RU78304U1 - MAGNET CORNER CONVERTER - Google Patents

Abstract

Magnetic angle transducer refers to measuring technique and is intended for measuring angular dimensions during operation under high loads. The converter contains a housing (1) with a hole (2), a processing board (3) with a magnetically sensitive element (4), a shaft (5), ball bearings (6), a remote device (7) in the form of an external (8) and internal (10) rings, a magnet (12) with a cylindrical surface (13), a recess (14) in the shaft (5) for a magnet (12). Ball bearings (6) are located in the bore (2) of the housing (1) and mounted on the shaft (5). Between the ball bearings (6), an outer ring (8), conjugated with the housing (1), and an inner ring (10), paired with the shaft (5) are installed. On the outer surface (9) of the outer ring (8) and on the surface of the hole (2) of the housing (1), helical grooves (18) and (15) are made, respectively. On the inner surface (11) of the inner ring (10) and on the shaft (5), helical grooves (19) and (16) are made, respectively. On the cylindrical surface (13) of the magnet (12) and in the recess (14), helical grooves (20) and (17) are made, respectively. All screw grooves (18) and (15), (19) and (16), (20) and (17), respectively, are conjugated, have a different direction of the helix, equal pitch and profile, and are filled with adhesive (21). The technical solution of the converter allows you to increase the rigidity of the structural elements and increase reliability during operation in conditions of increased vibration and shock effects along the axis of the converter, 5 ill.

Description

The utility model relates to measuring technique and can be used to measure angular dimensions during operation under high loads, where high rigidity and reliability of the structure are required.

A known displacement sensor for controlling the movement of an object, comprising a housing in which a magnetically sensitive element is mounted in the form of a Hall transducer and a rotating disk with permanent magnets is connected, connected with the measurement object, RU No. 2190830 C2, G01B 7/00, 2002.10.10.

The disadvantages of the known sensor are the small range of operation - only up to 120 angular degrees and large radial dimensions, which reduces its functional and operational capabilities.

Known magnetic throttle position sensor containing a housing with two cavities, a rotor with a magnet located in one cavity, and a processing board with a magnetically sensitive element and a protective cover located in another cavity, RU No. 633927 U1, G01B 7/30, 2007.06.10 .

The magnet and the magnetically sensitive element in the known sensor are located in different cavities of the device, which helps to increase

the distance between them, and this reduces the sensitivity and accuracy of the device.

Known magnetic angle Converter containing a housing with a hole, ball bearings located in the housing bore and mounted on a shaft having a recess made along the axis of the shaft to accommodate a cylindrical magnet, means for fixing ball bearings in the housing bore and on the shaft and for fixing a cylindrical magnet in the recess and a processing board with a magnetically sensitive element mounted on the housing. Prospectus of the company "RENISHAW", apply innovation "RE36 siries rotary encoders", S.1-8, 2003-2007.

In the known converter for articulating ball bearings with a housing and a shaft, as well as a magnet with a shaft recess, guaranteed clearances are necessary for the placement of adhesive means, and the presence of such clearances in the joints leads to uneven filling of the adhesive means and, as a result, to eccentric fastening of the actuating elements, and this leads to both radial and end-face magnet battle during shaft rotation, and to different rigidity and reliability of fastening in different directions.

Known magnetic angle transducer containing a housing with a hole, a processing board with a magnetically sensitive element mounted on the housing, a shaft, ball bearings located in

housing holes 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 different directions of the helical line, made in the housing hole, on the shaft and in the recess, and adhesive means for fixing ball bearings in the housing hole and on the shaft and for fixing the magnet in the recess, RU No. 72318 U1, G01B 7/30, H01F 43/04, 2008.04.10.

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

In the “closest analogue” converter, the bearing assembly and the connection of the magnet with the cylindrical surface of the shaft recess have insufficiently rigid connections for operation under conditions of increased vibration and shock along the axis of the converter, since the outer and inner surfaces of ball bearings and the outer surface of the magnet have a smooth cylindrical surface with low roughness , which complicates the adhesion of the adhesive means to such surfaces and reduces the reliability of fixing I have ball bearings in the housing and on the shaft, and a magnet with a shaft recess.

The present utility model is based on the solution of a problem that allows one to increase the rigidity of structural elements and increase reliability during operation under conditions of increased vibration and shock effects along the axis of the transducer.

According to a utility model, this problem is solved due to the fact that the magnetic angle transducer comprises 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, helical grooves with different directions of the helix, made in the bore of the housing, on the shaft and in the recess, and adhesive means for fixing the ball bearings Cove in the housing hole and the shaft and for fixing the magnet in the recess.

The Converter contains a remote device located between the ball bearings and made in the form of the outer and inner rings installed in the housing and on the shaft, respectively, the outer ring is equipped with at least two screw grooves made on its outer surface and mated with screw grooves in the hole housing, the inner ring is equipped with at least two helical grooves made on its inner surface and mating with helical grooves on the shaft, and on a cylindrical second magnet surface formed as at least two helical grooves with conjugate helical grooves in the recess, the helical grooves on inner and outer rings and a cylindrical surface of the magnet filled

adhesive means, while each of the two screw grooves on the outer ring, on the inner ring and on the cylindrical surface of the magnet have different directions of the helix lines relative to one another, and their pitch and profile are equal to the pitch and profile of the helical grooves in the bore hole, on the shaft and in recess, respectively.

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 - magnetic transducer angle, section;

figure 2 - node a in figure 1;

figure 3 is a fragment of the outer ring, isometry;

figure 4 is a fragment of the inner ring, isometry;

figure 5 - magnet, isometry.

Magnetic angle transducer contains:

Building 1,

hole (in case 1) - 2.

Processing board (attached to case 1) - 3,

magnetically sensitive element (on board 3) - 4.

Shaft - 5.

Ball bearings (on shaft 5) - 6.

Remote device (between ball bearings 6) - 7,

outer ring (devices 7) 8,

outer surface (rings 8) 9,

inner ring (devices 7) 10,

inner surface (rings 10) 11.

Magnet - 12,

cylindrical surface (magnet 12) - 13.

Deepening (in shaft 5 for magnet 12) - 14.

Screw grooves (in the hole 2 of the housing 1) - 15.

Screw grooves (on shaft 5) - 16.

Screw grooves (in recess 14) - 17.

Helical grooves (on the surface 9 of the ring 8) - 18.

Helical grooves (on the surface 11 of the ring 10) - 19.

Helical grooves (on the surface 13 of magnet 12) - 20.

Adhesive (in the grooves 15, 16, 17, 18, 19, 20) - 21.

The Converter contains a remote device 7. The remote device 7 is located between the ball bearings 6 and is made in the form of the outer 8 and inner 10 rings.

The outer ring 8 is installed in the housing 1. The inner ring 10 is mounted on the shaft 5.

On the outer surface 9 of the outer ring 8, two helical grooves are formed 18. The helical grooves 18 are associated with the helical grooves 15 in the opening 2 of the housing 1. The two helical grooves 18 have different directions of helical lines relative to one another.

Two helical grooves 19 are formed on the inner surface 11 of the inner ring 10. The helical grooves 19 are associated with the helical grooves 16 on the shaft 5. The two helical grooves 19 have different directions of helical lines relative to one another.

Two helical grooves 20 are formed on the cylindrical surface 13 of the magnet 12. The helical grooves 20 are associated with the helical grooves 17 in the recess 14. The two helical grooves 20 have different directions of helical lines relative to one another.

The helical grooves 15, 16, 17, 18, 19 and 20 are filled with adhesive 21.

The helical grooves 18, 19, 20 on the outer ring 8, on the inner ring 10 and on the cylindrical surface 13 of the magnet 12, respectively, have a pitch and a profile equal to the pitch and profile of the helical grooves 15, 16, 17 in the hole 2 of the housing 1, on the shaft 5 and in recess 14, respectively.

The magnetosensitive element 4 is a special microcircuit (for example, 2SA-10 from Sentron AG), in which the Hall effect is used, and the magnetic field strength is determined in two mutually perpendicular directions.

To connect the converter with the recording device (not shown conditionally), a communication cable is used, which is located in the protective cover (shown conditionally).

The magnetic angle transducer measures as follows.

When the shaft 5 is rotated with the magnet 12, the electromagnetic field changes, acting on the magnetically sensitive element 4, which registers the rotation angle of the magnet 12 and converts it together with other electrical elements (shown conditionally) of the processing board 3 into an electrical signal of the required format, proportional to the rotation value and transmitted to the registration device (not shown conditionally) via a communication cable.

The installation in the converter of the remote device 7 with the outer ring 8 when performing on its outer surface 9 screw grooves 18 with different directions of helical lines filled with adhesive means 21, increases the rigidity of fixing the outer ring 8 in the hole 2 of the housing 1.

The installation in the transducer of the remote device 7 with the inner ring 10 when performing on its inner surface 11 screw grooves 19 with different directions of helical lines filled with adhesive means 21, increases the rigidity of fixing the inner ring 10 on the shaft 5.

Increasing the rigidity of the connection of the housing 1 and the outer ring 8, as well as the shaft 5 and the inner ring 10 ensures stable operation of the axis of rotation of the shaft 5.

The execution on the cylindrical surface 13 of the magnet 12 of the helical grooves 20 with different directions of the helical line, filled with adhesive means 21, further increases the rigidity of the magnet 12 in the recess 14.

Rigid fixation of the outer ring 8 in the hole 2 of the housing 1 and the inner ring 10 on the shaft 5 provides rigid stops for installing ball bearings 6, which significantly increases the rigidity and reliability during operation in conditions of increased vibration and shock along the axis of the transducer.

The pair of screw grooves 15 and 18, 16 and 19, 17 and 20, made with equal pitch and profile, and filling them with adhesive means 21 allows you to double the adhesive volume and, therefore, double the filling capacity, forming adhesive joints along a helical line with its different direction and from different sides of the corresponding cylindrical generators along which the parts are connected, while the adhesive means 21 in the corresponding helical grooves is located symmetrically with respect to the cylindrical generatrix, as in the space of one and in the space of another mating part, which ensures the achievement of the maximum technical effect at high mechanical vibration and shock loads along the axis of the magnetic transducer.

Additionally: the placement of the remote device 7 in the form of the outer 8 and the inner 10 rings between the ball bearings 6 improves the Assembly of the Converter.

Additionally: the presence of screw grooves 18, 19 and 20 simplifies the installation of the outer ring 8 in the housing 1, the inner ring 10 on the shaft 5 and the magnet 12 in the recess 14.

Additionally: the presence on the cylindrical surface 13 of the magnet 12 of the helical grooves 20 provides a difference in the magnetic properties of the magnet 12 in different sections passing through its axis, this allows you to increase the sensitivity of the magnetic field of the magnet 12 when it is rotated on the magnetically sensitive element 4 of the processing board 3.

The proposed magnetic angle transducer was manufactured industrially at OJSC SKB IS, 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)

A magnetic angle transducer comprising a housing with a hole, a processing board with a magnetically sensitive element mounted on the housing, a shaft, ball bearings located in the housing bore 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 different directions 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 magnet in hardening, characterized in that the converter comprises a remote device located between the ball bearings and made in the form of outer and inner rings installed in the housing and on the shaft, respectively, the outer ring is provided with at least two helical grooves made on its outer surface and mated with screw grooves in the opening of the housing, the inner ring is provided with at least two screw grooves made on its inner surface and mating with the screw channels at least two helical grooves are made on the shaft, and on the cylindrical surface of the magnet, mating with the helical grooves in the recess, the helical grooves on the outer and inner rings and on the cylindrical surface of the magnet are filled with adhesive, each of the two helical grooves on the outer ring, on the inner ring and on the cylindrical surface of the magnet have different directions of the helical lines relative to one another, and their pitch and profile are equal to the pitch and profile of the helical grooves in the hole of the core whisker on the shaft and a recess, respectively.