DE102010018091A1 - Nut, has structural element including spring elements, and structural element arranged in hole, where part of spring elements is partially projected into hole that is formed with housing body - Google Patents

Abstract

The nut has a structural element including spring elements, where a part of the spring elements is made of elastic resilient material. The part of the spring elements is partially projected into a hole (2) that is formed with a housing body (20), and the structural element is arranged in the hole. The structural element and the hole include various cross sections over an axial section, where the structural element forms a section of an inner thread pitch of the nut protruding in the hole that is formed as circular or oval or elliptic or angular shapes.

Description

The invention relates to a nut with at least one bore.

If screws or bolts have a very long thread, screwing on a nut requires a correspondingly long time. Therefore, nuts are interesting for such cases, which can be postponed axially. The publication DE 44 03 974 A1 describes a threaded nut for quick attachment with an outer nut body in which the nut thread is located centrally. The female thread is connected via resilient elements with an end face of the nut body. The resilient elements allow the multipart nut thread to be unfolded as it is pushed onto a bolt as a whole into a space between the nut thread and the nut body. Subsequently, the nut thread is applied to the bolt. The utility model DE 83 14 925 U1 describes a fastening device made of plastic, in which the thread-carrying elements are configured radially elastic.

The invention has for its object to provide a suitable mother for a quick installation.

The object is achieved in that at least one structural element is provided, that the structural element comprises spring elements, that at least a part of the spring elements is designed elastically resilient, that at least some of the spring elements at least partially protrudes into the bore that at least one housing body is provided , which has the bore, and that the structural element is arranged in the bore. Due to the resilient elements of the structural element, such a nut can be pushed axially quickly over a bolt and, if necessary, also allows a prestressing force to be generated by turning on the bearing surface. The nut is thereby structurally and functionally divided into several parts. It consists according to the invention of a housing body or nut body, which is preferably designed with a force application means, and a structural element - or an inner, d. H. in the housing body inserted cage - which replaces the conventional thread. Some advantages of this are that such a fast and safe assembly by the axial sliding of the nut is possible. Furthermore, the mother can compensate for manufacturing tolerances of threads, since the spring elements are individually elastically movable and thus can also come individually engaged with the thread of the bolt. Moreover, there is also a damping function and a vibration decoupling. In principle, it is possible to use different materials and combine for the individual components of the mother, for. As steel, stainless steel or plastics. The spring elements are configured for example in the form of detents. The bore of the housing body may be a through hole or a blind hole. Furthermore, the housing body may have at least one sufficient in the through hole paragraph which z. B. represents a stop surface of the structural element. In addition, the housing body can have a collar pointing away from the through bore. Other embodiments of the outer regions of the nut according to the invention can be taken from the possibilities and variants of the classic nuts. Moreover, the structural element can be connected to the housing body, for. B. glued, welded, crimped, riveted, caulked or jammed or the structural element is inserted into the housing body. For this purpose, for example, at least one groove is provided in the housing body, in which a part of the structural element is introduced. The structural element and the housing body are thus preferably designed in such a way that at least one positive connection is realized between them. Furthermore, material and / or friction can exist.

An embodiment of the invention includes that the structural element lines the bore substantially flat. The interior of the nut according to the invention thus results essentially by the structural element, which largely covers the bore of the housing body over its entire surface. The spring elements in turn protrude from the structural element and form the internal thread of the nut according to the invention. In one embodiment, the structural element is a sheet metal or plastic strip, in which the spring elements z. B. be introduced by punching. During manufacture, the strip is then rolled or folded into the hole. In one embodiment, in particular, the cross sections of the structural element and the bore have a substantially identical shape.

An embodiment of the invention is such that the structural element and the bore have different cross-sections at least over an axial section. The cross sections differed in terms of their shape. In one embodiment, the two mentioned cross sections differ over the entire axial length of the structural element or the bore from each other. The consideration of the cross section of the structural element refers to the state of the structural element in the bore and on the areas of the structural element surrounding the spring elements.

An embodiment of the invention includes that at least a part of the spring elements is configured and arranged relative to one another such that the spring elements form an internal thread of the nut at least with a projecting into the bore portion. The spring elements thus have, for example, individual sections -. B. an edge - which are configured and arranged relative to each other, that results in a partially interrupted thread as internal thread of the nut according to the invention.

An embodiment of the invention provides that at least a part of the spring elements is configured substantially quadrangular, wherein the spring elements each connected with one edge fixed to the structural element and the other three edges are free. About the design of the fixedly connected to the structural element edge can be a measure of the elasticity of the spring elements pretend. About the configuration of the fixed edge opposite the front edge, the nature of the internal thread or the bearing surface of the spring elements can be adjusted. The corners between the free edges are preferably rounded. In one embodiment, the edge of the substantially square-shaped spring elements, which is firmly connected to the structural element, is oriented substantially perpendicular to a longitudinal axis of the bore.

An embodiment of the invention includes that the spring elements are arranged in groups in columns one above the other and in rows laterally to one another.

An embodiment of the invention provides that the spring elements in at least one column have a different lateral offset and / or a different axial distance from each other. By the respective offset, for example, the above-mentioned thread can be generated.

An embodiment is that at least a portion of the spring elements at least partially forms a thread pitch. The spring elements thus at least partially form a thread which has a bolt on which the nut is applied.

An embodiment of the invention includes that the housing body and the structural element consist of different materials. An embodiment of the invention provides that the structural element consists essentially of a metal sheet. Alternatively, the structural element consists of a plastic or a combination of different materials, for. B. plastic with metal. The housing body consists for example of steel or of a plastic or of a combination of these or other materials.

An embodiment of the invention provides that a part of the spring elements protrudes into the bore and that a part of the spring elements protrudes from the bore. The spring elements of this embodiment are thus partially inclined in different directions. The outward, d. H. For example, from the bore facing away spring elements serve for example the positive transmission of torque. Furthermore, these projecting spring elements also allow the fixation of the structural element within the bore.

An embodiment of the invention includes that the bore has a substantially circular or oval or elliptical or angular, in particular 6-cornered, cross-section. In positive engagement with the structural element, the structural element is preferably designed such that it has the same cross-section as the bore.

The invention will be explained in more detail with reference to some embodiments illustrated in the figures. Showing:

1 : a section through a housing body,

2 : a three-dimensional representation of a structural element,

3 : a section through a nut according to the invention, which is applied to a bolt,

4 a rolled-up structural element of a first variant,

5 a rolled-up structural element of a second variant,

6a ) to c): three different variants of the spring elements,

7 : Section through a structural element of a third variant,

8th : View of a mother according to the invention,

9 : a cut through the mother of 8th , and

10 a section through a nut according to another embodiment.

The 1 shows the housing body 20 a mother of the invention. The housing body 20 is designed such that outside a force application element is present. For example, the outer surface is hexagonal shaped. The housing body 20 has a through hole here 2 , a longitudinal axis 3 , on one end over an inwardly pointing heel 21 and at the other end over an outwardly directed waistband 22 , The housing body 20 is thus the outer shell of the nut according to the invention. In a - not shown here - variant of the housing body 20 and the structural element 10 designed in one piece.

The 2 shows such a structural element 10 which is also hexagonal here. On each side surface are in this variant each three spring elements 11 in a column one above the other. The structural element 10 and the housing body 20 are designed and matched to one another such that the structural element 10 in the housing body 20 fits and there z. B. is supported accordingly. It can be seen in particular that the spring elements 11 rectangular and over an edge with the structural element 10 are connected. In one embodiment, the structural element is 10 around a sheet, in which the spring elements 11 stamped and bent inwards. It can also be seen that in this embodiment, the structural element 10 Due to its shape, the bore of the housing body substantially flatly lines substantially, ie the structural element 10 virtually forms the interior of the mother of the invention.

The 3 shows the mounting of a nut according to the invention 1 on a bolt 50 , The mother 1 is so oriented that the federal government 22 of the housing body 20 in the direction of the support surface and the inwardly projecting heel 21 is directed away from there. The spring elements 11 protrude with their upper sections into the hole and are when mounting on the bolt 50 pressed radially outward. Then spring the spring elements 11 again radially inward and thus engage in the threads of the bolt 50 and thus also form portions of the internal thread of the nut according to the invention 1 ,

In the figures 4 and 5 are two different configurations of the structural element 10 shown. The spring elements 11 are each arranged in columns one above the other. In a - not shown here - variant have the spring elements 11 in each case the same horizontal distance from each other in the columns and the columns have substantially the same vertical distance from each other. In the variant of 4 are the spring elements 11 offset the columns to each other, so that - as here and in the 5 indicated by the dashes - through the upper free edges of the spring elements 11 Sections of threads give, where in each case the spring elements 11 the next but one column follow the pitch of the bolt thread. The horizontal offset of the adjacent columns is alternately up and down. Within the columns is the horizontal distance between the spring elements 11 always the same. In the variant of 5 have the spring elements 11 the columns also a vertical offset from each other, which also results in sections a thread. The spring elements 11 The columns follow all the same direction, ie they all fall off here and thus form the slope of the associated bolt thread. In one embodiment, the upper end edges are particularly inclined so that sets the thread. In an alternative embodiment, the upper end edges extend parallel to the fixed edge of the spring elements 11 , Alternatively, the spring elements are designed so that the bearing surface of the spring elements on the flanks of the thread of a bolt or a screw optimally, for. B. are at most large. In a variant not shown here, the structural element is designed in such a way that the spring elements are present only on one side, ie, for example, there is only one column of spring elements.

In the 6 are three different variants of the spring elements 11 shown. The spring element of 6a ) is rectangular and the spring elements of 6b ) and c) are trapezoidal, with the upper corners rounded. The spring elements 11 each have a fixed edge, ie fixedly connected to the structural element, and three free edges. About the fixed edge results in the elasticity of the spring element 11 , where the variant of the 6b softer than the variants of 6a and 6c , The fixed edge opposite the front edge in turn determines the contact surface between the nut and the thread of the bolt or the screw on which the nut is applied. For the slope of the internal thread of the nut is in particular the proportion of the spring elements 11 essentially, which runs parallel to the flanks of the thread of the screw or bolt. Here are the variants of the 6a ) and 6b ) over a larger contact surface than the variant of 6c ).

In the 7 is a structural element 10 represented by its spring elements 11 a part inwards and a part is inclined outwards, ie in the nut is a part of the spring elements 11 into the hole and a part inclined away from the hole. In the 8th is such a mother 1 shown. The spring elements 11 are each arranged in alignment in the six columns for the hex nut. The hole 2 and the structural element 10 each have a hexagonal cross section. To recognize how the paragraph 21 of the housing body 20 a narrowing of the hole 2 causes and thus an axial stop for the structural element 10 forms. The two ends of the - actually flat - structural element 10 open in a groove of the housing body 20 , In the 9 can be seen as by the outwardly projecting spring elements 11 a cavity between the inner wall of the housing body 20 and the structural element 10 arises.

At the mother 1 of the 10 protrude all spring elements 11 into the hole 2 into it, causing the structural element 10 the hole 2 essentially completely lined.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 4403974 A1 [0002]
• DE 8314925 U1 [0002]

Claims (10)

Nut with at least one bore, characterized in that at least one structural element is provided, that the structural element has spring elements, that at least a part of the spring elements is designed elastically resilient, that at least some of the spring elements at least partially protrudes into the bore that at least one housing body is provided, which has the bore, and that the structural element is arranged in the bore. Nut according to claim 1, characterized in that the structural element lines the bore substantially flat. Nut according to claim 1 or 2, characterized in that the structural element and the bore at least over an axial portion have different cross-sections. Nut according to claim 1, 2 or 3, characterized in that at least a part of the spring elements is configured and arranged relative to each other, that the spring elements form an inner thread of the nut at least with a protruding into the bore portion. Nut according to one of claims 1 to 4, characterized, in that at least a part of the spring elements is substantially quadrangular, wherein the spring elements each connected with one edge fixed to the structural element and the other three edges are free. Nut according to one of claims 1 to 5, characterized in that the spring elements are arranged in groups in columns one above the other and in rows laterally to each other. Nut according to claim 6, characterized in that the spring elements in at least one column have a different lateral offset and / or a different axial distance from each other. Nut according to one of claims 1 to 7, characterized in that at least part of the spring elements at least partially forms a thread pitch. Nut according to one of claims 1 to 8, characterized in that a part of the spring elements protrudes into the bore and that a part of the spring elements protrudes from the bore. Nut according to one of claims 1 to 9, characterized in that the bore has a substantially circular or oval or elliptical or angular, in particular hexagonal, cross-section.

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