closing spring 21 is placed between the lever 16 and the movable rod 10.

The measuring tip 22 is fixed in the holder 23. The holder 23 has a fork-shaped shape and is equipped with a mounting device 24 for mounting to the axis of rotation 19. The mounting device 24 provides a different angular location of the holder 23 with the measuring tip 22 relative to the housing 1 on the axis of rotation 19.

The inductive transducer performs measurements as follows.

The inductive converter is mounted in the measuring stations for the mounting element 2 of the housing 1.

The rotation of the measuring tip 22 with the holder 23 relative to the housing 1, leads to the rotation of the lever 16 and the axis of rotation 19. The rotation of the lever 16 leads to the movement of the ferromagnetic armature 11, combined with the movable rod 10, on the elastic elements 12 of the parallelogram 4. In turn, the movement of the ferromagnetic armature 11 leads to a change in the inductance of the coils 6 and 7 of the inductive converter and then to a change in the electrical signal. Proportional to the rotation of the lever 16 and the movement of the ferromagnetic armature 11, the electric signal enters the registration device (not shown), where it is processed and the result of the measurement of displacements is produced.

The execution of the movement mechanism in the form of a parallelogram 4 with a movable rod 10 and a fixed base 5 connected by elastic elements 12, simplifies the design.

Since the inductive displacement transducer is used in a small range (in the closest analogue it is ± 0.3 mm), the movement of the ferromagnetic armature 11 in the direction of minimal compliance of the parallelogram is insignificant, and the provision of backlashless movements on the elastic elements 12 allows at the same time to obtain high reproducibility of the position of the ferromagnetic Anchors 11 and high accuracy converter.

The location of the kinematic connection of the lever 16 with the movable rod 10 by means of a closing spring 21 at the end of the lever 16 eliminates the influence of the closing force on the structural parts of the movement mechanism 4, which increases the accuracy of the Converter.

The placement of inductors 6 and 7 on the fixed base 5 of the parallelogram 4, the fastening of the elastic elements 12 to the fixed base 5, the placement of the parallelogram 4 so that the plane of maximum compliance is perpendicular to the axis of rotation 19 of the lever 16 and the combination of the movable rod 10 with the ferromagnetic armature 11 provide minimum dimensions a converter, which expands its operational capabilities and creates the possibility of use in small-sized measuring systems.

The presence in the holder 23 of the mounting device 24 provides the installation of the measuring tip 22 at different angles to the housing 1 of the Converter, which provides measurements in various hard-to-reach places, which improves and extends the operational capabilities.

The implementation of the holder 23 fork-shaped and providing it with a mounting device 24 ensures the reliability of its installation and fixation on the axis of rotation 19, which improves operational capabilities.

The presence of the clamp on the lever 16 ensures the reliability of its fastening on the axis of rotation 19 in the selected position and at the same time simplifies the assembly of the converter, especially in its small dimensions.

The proposed inductive displacement transducer is manufactured industrially by LLC NPF Zavod Zavod Izon, which is confirmed by tests of an experimental batch, and this, according to the applicant, determines its compliance with the criterion of “industrial applicability”.

Claims (1)

An inductive displacement transducer comprising a housing, a displacement mechanism with a movable rod, a ferromagnetic armature, inductors, a rotary device with an axis of rotation, including a lever kinematically connected to the axis of rotation, a measuring tip fixed in the holder, and a closing spring, characterized in that the mechanism The displacements are made in the form of a parallelogram with a fixed base rigidly connected to the body, and contains elastic elements, one ends of which are fixed on a fixed base, and others coils - on a movable rod, which is combined with a ferromagnetic armature, inductors are mounted on a fixed base located between the ferromagnetic armature and the measuring tip, the holder of which has a fork-shaped shape and is equipped with a mounting device for mounting it to the axis of rotation, and the lever at one end has a clamp for fastening on the axis of rotation, the other end of the lever is kinematically connected to the movable rod, and the closing spring is kinematically closed between the lever and the movable rod eye, while the plane of maximum compliance of the parallelogram is perpendicular to the axis of rotation of the lever.