DE2801986B2 - Method and implementation arrangement for measuring the play between a drive nut and a drive spindle - Google Patents

Description

The invention relates to a method for measuring the play between a drive spindle and a drive nut according to the preamble of claim 1 and an arrangement for implementation of the procedure. Drive devices of the type mentioned are known from DE-OS 25 47 919.

In such drive devices, the drive nuts, which are usually made of graphite, are subject to heavy wear. It is therefore common per year Revise 20% of the drive mechanisms.

From DE-PS 9 49 775 a device for inductive measurement of the radial or axial play in turbines and similar machines is known Dr.üe'i is located on the rotating part of a permanent magnet that passes a stationary coil with each revolution and in this induces a voltage surge. The integral of the voltage surges is a measure of the backlash to be measured.

The invention is based on the object of providing a measuring method of the type mentioned at the outset To develop bushing arrangement with which it is possible without dismantling the drive devices determine which drive equipment is most in need of overhaul

To solve this problem, a method is proposed which, according to the invention, the in the characterizing Part of claim 1 has mentioned features

An arrangement for carrying out the method according to the invention is provided by that in claim 2 features mentioned

Advantageous further developments of the lead-through arrangement are mentioned in claims 3 to 6.

Based on the exemplary embodiment of a lead-through arrangement shown in the figures, the Invention will be explained in more detail. It shows

Fig. 1 is a vertical section along the line I-I in 3 through the lower part of one of the drive devices dealt with here with the one in the Invention used measuring device for measuring the magnetic field strength, the drive motor of Drive spindle is replaced by an arrangement for manually rotating the drive spindle

Fig. 2 is a section along the line II-II in Fig. 1,

3 shows the top view of the arrangement for manually rotating the drive spindle,

Γ i g. 4 the in F i g. 1 used permanent magnet and its magnetic field.

In Fig. 1 denotes 1 to a drive device belonging drive spindle and 2 a drive nut surrounding the spindle, which consists of an inner part 3 made of graphite, an outer part 4 made of non-magnetic metallic material and an upper part metallic part 5 is built, which the drive spindle with such a large Spie! that surrounds it with the spindle only in the event of a very large wear of the thread in the inner graphite part 3 in force-transmitting contact Furthermore, the nut 2 has a cup-shaped, internally threaded and with a central one End piece 10 provided with a bore. The drive nut 2 is made of a non-magnetic material Sheath 6 surrounded, which has guide rails 7 on its inside, which with on the outside of the

AnfriebsmMtter attached corresponding guide block T are in engagement, so that the drive nut is not rotatable, but only displaceable in the axial direction is flanged in the figure not shown bolt on a sleeve 8 _s a packing 9 surrounding the axial displacement of the drive nut is downwardly limited by a stop against the sleeve 8, an upwardly directed stop surface 8 'has the drive nut is provided with a permanent magnet 11, the north-south direction of which runs essentially parallel to the longitudinal axis of the drive screw i-> During normal operation, a gear motor with an associated torque coupling is connected to the lower end of the drive screw 1. If a measurement is to be made according to the invention, these components are removed and replaced by a hub 12 provided with a crank, which is brought into torque-transmitting connection with the drive screw 1 and which is rotatably mounted in a stand 13 which is mechanically connected to the sleeve 8 is rigidly connected to the hub 12, a crank 14 is screwed, which carries a pointer that runs along the scale of a graduated disk 15 when the drive screw 1 is turned, which is rotatably arranged on the hub 12 and locks in the desired angular position with the aid of a locking screw 16 can be. When performing the method according to the invention, the magnetic field strength is measured with the aid of a device, the components of which, including a display instrument 17 ', are for the most part housed in the device box 17, and which also includes a transmitter 18 with a Hall generator which is connected to the equipment box 17 via an electrical cable 19. The transmitter 18 is enclosed in a rubber body 20 and in a pipe 21 attached to the pipe socket 6 '. Non-magnetic material introduced. An outer sleeve 22 is attached to the lower end of the tube and an inner sleeve 23 is arranged further down, to which a metal rail 24 connected to the rubber body 20 is attached Screw sleeve 25 can be varied, one end of the internal thread being designed as a left-hand thread and the other as a right-hand thread. In this way, the position of the transmitter 18 in the tube 21 can be adjusted.

The measurement of a game according to the invention proceeds as follows:

The crank 14 is seen from below as long as in Turned clockwise until a further turn is no longer possible. With this turn the Drive nut 2 first against the stop surface 8 'of the sleeve 8, and then the crank can still do so much are rotated further, as is the play between the threads of the drive nut 2 and the drive spindle 1 enables. The encoder 18 is then in such a way Altitude einjustjert that when crying change the altitude of the permanent magnet 11 a relatively large change in the magnetic field acting on the encoder occurs. B, can be achieved in that the encoder 18 is arranged in such a way that its longitudinal axis a forms an acute angle with the north-south direction of the permanent magnet U and the encoder is slightly higher or lower than the permanent magnet. With such a placement of the encoder 18, the one Hall generator is the semiconductor plate of the Hall generator can take such a position that it in its center point is affected by some line of force, as shown in FIG. 4 indicated is the criterion for the achievement of the in F i g. 4 shown relation between encoder and permanent magnet is that the The deflection of the display instrument 16 quickly increased from more than half the maximum value to zero .the almost zero decreases with a final adjusting shift of the encoder of less than 0.2 mm along the Tube 21.

After a suitable mutual position between the permanent magnet 11 and the encoder 18 has been reached, one rotates. the crank 14, as seen from below, as far as to a strong change in the deflection of the indicator instrument 16 enters the counterclockwise direction, the amount of rotation X counterclockwise is read on the scale disc 15 °. The angle X describes the play between the drive nut 2 and the drive spindle 1. If the pitch of the drive spindle is 1 5 mm, then the angle corresponds! X "an axial displacement of

S ■ X

"W ^mm ·

The initial play between the drive spindle and the new nut is usually due to a delivery check of the At (lifting device known. Wear is then expressed by the difference between the aforementioned game and the initial game

If there is substantial play in the tangential direction between each guide rail 7 and the corresponding guide block 8, the effect of this play as a source of error can be eliminated by using a special variant of the method according to the invention: the required rotation λ is set against the clockwise in order to obtain a certain deflection of the indicator instrument 16 at a certain position of the transmitter 18 to give the extreme position of the drive spindle in a clockwise direction as a starting point used when measuring then rotating the ^Antriebssp: bunches 1 clockwise from this starting position, until the given rash on the display instrument, and measures the angle of rotation ß. The game is then equal to the difference between β and tx.

For this purpose 2 sheets of 2 drawings

Claims (6)

28 Ol claims; 1. Method for measuring the play between a drive nut made of non-magnetic material and a drive spindle in the drive arrangement for a reactor control rod in which drive arrangement the drive nut is arranged with axial freedom of movement in a cylindrical shell, the inner wall surface of which prevents rotation of the drive nut Means is provided, while the axial movement of the nut is limited by a component with a stop surface for the end face of the nut, characterized in that the drive spindle is provided with a special device for its rotation, whereupon the drive spindle as far as possible is rotated in the direction in which the drive nut runs against the limit stop, whereupon a transmitter belonging to a measuring device for magnetic field strengths outside the said cylindrical shell and in the vicinity of a permanent magnet arranged on the drive nut in such a position in relation Oldness is attached to the permanent magnet that the display change of the measuring device with a change in the position of the permanent magnet in relation to the encoder is relatively large, whereupon the drive spindle is rotated so far in the other direction until the display of the measuring device experiences a change jo, after which the angle of the last rotation of the drive spindle ¹ . is measured. 2. Arrangement for performing the method according to claim 1, characterized in that »records the drive nut (2) a permanent magnet (U) r> is attached, that a with an encoder (18) provided measuring device (17) for measuring magnetic field strengths is available that special Means (12, 13, 14) for rotating the drive spindle (1) and means (15) for measuring the angle of rotation the drive spindle are present and that the encoder (18) in an adjustable position radially outside the cylindrical shell (6) is mounted in the vicinity of the permanent magnet (11) 3. Arrangement according to claim 2, characterized in that the encoder (18) with a Hall generator a semiconductor plate and that this plate is at an acute angle with the north-south direction of the Permanent magnet (11) forms 4. Arrangement according to claim 2 or 3, characterized in that the permanent magnet (11) such is arranged so that its north-south direction runs essentially parallel to the longitudinal axis of the drive spindle (1). 5. Arrangement according to one of claims 2 to 4, characterized in that the means for Driving the drive spindle (1) from a stand (13), which is connected to the from via a sleeve (8) Non-magnetic material existing cylinder (6) is mechanically connected, and one in the tripod rotatably mounted, with a crank (14) provided hub (12) with one end of the Drive spindle (1) is in a torque-transmitting connection. 6. Arrangement according to claim 5, characterized in that the stand (13) with a ratio to the drive spindle (1) vertically arranged dial (15) is provided and that a with the Pointer connected to the crank (M) indicates the angular position of the spindle (1) on the skate disc (15)