DE102011001557A1 - Expansion anchor for fastening fixture to base portion, has internal thread for mounting attachment to base and shaft, in which bore is arranged with internal threads, where expansion anchor has expansion area - Google Patents

Abstract

The expansion anchor (1) has an internal thread (7) for mounting an attachment (2) to a base (4) and a shaft (5) in which a bore (6) is arranged with the internal threads. The expansion anchor has an expansion area (8), at which an expansion sleeve (10) is arranged in axially displaceable manner. A spacing element (11) is arranged in the bore. The spacer element breaks under the action of compressive force bends.

Description

The invention relates to an expansion anchor with an internal thread having the features of the preamble of claim 1.

Such an expansion anchor is from the utility model DE 203 03 806 U1 known. The expansion anchor is designed as an internal thread anchor, which has a spreading region, on which an expansion sleeve is arranged axially displaceably on a conical expansion section. To mount an attachment to a substrate, a screw is first screwed into the internal thread of the expansion anchor until it is present at a arranged in the internal threaded bore spacer. Then, the expansion anchor is inserted through-hole into a wellbore until the expansion region is at a desired depth in the ground so that the expansion sleeve contacts the borehole wall. "Through-hole mounting" means that the user first creates a borehole through the fixture and underground, into which the expansible anchor is then inserted through the fixture into the subsoil. After the introduction of the expansion anchor in the wellbore, the screw is further screwed into the internal thread, so that the expansion anchor moves backwards, against the insertion direction and the expansion sleeve is pulled over the conical section. The expansion sleeve is thereby spread and fastened the expansion anchor in the borehole. When screwing in the screw to spread the expansion anchor, the spacer is compressed. Since the upsetting can lead to an increase in the torque required for screwing, it is not clear to the user whether the increase in torque is caused by the proper spreading of the expansion sleeve or by the upsetting of the spacer. This can lead to the user perceiving an increase in torque due to the upsetting of the spacer element and breaking off the setting process, even though the expansion anchor is not yet properly braced.

The object of the invention is to propose an improved expansion anchor with internal thread.

This object is achieved by an expansion anchor with the features of claim 1. The expansion anchor according to the invention has an internal thread for attachment of an attachment to a substrate. The internal thread is arranged in a bore on a shaft of the expansion anchor and extends in particular centrally and in the axial direction of the expansion anchor. The expansion anchor also has a spreading region, on which an expansion sleeve is arranged axially displaceable. In particular, the expansion region has a conical expansion section, the cross section of the expansion section increasing in the direction of insertion. For example, the expansion section is designed as a frusto-conical expansion cone. In order to limit the pre-assembly of a screw to the depth to which the screw can be screwed into the internal thread, a spacer element is arranged in the bore, which can be shortened under the action of a compressive force in the axial direction, so that the screw for mounting the armature on can be screwed. In order to improve the ease of assembly of the expansion anchor, the invention proposes that the spacer element is designed so that it kinks and / or breaks under the effect of the pressure force. If a screw is screwed into the internal thread, in particular by hand, so the screw abuts with its tip on the spacer when the screw has a desired distance from the insertion side front end of the bore. The expansion anchor can be inserted with the screw inserted through-hole into a hole until the screw head rests on the attachment. The spacer element ensures that the screw is not completely screwed into the internal thread, so that the screw can be screwed further into the internal thread to spread the expansion anchor. For this purpose, an axial compressive force is exerted on the spacer by the application of a torque on the screw. The spacer element can be shortened in the axial direction under the effect of the compressive force and, according to the invention, it is designed such that it kinks and / or breaks under the effect of the pressure force. The kinked spacer remains or the parts of the broken spacer remain in the front part of the hole, where they do not hinder the screwing of the screw. For spreading the expansion anchor, therefore, after the screw rests against the spacer, the torque on the screw must be increased until buckling or breaking of the spacer element. After bending or breaking the spacer, the torque drops noticeably. The buckling and / or breaking reduces the resistance that the spacer element of the screw opposes. The screw can be screwed after bending and / or breaking of the spacer element without noticeable resistance further into the internal thread. Only by spreading the expansion sleeve increases the resistance of the expansion anchor screwing the screw again noticeably on. The user can thus clearly associate the increase in torque with the proper spreading of the expansion anchor. This leads to increased process reliability compared to the expansion anchors known from the prior art.

In a preferred embodiment of the expansion anchor according to the invention, the spacer element is designed as a ring. An annular Distance element is very reliable in its function and also inexpensive and easy to produce. In particular, the spacer is annular before it is inserted into the bore. The annular spacer element has an opening, which is oriented in particular such that a surface normal to a plane which closes the opening is substantially normal to the longitudinal axis of the expansion anchor. When screwing a screw, the annular spacer is twisted by the rotational movement of the screw, which changes the shape of the spacer from a ring to an "eight", which reacts unstable due to the constriction to a compressive force and buckles relatively easily.

A further preferred embodiment of the expansion anchor according to the invention has a spacer element with a rod-shaped portion which extends substantially in the axial direction. The spacer element may have the rod-shaped portion even before being introduced into the bore. Alternatively, the rod-shaped portion can only be formed by a deformation when introducing the spacer into the bore. The substantially axially extending rod-shaped portion facilitates the buckling of the spacer, since the rod-shaped portion acts as a buckling bar, which is designed so that it buckles under the action of a certain compressive force in the axial direction and fails, whereby the spacer in the axial direction easily can be compressed. By using a rod-shaped section on the spacer, the spacer element can be designed in a simple manner so that it can be shortened under a certain compressive force in the axial direction, the required compressive force can be specified relatively accurately.

Preferably, the spacer element has a predetermined breaking point and / or a predetermined buckling point, which facilitates the buckling and / or breaking of the spacer element. In particular, the predetermined breaking point or the predetermined bending point is designed in the form of a local cross-sectional weakening, for example in the form of a notch or constriction. The constriction is arranged, for example, on the rod-shaped portion of the spacer, which facilitates buckling or breaking of the rod-shaped portion. Additionally or alternatively, the spacer element consists of a brittle material which abruptly fails under a compressive force and deforms only slightly elastically. For example, the spacer may consist of a fiber-reinforced plastic with a high fiber content.

Furthermore, it is preferred that the spacer element is arranged clamped in the bore. In particular, the spacer element has a diameter which is at least locally larger than the inner diameter of the bore. If the cross section of the spacer deviates locally or entirely from a circular cross section, the diameter of the diameter of a circumference circumscribing the cross section of the spacer is to be understood. For example, has a spacer formed as a ring on the excess over the diameter of the bore with the internal thread. If the annular spacer inserted into the bore, so it is pressed in the radial direction, so that it assumes the shape of an ellipse and is elastically clamped in the bore.

The invention will be described below with reference to the 1 to 6 illustrated embodiments explained in more detail.

Show it:

1a to 1c a first expansion anchor according to the invention in various installation states in each case in a sectional view;

2 a second inventive expansion anchor in one of 1a corresponding installation state in a sectional view; and

3a to 6 various further spacer elements according to the invention in sectional views.

In the 1a to 1c is a first inventive expansion anchor 1 shown. With the expansion anchor 1 is an attachment 2 with a screw 3 on a surface 4 attached. The expansion anchor 1 has a shaft 5 into, into which a bore 6 with an internal thread 7 is introduced. The hole 6 with the internal thread 7 take the screw 3 on. In the direction of insertion in front of the shaft 5 is at the expansion anchor 1 a spread area 8th arranged, with a conical spreading section 9 in the form of a truncated cone, which widens in the direction of insertion in cross section. At the spread area 8th is an expansion sleeve 10 arranged axially displaceable, so that the expansion sleeve 10 for spreading the expansion anchor 1 over the spreading section 9 can be pushed. Into the hole 6 is a spacer 11 inserted at the front in the direction of insertion of the bore 6 is arranged. The screw 3 is first by hand so far into the internal thread 7 the bore 6 screwed in until they are at the spacer 11 is applied. The system at the spacer element 11 causes an increase in the Eindrehwiderstands of the screw 3 , so that the user noticeably notices when the screw 3 so far into the hole 6 screwed in, that is the screw 3 in a desired pre-assembly position. The spacer element 11 is as a ring with an opening 12 trained and is when the spacer element 11 still outside the hole 6 of the expansion anchor 1 is substantially circular. Because the diameter of the annulus is larger than the diameter of the bore 6 is deformed, made of plastic spacer 11 during insertion into the hole 6 elastic and assumes an approximately oval shape, in the direction of the longitudinal axis of the expansion anchor 1 stretched. Due to the elastic deformation, the spacer element 11 stuck in the hole 6 held. The opening 12 the annular spacer 11 is so oriented, that a surface normal to the opening 12 the longitudinal axis of the expansion anchor 1 essentially orthogonal cuts. When inserting the spacer element 11 into the hole 6 becomes the spacer element 11 deformed so that there are two rod-shaped sections 13 has, which extend substantially in the axial direction.

The expansion anchor located in the pre-assembly position 1 gets into a through the attachment 2 through and into the underground 4 reaching borehole 14 in through-hole mounting, so by the attachment 2 through, introduced. The expansion anchor 1 gets so far into the hole 14 pushed in until the screw 3 with a radially projecting collar formed on the screw head 15 on the attachment 2 is applied. For spreading the expansion anchor 1 and for attaching the attachment 2 on the ground 4 will, as in 1b shown the screw 3 tool operated further into the internal thread 7 screwed in, so that the expansion anchor 1 against the direction of insertion from the borehole 14 is pulled. As the expansion sleeve 10 due to friction on the wall of the borehole 14 is held, the conical expanding section 9 in the expansion sleeve 10 pulled in, causing the expansion sleeve 10 is spread. By screwing in the screw 3 is on the spacer element 11 exerted a compressive force, so that the spacer element 11 shortened in the axial direction and against the screw 3 and the front end of the hole 6 braced. The distortion creates between the screw 3 and the insertion side rear end of the spacer 11 such a large friction that the annular spacer 11 twisted and thereby takes the form of an eight, with a constriction 16 forms. Due to the constriction 16 , which acts as a predetermined kink, the spacer reacts 11 unstable on the screw 3 on the spacer element 11 applied compressive force, so that the spacer element 11 with further screwing in of the screw 3 collapses and screwing in the screw 3 no appreciable resistance ( 1c ). That for screwing in the screw 3 necessary torque is in this state essentially solely due to the force required to spread the expansion sleeve 10 by drawing in the conical expansion section 9 in the expansion sleeve 10 into it is necessary.

To the buckling of the spacer element 11 To further simplify, may be at the spacer element 11 a predetermined breaking point in the form of a local cross-sectional weakening be provided. Alternatively, the spacer element 11 be made of a brittle material, for example, fiber-reinforced plastic with a high fiber content.

2 shows one of the 1a corresponding installation state of a second expansion anchor according to the invention 101 , wherein the expansion anchor 101 only by the design of the spacer element 21 from the expansion anchor 1 of the 1a to 1c different. To avoid repetition, only the differing spacer element will be used 21 explained in more detail. The spacer element 21 is dumbbell-shaped, with two at the ends of a cylindrical rod-shaped portion 23 arranged cylindrical discs 17 , The longitudinal axis of the cylindrical rod-shaped section 23 corresponds essentially to the longitudinal axis of the expansion anchor 101 and forms the surface normal to the top surfaces of the two cylindrical discs 17 , The rod-shaped section 23 and the two discs 17 are made in one piece as an injection molded part of fiber-reinforced plastic with a high fiber content, ie a material which is relatively brittle compared to non-reinforced plastic. The diameter of the two discs 17 essentially corresponds to the diameter of the bore 6 , such that the spacer element 21 stuck in the hole 6 is held. The rod-shaped section 23 points midway between the two cylindrical discs 17 a cross-sectional weakening 18 as a predetermined breaking point, which is formed as a radial V-shaped recess. Will the screw 3 beyond the pre-assembly into the internal thread 7 of the expansion anchor 101 screwed in, so breaks the spacer element 21 at a defined compressive force on the cross-sectional weakening 18 so that the spacer element 21 further screwing in the screw 3 no significant resistance opposes.

Further alternative embodiments of the spacer element 21 show the 3 to 6 , The four spacers shown in these figures 31 . 41 . 51 . 61 are also dumbbell-shaped made of fiber-reinforced plastic with a high fiber content. In the in the 3a and 3b shown spacer element 31 is a part of the rod-shaped section 33 designed as a hollow body ( 3a ), in the other, with a tip 19 provided part of the rod-shaped section 33 When upsetting can penetrate, whereby the hollow body is spread ( 3b ) to shorten the spacer 31 to facilitate. This in 4 illustrated spacer element 41 on the other hand has several relatively slender rod-shaped sections 43 with small cross-section and long kink length, leaving the sections 43 even under a relatively low pressure force can buckle. This in 5 illustrated spacer element 51 on the other hand has a relatively strong unilateral groove-like cross-sectional weakening 58 as a predetermined breaking or predetermined bending point, while the spacer element 61 of the 6 several groove-like cross-sectional weakenings 68 having predetermined breaking or predetermined bending points.

LIST OF REFERENCE NUMBERS

1, 101

expansion anchor

2

attachment

3

screw

4

underground

5

shaft

6

drilling

7

inner thread

8th

expansion area

9

conical expansion section

10

expansion sleeve

11, 21, 31, 41, 51, 61

spacer

12

Opening of the spacer element 11

13, 23, 33, 43, 53, 63

rod-shaped section

14

well

15

Federation

16

constriction

17

cylindrical disc

28, 38, 58, 68

Cross-sectional weakening

19

top

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 20303806 U1 [0002]

Claims (6)

Expansion anchor ( 1 . 101 ) with an internal thread ( 7 ) for fixing an attachment ( 2 ) on a substrate ( 4 ), - wherein the expansion anchor ( 1 . 101 ) a shaft ( 5 ), in which a bore ( 6 ) with the internal thread ( 7 ), - wherein the expansion anchor ( 1 . 101 ) a spread area ( 8th ), on which an expansion sleeve ( 10 ) is axially displaceable, and - wherein in the bore ( 6 ) a spacer element ( 11 . 21 . 31 . 41 . 51 . 61 ) is arranged, which is shortened under the action of a compressive force in the axial direction, characterized in that the spacer element ( 11 . 21 . 31 . 41 . 51 . 61 ) kinks and / or breaks under the effect of the pressure force. Expansion anchor according to claim 1, characterized in that the spacer element ( 11 ) is formed as a ring. Expansion anchor according to claim 1 or 2, characterized in that the spacer element ( 11 . 21 . 31 . 41 . 51 . 61 ) a rod-shaped section ( 13 . 23 . 33 . 43 . 53 . 63 ) which extends substantially in the axial direction. Expansible anchor according to one of claims 1 to 3, characterized in that the spacer element has a predetermined breaking point and / or a predetermined buckling point, in particular in the form of a local cross-sectional weakening ( 28 . 38 . 58 . 68 ). Expansion anchor according to one of claims 1 to 4, characterized in that the spacer element ( 11 . 21 . 31 . 41 . 51 . 61 ) consists of a brittle material. Expansion anchor according to one of claims 1 to 5, characterized in that the spacer element ( 11 . 21 . 31 . 41 . 51 . 61 ) in the hole ( 6 ) is arranged clamped.

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