PL226432B1 - Measuring instrument for measuring the difference in distance - Google Patents

Abstract

The subject of the invention is a measuring device having a supporting structure, a base element for resting during measurement on the inner frontal plane of the rim or the wheel crown of a rimless wheel set, and a length measuring device, characterized in that the supporting structure comprises a central beam (1) and a cross beam (2) connected to it substantially at a right angle, wherein the other end of the central beam (1) and the two ends of the cross beam (2) are connected to extreme arms (3) located substantially parallel to each other, terminated at the other end by base elements (4), while the central beam (1) has at least one length measuring device (5), the measuring element (6) of which is directed towards the base elements (4), wherein the supporting structure has a length adjustment device preferably located on the central beam (1), preferably immobilized with a central clamp (7).

Description

Description of the invention

The subject of the invention is a measuring device for measuring the difference in distance, used in particular for measuring the difference in distance between the inner face of the rim or rim of a rimless wheel and the following planes: the front plane of the axle hub, the front face of the axle journal, the outer face of the inner bearing ring, the face of the axle box, or also another plane or point. It is mainly used in railway engineering in measuring works aimed at determining whether the difference of the tested distances between the components of a wheel set does not exceed the permissible value. Such measurements are most often carried out on both sides of the wheelset.

Measuring instruments are known to measure the difference in distance between the inner face of a rim or rim of a rimless wheel and the front face of the axle hub, the front face of the axle journal and the outer face of the inner ring of the bearing. One of them is the device known from the patent description No. PL211219 for measuring the difference in distance between the inner face of the rim or rim of a rimless wheel and the front face of the axle hub on both sides of the wheelset without the mounted inner rings of the bearings. This device is equipped with a relatively heavy prism-shaped base, which rests on the cylindrical surface of the wheel set axle during the measurement. The use of this type of bases significantly increases the dimensions and weight of the entire instrument, which has a large impact on the efficiency of its use, both during the measuring process itself and during transport. In addition, the large mass of the prism and the need for its precise execution, allowing for precise adjustment to the cylindrical surface of the wheel set axle spigot, significantly increase the total production costs of the device. In addition, the use of prism or similar bases makes it impossible to take measurements without time-consuming disassembly of the axle box. Another disadvantage of this type of device is the inability to measure more than one distance at the same time.

The object of the invention is to provide the simplest possible measuring device that allows to measure multiple distances simultaneously, with its specific positioning, without the need to move the measuring means and, moreover, without the need to disassemble the axle box.

The device according to the invention has a supporting structure, a base element for resting during the measurement against the internal face of the rim or rim of a rimless wheelset and a length gauge, and is characterized in that the supporting structure is made up of a central beam and a crossbeam connected substantially at right angles to it. , the other end of the central beam and the two ends of the cross beam being connected to end limbs situated substantially parallel to each other, ending on the other side by base elements. The central beam has at least one length measure, the measuring element of which is directed towards the base elements. The supporting structure has a length adjustment, preferably located on the central beam, preferably fixed with a central clamp. Preferably, the measuring element is a measuring tip. In another preferred embodiment of the invention, the measuring element is a laser sensor for distance measurement. Most preferably each of the base elements has at least one, preferably three base plates and at least one magnet. The plane of the magnets is preferably concave with respect to the plane of the base plates in contact with the inner face of the rim or rim of a rimless wheel during the measurement, which prevents mechanical damage to the magnets. In a preferred embodiment, the device has the base surface clamps embedded in pressure arms attached substantially perpendicular to the outermost arms, possibly embedded in the central beam or in the transverse beam, which prevents the base elements from shifting, especially when frequently changing the position of the gauges during measurements. Most preferably, the end arms have a length adjustment, preferably fixed with end clamps, which allows the gauges to be distanced from the wheelset enough to measure the axial play of the axle box bearings, or to bring the gauge closer to the measured area of the wheelset in the event that the measuring tip does not reach the measurement surface. Preferably, the central beam has in its central part a sliding link which is fixed with central clamps, to which preferably four length gauges are slidably attached by means of measuring clamps. In another preferred embodiment of the invention, a swivel arm equipped with a length measure is preferably attached to the sliding connector of the central beam by means of an axial bolt terminated with an axial holder. The device preferably has support plates located on the inner parts of the end arms in the vicinity of the base elements.

The advantage of the invention is the elimination of the need to disassemble the axle box before starting the measurements and reassemble it after their completion, which reduces the total time of taking measurements several times and lowers the cost by avoiding the need to use specialized equipment for disassembling and assembling the axle box. The elimination of a heavy base in the form of a prism reduced the weight of the entire device and significantly lowered the cost of its production. The use of three base elements immobilizing the supporting structure on many sides increased the stability of the device, which contributed to an increase in the level of repeatability of measurements compared to known solutions. With such a high level of stability, it was possible to mount many gauges forming the assembly on the central beam without the risk of a decrease in the level of repeatability of measurements, which incomparably increased the measurement capabilities of the device, especially regarding the parallelism of planes, and also increased the speed of measurements.

The subject of the invention is presented in more detail in the drawing, in which Fig. 1 shows the device in a side view placed on a wheelset during the measurement of the difference in the distance between the front plane of the rim of the rimless wheel and the following planes: front plane of the axle journal, front plane of the axle journal, external front plane bearing inner ring; Fig. 2 shows the device in the version with a sliding coupler, in side view, placed on the wheelset when measuring the difference in distance between the inner face of the rim of the rimless wheel and the following planes: the front face of the axle box, the front face of the axle journal and the external face of the inner ring of the bearing; Fig. 3 shows the device in the version with a sliding coupler and a pivot arm in side view, placed on a wheelset when measuring the difference in distance between the front plane of the rim of the rimless wheel and the front plane of the axle journal; Fig. 4 shows the device in the version with a sliding coupler in a view from the external front side placed on a wheelset; Fig. 5 shows the device in the version with a sliding coupler and a pivot arm in an external front view placed on a wheelset; 6 shows the base element with one base plate in a view from the side of the surface touching the inner face of the rim or rim of a rimless wheel; Fig. 7 is a view of the base element with two base plates from the side of the surface touching the inner face of the rim or rim of a rimless wheel; Fig. 8 is a view of the base element with three base plates from the side of the surface touching the inner face of the rim or rim of a rimless wheel; Fig. 9 is a view of a base element with one wide base plate containing three magnets from the side of the surface contacting the inner face of the rim or rim of a rimless wheel; and Fig. 10 shows the device on the wheelset in a view from the face side of the inner rim or rim of a rimless wheel.

In one of the embodiments shown in Fig. 1, the device has a supporting structure in the form of a central beam (1) connected at right angles to a transverse beam (2). The other end of the central beam (1) and the two ends of the transverse beam (2) are connected to end limbs (3) arranged parallel to each other, ending on the other side with base elements (4). The supporting structure has a length adjustment located on the central beam (1), immobilized with a central clamp (7). Fixed to the central beam (1) are three length gauges (5) whose measuring elements (6) in the form of measuring tips are directed towards the base elements (4). Each of the base elements (4) has three base plates (8), each of which is equipped with one magnet (9). The plane of each of the magnets (9) is concave in relation to the plane of the base plates (8) which, during the measurement, touch the inner face of the rim or rim of a rimless wheel. Support plates (18) are placed on the inner parts of the extreme arms (3) near the base elements (4).

In the second embodiment, shown in Figs. 2 and 4, the device has a supporting structure in the form of a central beam (1) connected at right angles to a transverse beam (2). The other end of the central beam (1) and the two ends of the transverse beam (2) are connected to end limbs (3) arranged parallel to each other, ending on the other side with base elements (4). The central beam (1) has in its central part a sliding connector (13) fixed with central clamps (7). Four length gauges (5) are fastened to the sliding connector (13) by means of measuring clamps (14), whose measuring elements (6) in the form of measuring tips are directed towards the base elements (4). Each of the base elements (4) has one plate

The base plate (8) is equipped with one magnet (9). The plane of each of the magnets (9) is concave in relation to the plane of the base plates (8) which, during the measurement, contacts the inner face of the rim or rim of a rimless wheel. Clamping arms (11) equipped with base surface clamps (10) are attached at right angles to the extreme arms (3). The outermost arms (3) are length-adjustable and immobilized with the outermost clamps (12). On the inner parts of the extreme arms (3), near the base elements (4), there are support plates (18).

In the further embodiment shown in Figs. 3 and 5, the device differs from the previous one in that it has only one length measure (5) placed on the pivot arm (15) attached to the sliding link (13) by means of an axial bolt (16) terminated in a handle. axial (17). Moreover, the base plates (8) of the base elements (4) of the device do not have magnets (9).

The device is mounted on the rim or rim of a rimless wheel, touching the base plates (8) of the base elements (4) with the inner face of the rim or rim of a rimless wheel and resting the support plates (18) on the tops of the rim flange or rim of the rimless wheel. Before seating the device, one of the central clamps (7) is released and the length of the central beam (1) is increased, and after seating, the length is reduced so that all base elements (4) are in contact with the wheelset. Then the central clamp (7) is locked and the clamps of the base surface (10) are tightened, which are in contact with the outer face of the rim or rim of a rimless wheel. The device according to the first embodiment, which does not have the base surface pressures (10), is fixed during the measurement solely by the magnets (9). Before starting the measurements, it is possible to set the appropriate distance of the length gauges (5) from the measuring surfaces by momentarily releasing the extreme clamps (12) and increasing or reducing the distance of the central beam (1) from the wheelset. The displacement of the length gauges (5) in the device according to the second embodiment can take place individually by means of the measuring clamps (14), or jointly by shifting the entire slide connector (13). In the device according to the third embodiment, the position of the length gauge (5) is changed by turning the pivot arm (15) or by shifting the sliding link (13).

Patent claims

Claims (12)

1.Distance measuring instrument having a supporting structure, a base element for resting during measurement against the inner face of the rim or rim of a rimless wheelset, and a length gauge, characterized in that the supporting structure is constituted by a central beam (1) and connected to it is substantially at right angles to the cross beam (2), the other end of the central beam (1) and the two ends of the cross beam (2) being connected to end limbs (3) substantially parallel to each other, ending on the other side by base elements (4) ), while the central beam (1) has at least one length measure (5), the measuring element (6) of which is directed towards the base elements (4), the supporting structure having a length adjustment preferably located on the central beam (1), preferably fixed by a central clamp (7). 2. Apparatus according to claim The method of claim 1, characterized in that the measuring element (6) is a measuring tip. 3. Apparatus according to claim The method of claim 1, characterized in that the measurement element (6) is a laser sensor for distance measurement. 4. Apparatus according to claim The base element according to claim 1, characterized in that the base elements (4) have at least one, preferably three base plates (8). 5. Apparatus according to claim Device according to claim 1, characterized in that the base elements (4) have at least one magnet (9). 6. Apparatus according to claim A method according to claim 5, characterized in that the plane of each of the magnets (9) is concave with respect to the plane of the base plates (8) which, during the measurement, contacts the inner face of the rim or rim of a rimless wheel. 7. Apparatus according to claim Device according to claim 1, characterized in that it has the clamps of the base surface (10) preferably embedded in pressure arms (11) attached substantially perpendicular to the extreme limbs (3), possibly embedded in the central beam (1) or in the crossbeam (2). PL 226 432 B1 8. The device according to claim A method as claimed in claim 1, characterized in that the end arms (3) have a length adjustment, preferably fixed by end clamps (12). Apparatus according to claim 1, Device according to claim 1, characterized in that the central beam (1) has in its central part a sliding link (13) which is fixed by central clamps (7). 10. Apparatus according to claim 1 The method of claim 9, characterized in that four length gauges (5) are slidably attached to the slide connector (13) by means of measuring clamps (14). 11. Apparatus according to claim 1. A pivot arm (15) fitted with a length gauge (5), characterized in that the pivot arm (15) is attached to the sliding connector (13), preferably by means of an axial bolt (16) terminated in an axial holder (17). 12. Apparatus according to claim 1. A device as claimed in claim 1, characterized in that it has support plates (18) placed on the inner parts of the end arms (3) in the vicinity of the base elements (4).