CS256542B1 - Rectilinear ball guide's unit - Google Patents

Abstract

The unit consists of a housing in which a mandrel with holders for the touch and for the movable part of the capacitive or indicia system is rollingly mounted on a pair of linear ball bearings. Inside the housing, a holder for a spring is mounted on the mandrel, which abuts against a collar in the housing. A guide for a pulley is formed on the surface of the housing. Outside the housing, a stop is provided on the mandrel, extending into the cavity of the adjusting screw. Inside the housing, two stop surfaces are provided, between which a stroke limiter is arranged. The use of the unit according to the solution is particularly suitable for measuring geometric quantities, for example lengths, deviations of shape and position.

Description

The invention provides a linear ball guide unit for sensors of geometrical quantities.

Inductive and capacitive sensors are preferably used to measure geometric quantities, for example lengths, deviations of geometric shape and position. The most serious problem of their mechanical part is a linear guide consisting of either a planchet guide or a ball guide. The foil guide is most often used to measure deviations of geometric shape and position, while the ball guide serves mostly for length measurement. The prior art linear ball guide units do not have a spring for biasing directly into the unit and are not equipped with an adjustable stroke limiting device. In most cases, they also do not have a rolling positioning device that would prevent rotational movement of the sliding portion of the ball guide. Typically, the positioning devices are provided with a sliding fit with relatively large passive resistances.

In the linear ball guiding unit according to the invention, the existing drawbacks are largely eliminated. The unit according to the invention consists of a unit housing in which a mandrel is arranged in an axially adjustable manner on a pair of rectilinear bearings. The principle of the invention is that one end of the mandrel is provided with a first contact holder and the other end of the mandrel with a second holder. Inside the housing of the unit, a third spring holder is attached to the darkness that abuts the collar in the housing of the unit. On its surface a guide is provided for a pulley mounted on a pin mounted on a mandrel. Outside the housing of the unit, a stop is provided on the mandrel extending into the cavity of the set screw threaded over the mandrel. It is a further object of the invention that two stop surfaces are provided within the housing of the unit, between which a stroke limiter is mounted fixed to the mandrel.

? se ·.

The use of the unit according to the invention is particularly advantageous for the measurement of geometrical quantities, whereby the stroke of the mandrel with appropriate bias can be sufficiently limited. The positioning device is mounted on the ball guide, avoiding rotational movement of the darkness at substantially reduced passive resistance.

Embodiments of a linear ball guide unit according to the invention are schematically illustrated in the accompanying drawing. Fig. 1 is a front view of one possible embodiment; Fig. 2 is a front view of another embodiment of a unit according to the invention; and Fig. 3 is a front view of an arrangement of the unit in a sensor housing.

In the housing £ units in Fig. 1 on a pair of linear bearings mounted rollably mandrel 2 2 2 · Straight bearings consisting of inner cylindrical rings mounted on the mandrel 3, ^two balls stored in cages, and from the outer cylindrical rings fitted on the edges of the housing unit £. One end of the mandrel 6 is provided with a first holder 6 for the undetected contact and the other end of the darkness 4 with a second holder for the undetached moving part of the capacitance or inductance system. Inside the unit housing 4, a third holder 6 for a spring 6 adjacent to the collar 10 formed on the edge of the unit housing 4 is mounted in the darkness 6. Outside the housing 8 of the unit, a stop 8j is provided on the mandrel 8, extending into the cavity of the set screw 4 which is passed over the mandrel. On the surface of the housing 8 of the unit there is formed a guide 60 for a pulley 12 mounted on a pivot 13 mounted in the dark.

The linear ball guide unit of FIG. 2 is generally identical to that described above. The difference is that inside the unit housing 4 there are provided two stop blades 8, between which a stroke limiter 15 is mounted mounted on the mandrel.

In Fig. 3, the linear ball guide unit is inserted into the sensor housing 16, where it is fixed to the stop 20 20 by the clamping screw 17. The clamping screw is inserted in the thread 18 of the sensor housing 16. In the inner thread 19 of the clamping screw 17 is introduced setscrew £ _f which sets the size of the working stroke of the mandrel

The adjustment of the unit is carried out by inserting the complete unit into the sensor housing 16 and pressing it with the clamping screw 17 while fixing it to the stop 20. Then with the adjusting grip 256542.

- 3 - bem 2 sets the working stroke size J.

Claims (2)

A linear ball guide unit for use with geometric sensors comprising a unit housing in which an axially adjustable mandrel is arranged on a pair of linear bearings, characterized in that one end of the mandrel (3) is provided with a first contact holder (4) and the other the end of the mandrel (3) by the second bracket (5) and inside the unit housing (1) is attached to the darkness (3) a third bracket (6) for the spring (7) adjacent the collar (10) in the unit housing (1); the surface of which is formed by a guide (11) for a pulley (12) mounted on a pin (13) mounted on a mandrel (3), and outside the unit housing (1) a stop (8) extending into the cavity of the adjusting tube is provided (9) threaded through the mandrel (3). A linear ball guide unit according to claim 1, characterized in that two stop surfaces (14) are provided inside the housing (1) of the unit, between which a stroke limiter (15) mounted on the mandrel (3) is arranged.