DE19822116A1 - Adjustable spreader for building purposes - Google Patents

Abstract

A spreader for building purposes, e.g. for bracing between shuttering, has two thrust faces help apart by an adjustable central support. This can be a simple shaft threaded at each end with opposite threads and screwed into corresponding sleeves (2) on the backs of the thrust faces. A central grip (1) enables the shaft to be rotated to set the spacing.- DETAILED DESCRIPTION - An alternate design uses wedges to set the spacing with the wedges held by spring grips. The spreader can be adjusted in situ

Description

The invention relates to variable spacers with clamping and adjustment for the purpose of Ver Change the distance between the wall plates of the spacer in case of casing formwork, in front set facades on existing buildings and for a variety of applications len, where a change or an adjustment of the distance or the manufacture a certain static tension between two walls or objects, in particular in construction.

Spacers are used especially in construction for various applications puts. A main area of application is shell formwork and lost formwork for Walls. Different spacers with pre-defined distances are inserted here sticks, as halved elements mechanically or by gluing with one half of the formwork firmly connected and then with the second half of the formwork using various options similarities, as described in the patents DE 36 34 993 and DE 41 34 439, in one defined distance merged.

In another widely used technological solution, spacers are used a horizontal formwork panel glued on one side and then the second sheet plate connected to the spacers by placing and gluing.

All these technical solutions are for the production of a defined vertical ab between two individually erected walls or one to be erected later wall made of large panels or wall elements cannot be used because of the distance can fluctuate between the walls and the new wall must be adjusted vertically. For these reasons, a previous attachment z. B. One does not stick to construction sensible, since different distances to the old wall are not taken into account can and a vertical alignment using spacers is not possible.

The object of the invention is to propose spacers that are subsequently between the erected panels can be introduced during the assembly process, possible under adjust different distances, adjusting the distance or in connection with whose measures enable the walls to be aligned and fixed vertically, and in other applications for clamping two parallel plates can be used. Adjusting the distance between the walls should also be on the adjustment of the anchor spacing may be applicable.

The object of the invention is achieved by the technical solution described below solutions for variable spacers met.

• - According to Fig. 1, two large plates made of metal, preferably steel, onto which an arrangement with a bore with an internal thread in the middle ( 2 ) is welded, are used as spacer halves. The internal thread is left-handed on one half of the spacer and right-handed on the other. Both spacer halves are connected with a threaded bolt ( 1 ) which has a left-handed thread on one threaded bolt side and a right-handed thread on the other threaded bolt side. The center of the threaded bolt consists of a hexagon or better of a center piece shaped according to Fig. 6 for turning and thus for changing the distance between the plate surfaces of the spacer.
  The outer surface of the plates should be provided with waffle-like elevations and depressions, preferably pyramid-shaped, to absorb adhesives or for better adhesion to the wall surfaces.
• - According to Fig. 2, threaded bolts ( 3 ) are welded onto the spacer halves with one right-hand and one left-hand thread, and the center piece ( 4 ) required for connecting and adjusting consists of a center piece designed according to Fig. 6 with a right-hand and left-hand thread . By turning the center piece with the spacer halves screwed in, the distance between the plate surfaces of the spacer can be changed very inexpensively, even in the smallest steps, and thus the spacer can be firmly clamped in and used well for adjustment.
• - In Fig. 3, a spacer half according to Fig. 2 is provided with a spherical joint, so that possible bevels or a non-horizontal insertion of the spacer between the walls can be compensated for and thus a full-surface lying of the plates of the spacers on the walls is guaranteed. The threaded bolt ( 3 ) and the ball joint are designed so that the threaded bolt is not twisted.
• - Fig. 4 shows another version that can be used to compensate for possible inclinations or non-horizontal insertion of the spacers. Here, analog to the mounting rails for cassette facades, a rail section ( 10 ) and the right-angled bracket ( 11 ) with spring ( 9 ) are connected to the threaded bolt ( 3 ) and a similar effect as in Fig. 3 is achieved. This solution has the advantage that existing mounting solutions are used in Bauwe sen.
• - In Fig. 5, a variable spacer is proposed, which is easy to handle on the construction site, but does not or only partially permits adjustment.
  The spacer halves are constructed similarly to Fig. 2. Instead of the threaded bolts, they have a tube as a sleeve ( 5 ) and as a counterpart a bolt ( 5 ) which projects into the tube. Pipe and bolt have a slot in their center into which a narrow wedge ( 6 ) beveled on one side fits. The distance is fixed via the slope of the wedge into the slope of the slot in the bolt. By means of a spring ( 8 ) and fine sawtooth-shaped notches on the straight back of the wedge ( 7 ), the wedge is firmly fixed with the insertion and driving in. With this solution, a defined adjustment or removal of the spacer after fixing is hardly possible without damage. This solution should be justified for the subsequent use of spacers in facade facades to stabilize the distance and absorb forces through the old wall.
• - Fig. 6 shows the center piece for adjusting and tensioning the spacer according to Fig. 2-4. With the hexagon, turning with a suitable hexagon wrench is possible. On the construction site and especially on scaffolding and when the spacers are spaced apart considerably by the construction workers commissioned with the adjustment, handling with an open-ended wrench and special wrench is difficult. 12 ) with a thickness of 15-25 mm, e.g. B. 6 pieces evenly distributed over the circumference. The center piece of the spacer is then rotated by means of a tube or a rod which has a bore on one end face and can easily accommodate the short bolts. This twisting is thus even at greater distances from the spacer from the construction worker, for. B. scaffolding from the construction possible.
• - Fig. 7 shows another variant of a center piece for adjusting and tensioning the spacer according to Fig. 24 and Fig. 8. By making blind holes ( 13 ) on the circumference of the middle piece with an internal thread, a larger number can be attached with smaller mutual distances, so that it is possible to twist the middle piece with a smaller angle of rotation. Instead of the hole, the rod or tube receives a pin (bolt) that fits into the blind holes. With an additional sleeve behind the pin of the rod, an improvement in the transmission of the torque to the center piece is possible.
• - In Fig. 8 is an extended application of the variable spacer according to Fig. 2-4 as a tensioning and adjusting element of an anchor for curtain walls Darge represents z. B. in the renovation of existing buildings. This solution is particularly advantageous when vertical mounting rails are attached to the old facade wall to attach the anchor, which can accommodate the rectangular or circular holder of the spacer. The options shown in Fig. 8 as a tensioning and adjusting element for anchors can be expanded as required, depending on the anchor, which is indicated by the cutting line on the left-hand and right-hand threaded bolts ( 3 ) or in Fig. 9 on the bolt and sleeve ( 20 ) and ( 21 ) should be indicated.
• - In Fig. 9, an expanded application of the variable spacer according to Fig. 5 is described with a wedge-adjustable adjustment option. With the wedge ( 14 ) the clamping is done by hammering into the wedge-shaped slot of the bolt ( 20 ) and with wedge ( 15 ) fixing the certain distance with a possible relief of the tension set with wedge ( 14 ). If the spacer as shown in Fig. 9 is used as an adjustment element for anchors, a reduction in the distance described can also be shortened by hammering in the wedge ( 15 ) and fixing the specific distance with a possible relief of the set tension with wedge ( 14 ) can be made. Practically, this means that the bolt is pressed outwards with wedge ( 14 ) and is pulled inwards with wedge ( 15 ). The other wedge is then used to fix the set distance.
  With this spacer, the same effects can be achieved as with the spacers with left-hand and right-hand threaded pieces for adjusting the distance.

If, instead of plates, the variable spacers are provided with receptacles for attachment to anchors, plates or wall elements can advantageously be adjusted using their anchors
With the solutions proposed in Figs. 8 and 9, the field of application of the variable spacers is extended to adjustable wall anchors.

When using bolts, sleeves, threaded bolts and thread means of different lengths pieces can be mastered in practically all occurring applications.

With the use of uniform techniques for adjusting and securing the Ab standing, especially large-scale facade elements, when renovating buildings is one effective construction technology applicable in this area.

The advantages of this variable spacer and adjusting the distance of the anchors give in from practical use, especially in construction, where in many cases inert walls, slabs are erected at appropriate intervals, or where existing which distances, e.g. B. in spaces between roofs, subsequently insulating materials should be brought and these gaps by stretching using the variable Ab stand holders are expanded slightly and then by relaxing all the intermediate spaces are filled in and the insulating material firmly under certain tension in the rooms space.

A particularly advantageous application is in the construction of subsequent intent facades with a larger spacing from old to new facade, since here all different distances between the varia resulting from the old facade blen spacers can be compensated and the new outer facade on the old Facade can be fixed by means of the device for adjusting the distance of the anchor. Since the spacers and the means for adjusting the distance of the anchor to Large static forces are provided, they should be made of steel with high external corrosion protection. Due to the high level of automation in the mechanical mass production and the little required assemblies for the Spacers and the device for adjusting the anchors are said to be the manufacturing cost be small.

The use of the differently proposed variants of the variable spacers and the facilities for adjusting the anchor is dependent on the specific application and the un different manufacturing costs determined.  

Fig. 1 variable spacer with left and right hand threaded bolts,

Fig. 2 variable spacer with left and right hand thread center piece,

Fig. 3 variable spacer with spherical joint,

Fig. 4 variable spacer with incline compensating bracket,

Fig. 5 variable spacer for clamping with a wedge,

Fig. 6 center pieces for clamping and adjusting,

Fig. 7 center piece for tensioning and adjustment,

Fig. 8 spacer according to Fig. 2 with extended application options,

Fig. 9 Spacers for tensioning and adjustment using wedges with extended application options.

Reference list

1

left and right hand threaded bolts

2nd

Spacer plate with left and right hand internal thread

3rd

Spacer plate with left and right hand threaded bolts

4th

Middle piece with left and right hand internal thread

5

Plate the spacer with bolt and sleeve

6

Wedge for tensioning

7

Straight back of the wedge with sawtooth notches

8th

feather

9

Tension spring

10th

Mounting rail piece

11

Rectangular or circular bracket

12th

Bolts / pins

13

Blind holes

14

Wedge to extend

15

Wedge to shorten

16

feather

17th

Angle with slot for wedge to lock

18th

Anchor flat iron with hole

19th

Rectangular or circular bracket for fastening in the mounting rail

20th

Bolt with a wedge-shaped slot on both sides

21

Sleeve with two continuous slots

Claims (10)

1. Variable spacers with clamping and adjustment options for changing the distance between plates and wall elements, characterized in that, according to Fig. 1, the stepless change in the distance between the wall plates of the spacer by screwing in and out a left-hand and right-hand thread bolt ( 1 ) in the left and right hand threaded holes ( 2 ) in the spacer halves by turning the threaded bolt. 2. Variable spacers with clamping and adjustment options for the purpose of changing the distance between plates and wall elements, characterized in that according to Fig. 2 the stepless change in the distance between the wall plates of the spacer by means of a left-hand and right-hand internal thread provided with telstückes ( 4 ) as shown in Fig. 6, which turns the screwed-in left-hand or right-hand threaded bolts ( 3 ), which are firmly connected with the spacers, out or in. 3. Variable spacer with clamping and adjustment options for the purpose of changing the distance between plates and wall elements according to claim 2, characterized in that according to Fig. 3 a threaded bolt connected to a spacer half is arranged in a ball joint movable and secured against rotation and thus slopes and cannot compensate for the parallel installation of the spacer. 4. Variable spacer with clamping and adjustment options for the purpose of changing the distance between plates and wall elements according to claim 2, characterized in that according to Fig. 4 a threaded bolt ( 3 ) connected to a spacer half movable analogously to the brackets ( 9 , 10 , 11 ) façades are arranged on mounting rails for cassettes. 5. Variable spacers with clamping and adjustment options for changing the distance between plates and wall elements, characterized in that, according to Fig. 5, the change in the distance between the wall plates of the spacer is carried out by means of a wedge ( 6 ) which in a slot-shaped opening of the sleeve ( 5 ) and Bol zen ( 6 ) protrudes and, depending on the depth, the distance between the wall plates of the spacers changed due to the slope of the wedge, by means of a small leaf spring inserted in the sleeve ( 8 ), which in the fine toothing ( 7 ) of the The vertical part of the wedge snaps into place and the distance between the wall plates of the spacer is fixed. 6. Variable spacers with clamping and adjustment options for changing the distance between plates and wall elements according to claims 1-4, characterized in that according to Fig. 6, the threaded piece for changing the distance and for tensioning and adjusting for safe and easy turning on the circumference is provided with short bolts ( 12 ), which serve to insert the bolts ( 12 ) by means of a rod with a bore at the end thereof, and thus rotate the threaded part according to claim 1 or the central part according to claims 2-4 can. 7. Variable spacers with clamping and adjustment options for the purpose of changing the distance between plates and wall elements according to claims 1-4; 8, characterized in that, according to Fig. 7, the threaded piece for changing the distance and for tensioning and adjusting for safe and easy turning on the circumference is provided with blind holes ( 13 ), which serve to use a rod with pins (bolts) at the end, these are inserted into the blind holes ( 13 ), and so the threaded piece according to claim 1 or the central piece according to claims 2-4; 8 can be rotated. 8. Variable spacers with clamping and adjustment options in order to change the Distance between plates and wall elements according to claims 2-4, characterized records that the left- and right-hand threaded bolts with receptacles for fastening supply to anchor systems of the panels or wall elements and thus the va riable spacer to the adjusting element of the fastening anchor.   9. Variable spacer with clamping and adjustment options for the purpose of changing the distance between plates and wall elements, characterized in that, according to Fig. 9, the change in the distance between the wall plates of the spacer in extension of claim 5 takes place by means of two wedges, which in a slot-shaped opening protrusion of the sleeve and bolt and depending on the depth, the distance between the wall plates of the spacers is increased due to the slope of the wedge ( 14 ) or the wedge ( 15 ), depending on which adjustment is necessary, the wedges ( 14 ) or ( 15 ) hammered in and fixed with the other wedge, by means of the leaf spring attached in the sleeve, the wedges are additionally fixed in their position, 10. Variable spacers as means for adjusting the distance between the anchors of plates and wall elements according to claims 1-4; 8th; 9, characterized in that appropriate brackets for attachment to the wall and facade anchors, such as shown in Fig. 8 and 9 ( 17 , 18 , 19 ), are attached in place of the wall plate.