DE202006005993U1 - Shaft/groove nut for fastening e.g. roller bearing, has protection sleeve with threaded edges connected with threaded edges of shaft in force-fit and/or form-fit manner by using adjusting unit e.g. setscrew - Google Patents

Abstract

The nut has a circular body (2), whose a ring opening includes an internal thread (3), where the nut is secured against unintentional loosening using a securing device (5). An adjusting unit (10) e.g. setscrew, is assigned to the securing device, where the securing device includes a protection sleeve (11) that partially forms the internal thread and assigned to the ring opening. Threaded edges of the protection sleeve are connected with threaded edges of a shaft in a force-fit and/or form-fit manner by the adjusting unit.

Description

invention relates to a wave or grooved nut with the features of the preamble of claim 1.

A screwed onto the thread of a rotatably mounted shaft shaft nut is made of DE 36 11 251 A1 known. A locking screw forms the anti-rotation lock of the nut. It is equipped with a cutting head that integrates with the material of the shaft covered by the shaft nut. This shaft nut has the disadvantage that the locking screw damages the thread of the shaft.

From the DE 199 12 068 A1 a shaft nut is known which has an axially aligned with a base body clamping body. Spring means are arranged between the two bodies such that they perform an axial bias. By tightening one or more screws, a relative movement of the clamping body and the base body to each other, wherein a clamping of the shaft nut takes place on the thread of the shaft. This arrangement has the disadvantage that two bodies must be screwed onto a shaft and in addition to the screws and means for the spacing of the body for the clamping operation are required.

Of Further, it is known from practice, a tab or tongue on the Form internal thread of a shaft nut. When the shaft nut is on a wave is positioned, this tab is by means of a screw pressed against the thread of a shaft and thus a force and / or positive Connected. A tool for fixing the shaft nut Can only be attached to its outer peripheral surface become.

outgoing From this prior art, it is the object of the present Invention to provide a shaft or grooved nut in a simple Way and without damage Can be braced by shaft and / or shaft nut to the components to be fastened secure axially.

These Task is according to the invention with a Shaft or groove nut solved with the features of claim 1.

advantageous Embodiments of the invention are the subject of the dependent claims.

The according to the invention or nut nut becomes mainly for mounting rolling bearings used on shafts, but can also be used for fastening others Elements or used for mounting of rolling bearings.

The Shaft nut and the shaft are arranged axially parallel, whereby a reliable one Ensuring fixation of the shaft nut in an axial mounting direction becomes. By means of an actuator, the thread flanks of a Safety bushing with the thread flanks of the shaft force and / or form-fitting connected and thus the shaft nut fixed on the shaft. at This process will damage neither shaft nor shaft nut. The individual components of the shaft nut are fixed to each other before assembly connected, so that for mounting a rolling bearing on the shaft only a component is mounted. As in the fixation of the shaft nut no damages arise on the components, it can be used multiple times. Individual parts, such as the fuse socket, can be replaced if necessary.

advantageously, has the annular body in addition to a bore for receiving the securing device also a threaded portion whose axis coincides with the axis of the bore and adjacent to the bore. Thus, the actuator of the fuse socket in the body protrude and by a rotary motion the thread of the fuse socket tense with the thread of the shaft.

In a cheap one embodiment According to the invention, the securing bush has an internally threaded portion on, the opposite the threaded portion of the body can be clamped with the aid of the actuator. Due to the thread pitch of the internal thread, the actuator pulls the fuse socket into the Thread of the shaft. This allows a simple clamping force generation.

In A variant of the invention is the diameter of the female thread section the fuse socket is larger than the diameter of the threaded portion of the body. Thus, the two get Thread sections have different slopes, which leads to the actuator in the region of the larger threaded portion faster axial movement.

advantageously, the actuator has two male threaded portions with different gradients. The actuator can in the two different threaded sections of the fuse socket and the body are introduced and then moves in the threaded portion of the larger thread faster than in the threaded portion of the smaller thread diameter. The different relative movements to the shaft lead to a reliable one Tensioning of the two threaded sections.

When the actuator is inserted and the safety bushing is inserted, the distance from the circumference of the shaft to the center of the axis is preferred of the actuator smaller than the radius of the fuse socket. So it can be ensured that the material of the fuse sleeve with the thread of the shaft is engaged and produces a positive and / or positive connection.

Is appropriate it when the annular body is coaxial to the ring opening and / or to the shaft is aligned to the center of gravity of the body center and the imbalance of the body to diminish during a movement of the shaft.

In a further embodiment The invention may be the annular body have a fret on at least one plan page. This covenant can especially as a support surface for the Inner and / or outer ring a rolling bearing serve.

In a variant of the invention is the threaded portion of the body of a Adjacent side of the body, thus the assembly of the securing device in the axial direction of the body to enable.

In a variant of the invention, the outer contour of the annular body a have polygonal shape, and thus for the installation of the wave or Grooved nut needed surfaces for corresponding Offer tools.

advantageously, has the outer contour of the annular body a secant phase to the risk of injury from sharp edges to diminish.

In a further embodiment can the internal thread of the ring opening while a force of the actuator are produced. Thereby can change the position of the thread and deviate from the situation in threading occurs when there is no force of the actuator.

In a cheap one embodiment has the annular body at least two mounting holes in the axial direction. With a suitable tool can thus the annular one body also be mounted on a shaft if no possibility consists of attaching a tool in the radial direction. The mounting options are therefore improved.

In a preferred embodiment the invention has the annular body at least one intersecting with the security device Drill in the axial direction. This hole can be either a through hole or a blind hole. Therein a fuse element, For example, a split pin, attached, which is the fuse socket fixed in the shaft or lock nut and twisting during the Prevented machining process.

In a preferred embodiment If the fuse socket is made of a material with lower hardness than the wave. As a result, although the fuse socket can be plastic deform, but the shaft will not be damaged.

The Task is also according to the invention with a Shaft or groove nut solved with the features of claim 16.

The Securing device of the shaft or groove nut is then at least one in the axial direction of the body by the actuator movable resilient portion of the body.

By the rotation of the actuator is exerted pressure on the section and thus causing its axial movement. The flanks of the resilient section are braced with the thread flanks of the shaft.

In a cheap one embodiment the resilient portion is a sectional flange extending from the outer peripheral surface to to the inner peripheral surface of the body extends and is connected in a partial area with the body. Thereby a simple and fast production of the section is guaranteed and the highest possible axial mobility reached.

advantageously, are the working surfaces the sectional flange substantially parallel to the symmetry axes a plane surface of the body arranged. This allows for a fast manufacturing process, at which the tool is moved.

In another conceivable embodiment has the sectional flange aligned perpendicular to the axis of rotation of the body working surfaces on. Thus, the sectional flange can also be rotated by turning the body during the Processing be made.

Especially Cheap it is when at least one in the axial direction of the body and / or Tapped holes arranged vertically on the sectional flange serves to receive the actuator. Due to the vertical force application on the sectional flange is the flow of power from the actuator favored on the sectional flange and a great clamping force caused.

Advantageously, the body has at least one radially aligned bore overlapping the sectional flange. This can especially in the production of Sektionalflan be helpful by means of electroerosion.

It has proven to be very beneficial when the body at least two mounting holes having on the outer peripheral surface. These serve to accommodate the Monta tool, especially hook wrench, and thus allow a quick installation of the shaft or nut.

Especially Cheap it is when the actuator is a grub screw that is special Easy to install and save space in the body is integrated.

If the shaft or groove nut a one-piece body with at least one actuator is done, easy and quick installation and in addition to the cost-effective Production is also ensured an efficient industrial use.

One preferred embodiment The present invention will now be described with reference to the accompanying drawings described in more detail. In detail show:

1 an axial section through the shaft nut along the line II in 2 .

2 a front view of the shaft or locknut without lock bushing, actuator or shaft,

3 a front view of a second embodiment of the shaft or groove nut without shaft, and

4 a top view of the 3 Shaft or groove nut shown.

Same Components are denoted by the same reference numerals in the figures designated.

1 shows a section through the shaft or groove nut according to the invention 1 of the 2 , The shaft or groove nut 1 has an annular body 2 , an actuator 10 and a safety device 5 , On at least one plane surface 9 of the body 2 is a covenant 8th intended. The ring opening of the body 2 has a thread, and in particular a fine thread. This ensures a uniform load distribution on the threads. In addition, a fine thread allows a fine adjustment of the position and the voltage before the shaft or nut 1 , In the axial direction of the coaxial body 2 is a receiving opening 17 incorporated, to which a threaded portion 7 followed. Also in the axial direction are two mounting holes 12 in the body 2 attached and a hole 13 small diameter, which is with the receiving opening 17 overlaps, and a backup element 16 , in particular a split pin, absorbs.

The shaft or groove nut according to the invention 1 is formed by the actuator 10 in the fuse socket 11 screwed in and this unit in the threaded section 7 and the receiving opening 17 of the body 2 is screwed in. A security element 16 , for example a sapwood, gets into the hole 13 and the overlapping receiving opening 17 pressed. Now the internal thread 3 into the shaft or groove nut 1 cut. Preferably, a fine thread is incorporated. As the distance between the axis of the actuator 10 and the surface of the ring opening is smaller than the radius of the fuse socket 11 , the thread flanks are cut not only in the ring opening, but also in the circumference of the fuse socket 11 , The sapwood 16 prevents in this operation, that the fuse socket 11 rotates.

The fuse socket 11 is made of a material with lower hardness than the shaft 4 produced. Brass is preferably used, since it is a cost-effective material and has good chip-removing properties. Due to the lower hardness, the brass does not damage the surface of a steel shaft. The outer diameter of the fuse socket 11 forms with the receiving opening 17 in the coaxial body 2 a press fit. The internal thread of the safety socket 11 corresponds to the larger of the two threads of the actuator 10 , It also offers the safety socket 11 a countersink for receiving the head of the actuator 10 ,

The actuator 10 has a first threaded portion 6 , a second threaded portion 7 and a head up. The first threaded section 6 is larger than the second threaded portion 7 and thus has a greater pitch than the second threaded portion 7 , For example, if the first threaded section 6 has a standard thread of size M6, then the thread has a pitch of 1 mm. If the second threaded section 7 has a standard thread of size M5, it has a pitch of 0.8 mm. In the head of the actuator 10 For example, an opening may be provided for an assembly tool, such as a hexagon socket or torx profile.

The shaft or groove nut 1 is preferably used for the axial attachment of rolling bearings. If the rolling bearing has been mounted in the desired position, the shaft or groove nut can be used 1 together with the actuator 10 , the fuse element 16 and the fuse socket 11 on the wave 4 be screwed up with the covenant 8th rests against the outer and / or inner ring of the rolling bearing. This assembly step can be done with a special tool be carried out in the two axially oriented mounting holes 12 engages and the rotation of the shaft or groove nut 1 allows. If the shaft or groove nut 1 has reached the desired position is by turning the actuator 10 the safety socket 11 in the thread flanks of the shaft 4 pulled and positively and / or positively connected with her. This is particularly easy because because of the different thread pitches the actuator 10 in the area of the larger threaded section 6 moved faster axially than in the smaller threaded portion 7 ,

When disassembling the shaft or nut 1 first becomes the actuator 10 solved, causing the fuse socket 11 the thread of the shaft 4 releases again. Now the entire shaft or groove nut 1 with a special tool in the mounting holes 12 attached, from the shaft 4 be screwed down. Neither the thread of the shaft 4 , nor the shaft or groove nut 1 will be damaged during normal use and can be reused several times.

The following is the operation of the second, in the 3 and 4 illustrated embodiment of the invention explained.

The shaft or groove nut 1 consists in this embodiment of an annular body 2 and at least one actuator 10 , The ring opening of the body 2 has an internal thread 3 which is preferably a fine thread. On at least one plan page 9 rejects the body 2 a covenant 8th on. On the peripheral surface of the body 2 be evenly spaced mounting holes 12 appropriate. These can be both grooves, as well as pins for hook wrench, or be designed for any other suitable tool. The safety device 5 This embodiment is actuated in the axial direction. The safety device 5 consists of a resilient section 20 , which is preferably produced by wire EDM. This is first a hole 13 on the circumferential surface in the radial direction in the body 2 brought in. Starting from this through-hole 13 Then, by moving the processing machine in the X and Y directions, it becomes a resilient section 20 incorporated. When the body 2 is moved during the manufacturing process, the processing surfaces may also have a radial orientation. Decisive is that the resilient section 20 at least partially on the body 2 is attached. A threaded section 7 becomes perpendicular to the resilient section 20 attached so that an actuator screwed therein 10 a pressure on the resilient section 20 performs and thus the contact pressure of the thread flanks of the body 2 to the thread flanks of the shaft 4 allows.

For the axial attachment of an element, for example a rolling bearing, the shaft or groove nut 1 on a wave 4 screwed and brought into abutment with the element to be fastened. The tool for this assembly step is a hook wrench into the mounting holes 12 is used. If the shaft or groove nut 1 has reached the predetermined position, the actuator 10 in the threaded section 6 of the body 2 screwed. The actuator 10 is in the preferred embodiment, a threaded pin with slot or hexagon and pin. For fixing the shaft or groove nut 1 will this grub screw 10 so far in the threaded section 6 of the body 2 screwed in until the pin on the resilient section 20 abuts. Due to the increasing contact pressure of the actuator 10 become the thread flanks of the body 2 to the thread flanks of the shaft 4 pressed and thus enable a positive and / or positive connection. Neither the thread of the body 2 , nor the wave 4 are damaged by the contact pressure.

Around the shaft or groove nut 1 to dismantle, the actuator becomes 10 solved so that the springy section 20 of the body 2 from the wave 4 withdraws and releases them.

Since there are no plastic deformations during the intended use, the shaft or groove nut is 1 suitable for repeated use.

at a rolling bearing change ensures the full interchangeability of conventional shaft nuts.

Claims (23)

Shaft or groove nut ( 1 ) having a substantially annular body ( 2 ), whose ring opening is an internal thread ( 3 ) and with a shaft ( 4 ) is non-positively and / or positively connectable, wherein the shaft or groove nut ( 1 ) with at least one safety device ( 5 ) and an associated actuator ( 10 ) is secured against unintentional release, characterized in that the safety device ( 5 ) one of the ring opening associated, partially the internal thread mapping fuse socket ( 11 ) having. Shaft or groove nut ( 1 ) according to claim 1, characterized in that the body ( 2 ) a bore and a threaded portion ( 7 ) whose axes coincide and the bore to the threaded portion ( 7 ) is adjacent. Shaft or groove nut ( 1 ) according to one of the preceding claims, characterized in that the safety bushing ( 11 ) an internal thread deabschnitt ( 6 ), which opposite the threaded portion ( 7 ) of the body ( 2 ) with the aid of the actuator ( 10 ) is clamped. Shaft or groove nut ( 1 ) according to one of the preceding claims, characterized in that the diameter of the internally threaded portion ( 6 ) of the fuse socket ( 11 ) greater than the diameter of the threaded portion ( 7 ) of the body ( 2 ). Shaft or groove nut ( 1 ) according to one of the preceding claims, characterized in that the actuator ( 10 ) has two male threaded portions with different pitches. Shaft or groove nut ( 1 ) according to one of the preceding claims, characterized in that when inserted actuator ( 10 ) and inserted fuse socket ( 11 ) the distance from the circumference of the shaft ( 4 ) to the center of the axis of the actuator ( 10 ) smaller than the radius of the fuse socket ( 11 ). Shaft or groove nut ( 1 ) according to one of the preceding claims, characterized in that the annular body ( 2 ) coaxial with the ring opening and / or with the shaft ( 4 ) is aligned. Shaft or groove nut ( 1 ) according to one of the preceding claims, characterized in that the annular body ( 2 ) on at least one plan page ( 9 ) a covenant ( 8th ) having. Shaft or groove nut ( 1 ) according to one of the preceding claims, characterized in that the threaded portion ( 7 ) of the body ( 2 ) of a plan page ( 9 ) of the body ( 2 ) is adjacent. Shaft or groove nut ( 1 ) according to one of the preceding claims, characterized in that the outer contour of the annular body ( 2 ) has a polygonal shape. Shaft or groove nut ( 1 ) according to one of the preceding claims, characterized in that the outer contour of the annular body ( 2 ) has a secant phase. Shaft or groove nut ( 1 ) according to one of the preceding claims, characterized in that the internal thread ( 3 ) of the ring opening during a force of the actuator ( 10 ) can be produced. Shaft or groove nut ( 1 ) according to one of the preceding claims, characterized in that the annular body ( 2 ) at least two mounting holes ( 12 ) in the axial direction. Shaft or groove nut ( 1 ) according to one of the preceding claims, characterized in that the annular body ( 2 ) at least one with the safety device ( 5 ) overlapping bore ( 13 ) in the axial direction. Shaft or groove nut ( 1 ) according to one of the preceding claims, characterized in that the safety bushing ( 11 ) of a material of lower hardness than the shaft ( 4 ) consists. Shaft or groove nut ( 1 ) having a substantially annular body ( 2 ), whose ring opening is an internal thread ( 3 ) and with a shaft ( 4 ) is non-positively and / or positively connectable, wherein the shaft or groove nut ( 1 ) with at least one safety device ( 5 ) and an associated actuator ( 10 ) is secured against unintentional release, characterized in that the safety device ( 5 ) at least one in the axial direction of the body ( 2 ) by the actuator ( 10 ) movable resilient section ( 20 ) of the body ( 2 ). Shaft or groove nut ( 1 ) according to claim 16, characterized in that the resilient portion ( 20 ) is a sectional flange extending from the outer peripheral surface to the inner peripheral surface of the body ( 2 ) and in a partial area with the body ( 2 ) connected is. Shaft or groove nut ( 1 ) according to claim 17, characterized in that the working surfaces of the sectional flange ( 20 ) substantially parallel to the axes of symmetry of a plane surface ( 9 ) of the body ( 2 ) are arranged. Shaft or groove nut ( 1 ) according to claim 17, characterized in that the sectional flange ( 20 ) perpendicular to the axis of rotation of the body ( 2 ) has aligned processing surfaces. Shaft or groove nut ( 1 ) according to one of claims 16 to 19, characterized in that at least one in the axial direction of the body ( 2 ) and / or perpendicular to the sectional flange ( 20 ) threaded bore ( 7 ) for receiving the actuator ( 10 ) serves. Shaft or groove nut ( 1 ) according to claim 20, characterized in that the body ( 2 ) at least one with the sectional flange ( 20 ) overlapping radially aligned bore ( 13 ) having. Shaft or groove nut ( 1 ) according to one of the preceding claims, characterized in that the body ( 2 ) at least two mounting holes ( 12 ) on the outer peripheral surface. Shaft or groove nut ( 1 ) according to one of the preceding claims, characterized in that the actuator ( 10 ) is a threaded pin.