DE3525947C1 - Screw and threaded bolt securing device - Google Patents

Abstract

The screw connection can be secured not only against becoming undone on its own and being lost but also against settling as well, by means of a round rod torsion spring, which is located in a through-hole (which is fitted eccentrically with respect to the screw centre axis) in the screw or threaded bolt shank, has two bent ends and thus cannot be taken off, as a securing element. In the secured state, the round rod torsion spring is in this case braced such that a defined restoring torque acts in the screw tightening direction, as a securing torque. In the most favourable case, the screw connection is continuously braced by a securing torque which is equal to the required tightening torque, so that, if the screw prestressing force for any reason becomes zero, the screw connection cannot become undone on its own. At this moment, the securing torque tightens the screw connection as if it were being automatically tightened, so that there is always a specific screw prestressing force. The securing effect of a screw connection secured in this way is calculable and reproducible, independently of the operating temperature and, in the event of reuse of the same connecting elements, at all times independently of orientation and to the full extent.

Description

The invention relates to a screw and threaded bolt lock according to the preamble of claim 1.

It is known from DE-PS 1 15 507 that a screw connection of the type mentioned in the tensioned state by a securing torque caused by a securing element is constantly tense. This is a spring wound with several internal notches as a securing element, the one with its internal notches Mother corners on the one hand and on the other hand over one Split pin is connected to the screw. That through this Securing element caused by securing moment is the design shown small, so that it is high strength Bolted connections not to the higher starting torque Can offer resistance. There is also a risk of slipping here of the securing element. In the best case can this protection only works against loss.

The invention has for its object a screw lock of the type mentioned in such a way that the Screw a non-removable security element yourself which is capable of being in the backup state generate a locking torque that is greater than the starting torque the screw connection is and in the cheapest If the tightening torque of the screw connection is the same.

This object is achieved by the features of Characteristic part of claim 1 solved. The round bar torsion spring can be set by parameters such as diameter, Length, angle of rotation and material are designed so that the restoring torque when tightening the required tightening torque  the screw can be the same. This means, that the screw connection in the best case constantly a locking torque that corresponds to the required tightening torque is the same, tense and thereby secured. The screw connection secured in this way can become damaged do not solve automatically because the moment the Screw connection by setting or by other causes would be loosened, i.e. the bolt preload will decrease, the restoring torque of the tensioned round bar torsion spring occurs with full effect and pulls the screw connection back to. In this way, the screw connection is not only against automatic loosening and losing, but also still secured against setting. The weakened by the eccentric through hole The screw cross-section can be changed by changing the Screw diameter can be compensated. To be able to loosen the screw connection, the round bar torsion spring be relaxed. To do this, use a Tool z. B. pliers the curved end of the round bar torsion spring pushed out of the groove. The round bar torsion spring relaxes and the curved end turns to the starting position back and snaps back into the groove. Just in this state, the screw can be without an additional To overcome friction, be unscrewed.

The advantages achieved by the invention are that the secured screw connection with a high locking torque is tightened in the tightening direction, so that they not only prevent automatic loosening and losing, but is also secured against setting, and that in the event of a screw break, the strained parts and the screw fractions do not fall apart immediately, but also from the round bar torsion spring through the curved  Ends can be held together, and that if the securing torque is known, check the tightening torque the already tightened screw at any time is possible without a torque key as Tightening tool needs to be used.

Three embodiments of the invention are in the drawings are shown and are described in more detail below:

1st embodiment:

Fig. 1 shows a longitudinal section of a screw connection in the unsecured state (tightening or loosening state);

Fig. 2 shows the associated top view of Fig. 1;

Fig. 3 shows a longitudinal section of a screw connection with threaded blind hole in the secured state;

Fig. 4 shows the associated top view of Fig. 3;

FIG. 5 shows the view in direction a of FIG. 2.

2nd embodiment:

Fig. 6 shows a longitudinal section of a screw connection with stud and nut in the secured state;

FIG. 7 shows the view in direction b of FIG. 6.

3rd embodiment:

Fig. 8 shows a longitudinal section of a push-through screw connection in the secured state;

FIG. 9 shows the view in direction c of FIG. 8.

The first embodiment ( Fig. 1) shows a longitudinal section of a screw connection in the tightening or loosening state, the clamped parts ( 1 ) and ( 2 ) by a screw ( 3 ), which in the threaded blind hole ( 4 ) of the clamped part ( 2nd ) is screwed in, are connected together. In this embodiment, the screw ( 3 ) has an axial through bore ( 5 ), which is made eccentric to the screw center axis in the screw shaft ( 6 ) by a dimension " e ".

In the through hole ( 5 ) there is a round bar torsion spring ( 7 ) made of spring steel, which has a bent end ( 8 ) to the screw head ( 10 ) and a bent end ( 9 ) to the screw shaft end. These two ends of the round bar torsion spring ( 7 ) are bent almost perpendicular to the screw axis and in the same direction, whereby they spring in the screw axis direction. This round rod torsion spring ( 7 ) designed in this way cannot be removed without further ado and serves as a securing element for securing the screw connection. The bent end ( 8 ) lies in a positive fit in the direction of rotation in a continuous groove ( 11 ) running at right angles to the screw axis and attached to the screw head ( 10 ).

The groove ( 11 ) ends in two opposing wrench surfaces and has a bevel ( 15 ). If " s " is the wrench size of the screw head ( 10 ), the length of the bent end ( 8 ) is chosen to a dimension ((s / 2) + e) that its tip ( 14 ) is in the unsecured state ( FIG. 1 ) just ends with a key surface and protrudes in the secured state ( Fig. 3) over the key surface on the opposite side by a dimension "2 e ". If " d ₂" is the core hole diameter of the threaded blind hole ( 4 ), the length of the bent end ( 9 ) is selected to a maximum of ((d / 2) + e) , so that the tip ( 12 ) of the threaded tips ( 13 ) of the threaded blind hole ( 4 ) just touched. Only in this position can the screw ( 3 ) be screwed into the threaded blind hole ( 4 ) without obstruction. This position of the curved end ( 9 ) is always guaranteed by the positive connection between the curved end ( 8 ) and the screw head ( 10 ).

After the screw ( 3 ) has been properly tightened, the securing process is initiated. For this purpose, the bent end ( 8 ) of the round bar torsion spring ( 7 ) located in the groove ( 11 ) is pressed out in the direction of the slope ( 15 ), i.e. against the tightening direction of the screw ( 3 ), and by an angle ϕ of 180 ° twisted to the other side. The bevel ( 15 ) not only serves as a guide in which direction the curved end ( 8 ) is to be turned, but also makes it easier to push it out of the groove ( 11 ). After this rotation, the curved end ( 8 ) snaps back into the groove ( 11 ) due to its axial suspension and protrudes with the tip ( 14 ) by a dimension "2 e " beyond the wrench surface. This optically comprehensible feature serves as a distinguishing sign that the round bar torsion spring ( 7 ) is tensioned or that the screw connection is in the secured state. During the imaging process as a result of twisting the tip (12) presses the end (9) located in the threaded blind hole (4) due to the eccentricity of the through hole firmly against the thread crest (13) of the threaded blind hole (4) so that in the secured state, the two bent ends been (8) and (9) of the round bar torsion spring (7) are mutually rotated through an angle of 180 °, that the round bar torsion spring (7) thereby clamped by the same angle (Fig. 3 and Fig. 4). Since the bent end ( 8 ) is positively connected to the screw head ( 10 ) via the groove ( 11 ) in the direction of rotation, the restoring torque of the tensioned round bar torsion spring ( 7 ) has an effect in the tightening direction of the screw ( 3 ). The dimension and the material of the round bar torsion spring ( 7 ) can be chosen so that the restoring torque of the tensioned round bar torsion spring ( 7 ) is equal to the required tightening torque of the screw ( 3 ), so that in this favorable case the screw connection in the secured state is constantly required by one Tightening torque is clamped. If the restoring torque is known, a check can easily be carried out to determine the minimum torque with which the screw connection has already been tightened, without using a torque wrench as a tightening tool. In the event that the screw ( 3 ) should break during operation for some reason, the tensioned parts and the fragments of the connecting elements would not immediately fall apart because they are still held together by the round bar torsion spring ( 7 ). Damage and its consequences can be avoided. In order to be able to loosen the screw connection, the fuse status must be removed. For this purpose, the curved end ( 8 ) of the round bar torsion spring ( 7 ) with the aid of a tool, for. B. a pair of pliers from the groove ( 11 ). The round bar torsion spring ( 7 ) relaxes, the curved end ( 8 ) rotates back to the starting position and snaps back into the groove ( 11 ). Only in this state can the screw ( 3 ) be unscrewed normally. The screw ( 3 ) with securing element is fully reusable, and the securing condition can always be reproduced with full effect.

The second exemplary embodiment ( FIG. 6) shows a longitudinal section of a screw connection of the clamped parts ( 101 ) and ( 201 ) with the stud screw ( 301 ) and nut ( 17 ) in the secured state, the stud screw ( 301 ) into the threaded blind hole ( 401 ) of the clamped Part ( 201 ) is screwed in. The stud (301) has, on the nut side (18) at right angles attached to the screw axis through groove (1101), and an eccentrically mounted in the bolt shank by an amount "e" to the screw center axis through hole (501), in which a curved with two Ends ( 801 ) and ( 901 ) and therefore unavoidable round bar torsion spring ( 701 ). The bent end ( 801 ) lies in the groove ( 1101 ) in a form-fitting manner in the direction of rotation, and the bent end ( 901 ) lies in the threaded blind hole ( 401 ) and presses with its tip ( 1201 ) firmly against the threaded tip ( 1301 ) of the threaded blind hole ( 401 ). In this embodiment, not only the stud screw ( 301 ) is secured like that in the first exemplary embodiment, but also the nut ( 17 ) is also secured by the round bar torsion spring ( 701 ). If continuous transverse grooves are provided on the free surface ( 19 ) of the nut ( 17 ), the nut ( 17 ) can still be positively connected in the direction of rotation to the stud screw ( 301 ) via the bent end ( 801 ) of the round bar torsion spring ( 701 ). In this case, the nut ( 17 ) acts as a screw head. The main difference between this and the first embodiment is that the two bent ends ( 801 ) and ( 901 ) have the same length. If " d ₂" is the core diameter of the threaded blind hole ( 401 ) and " e " is the eccentricity of the through hole ( 501 ) to the central axis of the screw, this length is chosen to be a maximum ((d ₂ / 2) + e) so that the nut ( 17 ) can be screwed onto the free threaded part ( 20 ) of the stud screw ( 301 ).

The third embodiment ( Fig. 8) shows a longitudinal section of a push-through screw connection of the clamped parts ( 102 ) and ( 202 ) through the screw ( 302 ) and the nut ( 1701 ) in the secured state, the bent end ( 802 ) of the in the Through hole ( 502 ) located round rod torsion spring ( 702 ) in the through groove ( 1102 ) on the screw head ( 1002 ) positively in the direction of rotation, and the bent end ( 902 ) must be inside the nut ( 1701 ) so that the round rod torsion spring ( 702 ) can be clamped over the curved end ( 802 ).

In the secured state, not only the screw ( 302 ) but also the nut ( 1701 ) constantly experiences a tightening torque caused by the tensioned round bar torsion spring ( 702 ). The nut ( 1701 ) is thus additionally connected to the screw ( 302 ) by friction. The securing process is independent of the positions of the screw ( 302 ) and nut ( 1701 ). In this version, the screw head ( 1002 ) must be accessible so that the securing process can be initiated.

Claims (7)

1. Screw and threaded bolt securing a screw connection, the screw or threaded bolt having a securing element in a through hole in the screw or threaded bolt shaft, characterized in that the securing element is designed as a round bar torsion spring ( 7 , 701, 702 ),
the screw ( 3, 301, 302 ) has a through-bore ( 5, 501, 502 ) which is eccentric by a dimension " e " but parallel to the screw axis , for receiving the round bar torsion spring,
the round bar spring ( 7, 701, 702 ) at its end ( 8, 801, 802 ) facing the screw head ( 10, 1002 ) or nut ( 17 ) and at its end facing the screw shaft end ( 9, 901, 902 ) almost at right angles is bent over to the screw axis,
the end ( 8, 801, 802 ) lies positively in a continuous groove ( 11, 1101, 1102 ) of the screw head,
the end ( 9, 901, 902 ) is matched to a length of and bent over in an angular position in which it does not project beyond the screw shank in the radial direction, and the end ( 8, 801, 802 ) after the screw connection has been produced from the groove ( 11, 1101, 1102 ) can be pushed out, rotated by 180 ° against the tightening direction of the screw and can be snapped back into the groove ( 11, 1101, 1102 ), while the end ( 9, 901, 902 ) can be screwed through in the axial direction protruding areas of the screw receiving part ( 2, 201, 1701 ) is secured against rotation. 2. Screw and threaded bolt lock according to claim 1, characterized in that the bent ends ( 8, 801, 802 ) and ( 9, 901, 902 ) are bent in the same direction, these spring in the screw axis direction. 3. Screw and threaded bolt lock according to claim 1, characterized in that the bent end ( 8, 802 ) has a length of ((s / 2) + e) , " s " being the wrench size of the screw head ( 10, 1002 ) and " e " is the eccentricity from the through hole ( 5, 502 ) to the screw center axis. 4. Screw and threaded bolt lock according to claim 1, characterized in that in particular in the screw connection with threaded bolt and nut, the bent ends ( 801 ) and ( 901 ) are of equal length. 5. Screw and threaded bolt lock according to claim 1, characterized in that the continuous groove ( 11, 1102 ) ends in wrench surfaces of the screw head ( 10, 1002 ) and has a slope ( 15 ). 6. Screw and threaded bolt lock according to claim 1, characterized in that the continuous groove ( 1101 ) on the free side ( 18 ) of the stud screw ( 301 ) has a slope ( 1501 ). 7. screw and threaded bolt lock according to claim 1, 5 and 6, characterized in that the slope ( 15, 1501, 1502 ) to facilitate the securing process and as a guide for the securing process, ie in which direction the curved end ( 8, 801, 802 ) is rotated.