RU81797U1 - MAGNET CORNER CONVERTER - Google Patents

Abstract

Magnetic angle transducer refers to measuring technique and is intended for measuring angular dimensions, where reliable coupling of the transducer with the user's object and small axial dimensions of the device are required. The converter comprises a housing (1), a magnet (6), a processing board (7) with a magnetically sensitive element (8), a shaft (3) with an opening (4) and fasteners (5) located perpendicular to the axis of the shaft (3), and a compensating a coupling (9) mounted coaxially to the housing (1). The coupling (9) is equipped with an elastic element (16) located in the plane of the housing (1). The coupling (9), on the one hand, is made with a connecting flange (11), on which the direction indicator for increasing the code (12) of the converter is placed in the form of an arrow. On the other side of the coupling (9), a mounting hole (13) is made with a helical groove (14) and adhesive means (15). The coupling (9) has through holes (10), the axes of which are located in the plane of the axes of the fastening elements (5) of the shaft (3). The technical solution of the converter allows you to expand the operational capabilities of the converter, to simplify pairing and docking with the user object and to ensure reliable coordination of the reference directions of the angular movements of the rotary part of the user object with the converter, 6 il.

Description

The utility model relates to measuring technique and can be used to measure angular dimensions, where a reliable articulation of the transducer with the user's object is required, with small axial dimensions of the device.

A known magnetic angle converter comprising a housing with an opening, a processing board with a magnetically sensitive element mounted on the housing, a shaft, ball bearings located in the housing opening and mounted on the shaft, a magnet with a cylindrical surface, a recess made along the axis of the shaft to accommodate the magnet, screw grooves with a different direction of the helix, made in the bore of the housing, on the shaft and in the recess, and adhesive means for fixing ball bearings in the bore of the housing and on the shaft and for fixing the ma recesses in the recess, RU No. 72318 U1, G01B 7/30, H01L 43/04, 04/10/2008.

A disadvantage of the known magnetic transducer is the lack of a built-in compensating coupling and the complexity of its docking with the rotating shaft of the user's object, which reduces the operational capabilities of the device.

A known magnetic angle converter comprising a housing, ball bearings, a shaft, a magnet mounted on the shaft, a processing board with a magnetically sensitive element, a protective cover, a holder fastened with a protective cover and installed in a cylindrical recess made in the housing coaxially with the shaft axis, RU No. 72320 U1, G01B 7/30, H01L 43/04, 04/10/2008.

The known converter does not have a device for docking with the consumer shaft, which reduces its operational capabilities, and

the absence of a pointer to the direction for increasing the code complicates the docking of the device with the user object, which is especially important for transmitters with an absolute count.

A known photoelectric angle converter mounted on a user object, comprising a housing, an encoded shaft, a sleeve with a compensating elastic element, for example a corrugated elastic element, having a through hole, mounted coaxially with the encoded shaft and connected to the end surface of the housing at one end and the other with a fixed part of the facility, RU No. 2263396 C1, H03M 1/28, H03M 1/24, 10.27.2005.

Known is a photoelectric angle converter mounted on a user object, comprising a housing, an encoded shaft mounted in ball bearings, measuring and indicator disks, emitters and photodetectors, devices for mounting holders and an integrated sleeve in the form of an elastic element fixed at one end to the housing, and the other to the user object, see Heidenhain Prospectus. Germany: 1994. Models RON 255, 455. C 18. Prospectus of the Heidenhain company. General Catalog. Germany: 2003. P.32.

Known elastic elements are used in known photoelectric angle transducers and have each individual structural embodiment and placement.

Known elastic coupling containing disks with coaxial holes and elastic rods placed in each of the coaxial holes of the disks, RU No. 2071687 C1, F16D 3/58, 01/10/1997.

Known magnetic angle Converter containing a housing, ball bearings mounted in the housing, a shaft with a hole and fasteners located perpendicular to the axis of the shaft, a magnet fixed in the shaft hole, a processing board installed in the housing and a magnetically sensitive element located on the processing board with a clearance of in relation to a magnet, RU No. 74463 U1, G01B 7/30,

H01L 43/04, June 27, 2008. The known Converter has a blind hole in the shaft for docking with the shaft of the user object.

This technical solution was adopted as the "closest analogue" of this utility model.

In the converter of the “closest analogue” there is no built-in compensating coupling for connection with the user’s object, which complicates its docking with the user’s device, thereby reducing the operational capabilities and service provided by the converter.

In addition, in the known device there is no direction indicator for increasing the code, which for absolute converters complicates its interfacing with the user object.

The present utility model is based on solving a problem that allows expanding the operational capabilities of the converter, simplifying pairing and docking with the user’s object, and ensuring reliable coordination of the reference directions of the angular movements of the rotary part of the user’s object with the converter.

The technical result of this utility model is the installation of a compensating coupling with an elastic element, its execution with a connecting flange and a mounting hole, and the presence of through holes for the coupling of the converter shaft fasteners.

According to a utility model, this problem is solved due to the fact that the magnetic angle transducer associated with the user’s object comprises a housing, ball bearings installed in the housing, a shaft with a hole and fasteners located perpendicular to the shaft axis, a magnet fixed in the shaft hole, processing board installed in the housing and a magnetosensitive element located on the processing board with a gap with respect to the magnet.

The converter is equipped with a compensating coupling. The expansion joint is mounted coaxially to the housing. Compensation coupling provided

an elastic element located in the plane of the body. The compensating coupling is made, on the one hand, with a connecting flange for communication with a user’s object, on the outer surface of which there is a direction indicator for increasing the code of the converter, for example, in the form of an arrow, and on the other, with a landing hole for the housing, which has at least , one helical groove filled with adhesive, and providing a rigid connection of the expansion joint with the housing. The expansion joint has through holes, the axes of which are located in the plane of the axes of the fasteners.

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 is a magnetic angle transducer, isometry with a quarter cut;

figure 2 - compensating coupling of the Converter, isometry;

figure 3 - node a of figure 1;

figure 4 - magnetic transducer angle, section;

figure 5 is a section aa in figure 4 (the converter is not shown);

in Fig.6 is a section bB in Fig.4 (the Converter is not shown). Magnetic angle transducer contains:

Building 1,

Ball bearings (in housing 1) - 2.

Val - 3,

hole (in shaft 3) - 4,

fasteners (in shaft 3) - 5.

Magnet (in the central hole 4) - 6.

Processing board (in case 1) - 7,

magnetically sensitive element (on board 7) - 8.

Compensating clutch - 9,

through holes (in the coupling 9) - 10,

Connecting flange (couplings 9) - 11,

code direction increase indicator (on flange 11) - 12.

Landing hole (couplings 9) - 13,

helical groove (in hole 13) - 14,

adhesive (in groove 14) - 15.

Elastic element (couplings 9) - 16.

The first group (element 16) is 17.

The first groove (group 17) is 18.

The second groove (group 17) is 19.

Elastic jumpers (grooves 18 and 19) - 20.

The second group (element 16) is 21.

The first groove (groups 21) is 22.

The second groove (groups 21) is 23.

Elastic jumpers (grooves 22 and 23) - 24.

The magnetic angle transducer is connected to the user object by a compensating sleeve 9.

The magnetic angle transducer comprises a housing 1, ball bearings 2, a shaft 3, a magnet 6, a processing board 7 and a magnetically sensitive element 8.

Ball bearings 2 are installed in housing 1.

The shaft 3 is made with a hole 4 and fasteners 5. The fasteners 5 are located perpendicular to the axis of the shaft 3.

The magnet 6 is fixed in the hole 4 of the shaft 3.

The processing board 7 is installed in the housing 1.

The magneto-sensitive element 8 is located on the processing board 7. The magneto-sensitive element 8 is a special microcircuit (for example, 2SA-10 from Sentron AG), which uses the Hall effect, and determines the magnetic field strength in

two mutually perpendicular directions. Between the magnetosensitive element 8 and the magnet 6 there is a gap.

The converter is equipped with a compensating sleeve 9.

Compensating clutch 9 is installed coaxially to the housing 1.

Compensating clutch 9, on the one hand, is made with a connecting flange 11 for communication with the user's object. On the outer surface of the connecting flange 11 there is a direction indicator for increasing the code 12 of the converter for a certain rotation of the shaft 3 with magnet 6. The direction for increasing the code 12 is made in the form of an arrow. The direction indicator increment code of the converter may have any other index.

Compensating clutch 9, on the other hand, is made with a bore 13. The bore 13 has a helical groove 14. The helical groove 14 is filled with adhesive 15. In the bore 13, the compensating clutch 9 is rigidly connected to the housing 1.

Compensating clutch 9 is made with through holes 10. The axis of the through holes 10 are located in the plane of the axes of the fastening elements 5 of the shaft 3.

Compensating clutch 9 is equipped with an elastic element 16 located in the plane of the housing 1.

The elastic element 16 is formed by two groups of 17 and 21 paired grooves. Group 17 includes opposed slots 18 and 19 forming elastic jumpers 20. Group 21 includes opposed slots 22 and 23 forming elastic jumpers 24. Counter slots 18 and 19, as well as opposed slots 22 and 23, are located symmetrically with respect to the axis of the transducer .

Counter-mounted grooves 18 and 19 in the plane of the perpendicular axis of the transducer are located at an angle of 90 angular degrees relative to the counter-placed grooves 22 and 23, providing

the perpendicular arrangement of the elastic bridges 20 and 24, respectively.

The elastic element 16 allows both small rotations of the housing 1 in two perpendicular planes and small linear displacements of the housing 1 in two mutually perpendicular directions.

To connect the transducer to a recording device (not shown), a communication cable (shown conventionally) is used.

The magnetic angle transducer measures as follows.

When the shaft 3 is rotated with the magnet 6, the parameters of the electromagnetic field affecting the magnetically sensitive element 8 change, which registers the angle of rotation of the magnet 6 and converts it together with other electric elements (shown conditionally) of the processing board 7 into an electrical signal of the required format, proportional to the rotation value and transmitted to the registration device (not shown) via the communication cable, while the arrow of the pointer 12 shows the direction of increase of the code.

The supply of the magnetic angle transducer with a compensating sleeve 9 with an elastic element 16 ensures the operation of the transducer with angular and linear misalignments of the shaft 3 of the transducer and the shaft of the user object, which extends the operational capabilities of the use of the transducer.

The placement of the compensating sleeve 9 coaxially to the housing 1 minimizes the axial dimensions of the transducer, while the opposed grooves 18 and 19 of the group 17 and the opposed grooves 22 and 23 of the group 21 of the elastic element 16 are located within the housing 1 of the transducer, which makes it possible to operate the transducer in small measuring systems .

The execution of the landing hole 13 of the compensating sleeve 9 even with one screw groove 14, filled with adhesive means 15,

provides reliable fastening of the compensating sleeve 9 on the housing 1, while the pairing of the housing 1 and the compensating sleeve 9 is made without a gap under the adhesive means 15, which ensures accurate basing of the parts and allows the converter to be operated under increased mechanical stresses.

The implementation of the compensating sleeve 9 with the elastic element 16 and the presence of the connecting flange 11 provides both thermal isolation and vibration isolation of the converter housing 1 from the device of the user object, which allows the converter to be operated at elevated temperature and mechanical influences from the user object.

Providing the transducer with a visual indication of the direction of increasing code 12 of the transducer provides reliable coordination of the direction of reference of the angular movements of the rotary part of the user object with a magnetic angle transducer, which is especially important for a transducer with an absolute reference of displacements.

The execution of the direction indicator for increasing the code 12 in the form of an arrow on the outer surface of the connecting flange 11 associated with the device of the user object simplifies the assembly operation for docking the converter with the drive mechanism of the user object, while monitoring the execution of this operation does not require special devices.

The proposed magnetic angle transducer is manufactured industrially at OJSC SKB IS, and the tests of the experimental batch determine, in the applicant’s opinion, that it meets the criterion of “industrial applicability”.

Claims (1)

A magnetic angle transducer associated with a user object, comprising a housing, ball bearings installed in the housing, a shaft with an opening and fasteners arranged perpendicular to the axis of the shaft, a magnet fixed in the shaft hole, a processing board installed in the housing and a magnetically sensitive element located on the board processing with a gap with respect to the magnet, characterized in that the transducer is equipped with a compensating coupling mounted coaxially to the housing, provided with an elastic element, located m in the plane of the housing, made on one side with a connecting flange for communication with the user’s object, on the outer surface of which there is a direction indicator for increasing the converter code, for example, in the form of an arrow, and on the other, with a landing hole for the housing having at least at least one helical groove filled with adhesive, and providing a rigid connection of the compensating sleeve with the housing, and having through holes, the axes of which are located in the plane of the axes of the fasteners.