DE19936694C1 - Fence post fixing socket has 2 axially spaced foundation elements at opposite ends of bridge section providing tubular reception sleeve for fence post - Google Patents

Abstract

The fixing socket (1) is driven into the ground and has a tubular reception sleeve for receiving the end of a fence post (5), secured via a fence post clamping device at the upper end of the fixing socket. The latter is divided over its height into 3 parts (2,3,4), with axially spaced foundation elements (3,4) at the opposite ends of a bridge section (2), the top edge of the bottom foundation element lying a depth which is below the maximum penetration depth of the fence post.

Description

The invention relates to a ground foundation that can be crushed ment for receiving posts, according to the preamble of the claim 1, in particular for fastening traffic signs or the like. Is used.

Such devices are known in a variety of forms. So z. B. be in the prospectus of the company Dambach a ground sleeve wrote that in a concrete base with the cross-sectional dimensions of approx. 25 × 25 cm (horizontal) and a height of approx. 40 cm about 2/3 of the height is poured in, the upper area with the clamping sleeve remains free. This mostly prefabricated element made of cast iron and concrete reaches a total height of about 2/3 the usual installation depth, d. H. approx. 50 cm. Common and empirical as necessary also with regard to frost protection However, installation depths of 60 to 80 cm, which is about the 10 to Corresponds to 15 times the post diameter. The well-known cast Concrete element is thus in a pre-dug hole with the tie fe 60 to 80 cm, in which the lower part with Mortar was filled in for a kind of additional foundation. That before The finished concrete part then forms one with the additional foundation contiguous foundation block. The still open side The room is then solidified with soil or filler material stamped. The area close to the ground is left free and with the Original material, e.g. B. asphalt, so that at the end only a few centimeters of the sleeve body as well as the upper part the clamping sleeve protrude from the floor. The Pfo to be attached Most often a post for ver road signs, is now inserted in the ground sleeve and ver screws. With heavy loads, e.g. B. an impact  the post, either the walled ground sleeve or the concrete block or both of them damaged or broken go. The further the concrete sleeve is free from the concrete foundation protrudes, the more fragile it becomes. In all three cases, i.e. H. also if the concrete block is undamaged, the entire complex, i. H. The sleeve and concrete block are dug out and disposed of. The one putting the new sleeve with a new block will be on the same Repeatedly. An alternative to this is the damaged one To leave concrete block with sleeve in place and on to build a new foundation.

The disadvantage of this prefabricated concrete base with cast ner sleeve is particularly in the weight and mass of used concrete. This affects both transportation and also the workload at the construction site. With the usual Ab measured, e.g. B. road signs with a height of two and a half meters, the weight of the prefabricated block is included Ground sleeve of approx. 60 kg with an installation depth of approx. 45 cm. About that in addition, handling by two workers becomes too difficult. Ange In view of the loads that occur with traffic signs, the The height of the block is often insufficient and meets the requirement after frost protection not. This leads to the measure that the Hole is dug wider and deeper and the foundation with Mortar is enlarged downwards. This brings again increased effort and concrete consumption, whereby in the end for the Ge velvet foundation can often be buried over 200 kg of concrete. This Concrete has to be disposed of later at high costs.

There is a problem of cable damage due to bricking up exposed cable. When outlining the post in heavy Load, the cables are carried away, which is a big economic damage, as well as a high degree of injury driving can mean. Another disadvantage is that across the street level protruding sleeve end. By sticking out of the concrete it is also based on the leverage effect - a larger one Risk of breakage. The sleeve end prevents the  Street with a new betere at this point with the street outer roller rolled, d. H. can be run over. As a result, is missing at this point the compression and thus leads to a ge less firmness. A too low density leads to water permeability and sensitivity to frost. A densification with the vibrator does not bring the density of the roller.

The sleeve end protruding into the street surface is called op perceived as table disturbing and is a risk of injury.

Another anchoring system is from US Pat. No. 4,269,010 knows. This solves the anchoring task in that min at least 2 independent foundations on the posts to be anchored be pushed, the one in the area near the top of the earth is attached and the other at the bottom of the post. When loading The lower foundation is the first to consolidate these foundations stamped with inserted post, then filled material and then the upper funda below the surface of the earth ment stamped.

The disadvantage is that the post is firmly connected to the ground by snapping and pounding. It cannot be tensioned, removed or replaced. The two foundations are completely independent of each other, so that they are not stabilized against each other without the post. The foundation cannot be pulled out and replaced. Rolling over the construction site is not possible due to the necessarily installed post, which is part of the system. Under the disks 30 , a blind spot is formed, so that sealing there is not possible.

Further anchoring devices can be found in the documents EP 0 243 376 B1, DE 196 07 972 C1 and DE 197 08 807 A1 are known. The se floor foundations are designed as floor anchors. You best principally from a tube that has one at its upper end has a cup-shaped, downward-facing ring that  a larger diameter than the diameter of the tube having. There is an impact tip at the lower end. These devices have become particularly evident when driving in well-proven natural soil. When used in urban areas rich, d. H. in the asphalt, a hole is dug or the floor was loosened until the floor plug fell completely can be gen. When digging and loosening up, Move the gel so that a chisel tip is at least as far is driven, like the floor plug afterwards at maximum Ge has velvet depth. That won't happen after driving in filled hole mainly filled with mortar and this passed on the surface of the earth. The ring set in concrete grants the post the necessary stability near the surface Area.

However, since there is little or no excavation, one is in urban areas it is never certain whether you will hit the Bo dendübel hits a cable. Damage to cables, esp special of telephone cables, can be immense in no time Claims for reimbursement from the telephone company to lead. There is a risk of accidents with power cables with danger of death. This means that the basically very ratio method of digging or partial digging and Impact often cannot be applied.

The object of the invention is to provide a floor foundation, through which - while respecting itself through the frost line and installation habits resulting in the necessary installation depth Traffic signs from approx. 60 to 80 cm - preferably no mortar is necessary and the injury of cables by tips, Edges and walling are avoided.

This task is characterized by a floor foundation with the nenden features of claim 1 solved. In the subclaims advantageous embodiments are described.  

Accordingly, the ground foundation that can be stamped in consists of three parts len, in principle - compared to Dambach - the one there existing foundation base surrounding the sleeve, invented is divided axially into two parts, namely one upper part, the head foundation and a lower part, the Basic foundation ver with each other via a foundation bridge are bound. In doing so, the top foundation with its top edge brought into the area of the top of the earth and the basic foundation essentially reaches the final depth of the previous one (see Dambach) Additional foundations.

To achieve the necessary foundation depth of about 10 to 15 post diameters D is the (Dambach) sleeve for a fun damentbrücke further developed and extended, the necessary immersion depth of the post from the usual 4 to 6 times the Post diameter can remain unchanged.

The concrete block disappears completely in the middle. The foundation body are at the clamping point, d. H. now the top of the earth and at the opposite of the clamping point ten point, the foundation ground. As far as possible apart points for the head foundation and that The basic foundations are the most effective in terms of statics. The The end of the foundation bridge no longer protrudes above the head funn then what increases its stability. The basic foundation is always below the required immersion depth of the post orderly.

The volumes of the head foundation and the base foundation increase are added together as a result of the interpretation according to the invention considerably smaller and lighter than the previous concrete volumes and concrete weights when using the same or similar mate rialien. Furthermore, due to other fastening tech other materials, such as plastics, pressed and impregnated wood, light metal, cast u. Ä. are used.  

The extended part of the sleeve, i.e. H. the lower part of the funda ment bridge, becomes cheap designs such as cable entry tion, predetermined bending point, resilient bent part or crumple ne, and threaded column used.

The basic foundation will be by its shape, its weight and its Volume designed and dimensioned so that it over the Verbin bridge on the post transferred bending, twisting or Lifting forces, as well as vibrations with and from Filling material compressed by hand or with the compressor withstands. At the same time, the basic foundation is provided by channels, Curvatures or other shapes, where necessary, so designed tet that cable injuries are avoided.

The foundation bridge is a further development of the inventive idea ke itself divided into two or more parts, creating a height hen adjustability, or rollability is achieved. There is a pre-regulation of the installation height and a fixation the final state possible by screwing.

The floor foundation therefore basically consists of three sub-assemblies pen:

The top assembly includes the head foundation, which is not there is an open one above the surface of the earth and towards the airspace Has contact area, d. H. an area that is not covered with asphalt is covered and on which, similarly as from the DE 196 07 972 C1 known, a cover plate, the clamping ring and the posts are attached. The cover plate is preferred flush with the surface and attached to the head foundation. The through enclosed by the peripheral line of the top foundation knife, in the case of non-round shapes the average diameter, be carries a multiple of the post diameter. The head foundation can be used as a full body, as a ring or as an open ring be trained. It is designed so that the filling material al can be introduced through openings or through  Do not form sloping corners. What a fill len applies, also applies to the subsequent ramming. Between the head foundation and the cover plate can be one or more Shims of the same or different thickness become. The shims are advantageously diesel be outer contour like the top foundation. The cover plate instructs The underside of the shape of the head foundation, which is ver up in an advantageous manner by a draft enlarged.

Instead of attaching the cover plate and the post can the contact surface also for attaching any other Parts or devices serve such. B. an umbrella with footplate.

The head foundation continues to serve as an access element for the Operation from above for forwards fixed on the foundation bridge directions such as the adjusting screw and the locking screw for height-adjustable floor foundations.

The middle assembly is formed by the foundation bridge, which on the one hand picks up and guides the post and on the other connects the top foundation to the base foundation.

After a first execution, the foundation bridge is a pipe, which is in the length of the necessary installation depth of the post is expanded and at the lower end of the expansion to the center tion and fixation has a conical constriction. Whose lower part forms the extension and connection to the bottom foundation. If there is no need to save on the post material, this part can also be partial or up to a zen remaining slope be expanded and used for ver extension of the post guide can be used.

Otherwise, this distance can lead to additional advantages of the Er be designed.

So the foundation bridge can be off-center by at least one arranged prop can be extended, creating an open space arises and for example cables or hoses carried out and  can be introduced into the interior of the ground foundation.

The foundation bridge can also be built in height and its diameter variable, flangeable rod extended become. Through a constriction in the middle part can a predetermined bending point can be generated.

By extending the foundation bridge as an independent one and component formed in different lengths can top and provided with mounting flanges at the bottom and between the End of the necessary installation depth and the top edge of the bottom be fixed to the fundamentals.

Furthermore, the extension can be designed as a crumple zone be, the crumple zone when rolling over the foundation is squeezed.

Finally, the extension can be an elastic element, e.g. B. be a rubber-metal element, thereby aligning the Bo the foundation after an impact on the post without replacement parts is made possible. Instead of a rubber-metal element also the use of a spiral spring or a permanent ver malleable solid, e.g. B. foam, possible.

The lower assembly is the basic foundation. This can form a unit with the foundation bridge or be suitable for use in various flange-on embodiments. Such forms are:

• - a spherical to spherical cap-shaped underside, which a flat, well-lying standing on the hole bottom causes
• - A circular cross section, which is a partial rotati on enables
• - an elliptical, angular or other irregular Cross section, which prevents twisting,
• - A basic foundation with at least one channel for passing through  of cables.

The elements, upper part (head foundation), middle part (fun dam bridge) and the lower part (basic foundation) are invented designed according to the invention in an advantageous embodiment so that it can be combined with each other and so a variety of applications enable applications with a few standard parts.

When installing rigid floor foundations according to the invention care is taken that after the insertion in the hole the Soil foundation is slightly below ground level rather than about that. Then the hole is filled with a suitable filler fills and stamped this. In between is aligned. The top of the asphalt surface is then covered with mortar or Asphalt filled up and the connection and coordination to the waiter surface manufactured. The outer surface of the head foundation forms a rigid connection with the asphalt or with concrete, which withstands high forces. The interior of the head foundation - if this is a ring or a semi-open form - will also filled and pounded. Before the cover plate the level is checked. After that the Cover plate, if necessary, using an or several shims fitted with fastening screws.

According to a further embodiment of the invention, the fun dam bridge for the purpose of height adjustment and over Rollability separated into two parts, namely in a sliding tube and a base tube. These two pipes slide concentrically into each other. However, the sliding takes place under a pretension between the tubes, so that for moving a certain Exertion of force is required and in no case sliding through the dead weight alone is possible. The form-fitting connection is between the sliding tube and the base tube manufactured at least one set screw, which by a upper sleeve is guided with the bottom and with a lower sleeve,  which has a thread is connected. In addition, the Stell screw to select the height differences when compacting level the road surface. The thread is preferred so long that at least two densifications can take place. This means that with a new coating of the surface Head foundation can be adjusted upwards. The poster len can be loosened with a separate screw Pulling device with which the head foundation with by means of a threaded spindle. Around the head So much foundation must be dug up that a lateral compaction can take place by ramming. The sleeve is attached to the sliding tube, for example by welding Stigt and the lower sleeve analog to the base tube. The screw benkopf is using a tool from the surface of the head fun then accessible from. Between the upper sleeve and the un tter sleeve there is an adjusting nut. The lower part of the lower sleeve serves as a protective tube for the set screw and can be closed with a cap at its lower end the.

A particularly advantageous type of presetting is carried out by an adjusting screw, which be in a on the sliding tube consolidated protective sleeve is guided and on a on the base tube attached stop with head surface acts. Before rolling over the adjusting screw is increased by an amount which is slightly larger is turned back as the compression amount. Before a new one second overrolling may have extended adjusting screws can also be used as jack screws. It is special advantageous when three such screws are attached to the circumference are arranged.

When assembling an adjustable according to the invention edible ground foundation, it should be noted that during manufacture a new pavement this for making the deck layer must be rolled. Rolling over lowers  the level of the surface. The floor foundation fits the compression in that the above-described Ausfü split pipes is used or a permanent one deformable intermediate piece is installed. In both cases After the height has been adjusted, a rollover is inserted into the tube used, which is removed after rolling over and is replaced by the cover plate.

When installing with an adjustable foundation, the floor funda first in a rather deeper hole around it Basic foundation stamped around. Then the ground foundation adjusted so that the desired posi tion of the contact surface in the head foundation to the earth's surface is posed. Then the adjusting screw is changed bottom position of the adjusting nut to the bottom of the upper sleeve turned. Before ramming in the upper area the adjusting nut is increased by at least the amount of the possible Ni level reduction when rolling over turned down. When ver using adjusting screws instead of adjusting nuts analogously turned up. After rolling, the adjusting screw be turned to the stop on the floor and tightened. Head Fun dam and basic foundation are now fixed in the pull-out direction positively connected. A readjustment at one renewed overrolling by pulling out and compacting the Head foundation has already been described above.

Another embodiment provides the arrangement of a knee The floor foundation can be completely buried the, with a possible height compensation using a compensation pad ben takes place. The crumple element is rolled over the amount of the reduction squeezed together permanently. At how the use of the ground foundation will counteract this element exchanged a new one.

If larger amounts are to be offset,  d. H. Amounts larger than the post diameter of the Bo denfundamentes, is advantageously an execution used with a central threaded column. This is e.g. B. the case with the Her placing foundations of shelters on uneven terrain, where several head foundations are brought to the same height Need to become. After the lower area was rammed, the upper area is set to the correct height, where advantageously used a ring as a head foundation, the circumferential ring also serves as a handwheel. Formations in Ring serve as an anti-twist device. Fixing the thread column can e.g. B. by a counter nut screwed in from above or a chemical screw locking fluid can be achieved. The installation in the near-earth area is carried out analogously to the other An turns.

The invention will now be illustrated in several embodiments games explained with reference to the designation:

Show it:

FIG. 1 shows a view of a rigid floor foundation in mon sembled,

FIG. 2 shows a view of a shim,

Figure 3: keystone a view of a concentric ring as a head.

Fig. 4 is a view of an open body rule as a head base on the periphery quadrati,

FIG. 5 is a view of an adjustable and überwalzbares floor foundation,

FIG. 5a. A view of a detail of FIG 5 rotated by approximately 90 °, with top-to-use adjustment screw,

FIG. 6 is a view of a basic foundation with a ellip tables horizontal cross-section,

Fig. 7 is a view of a floor foundation in two Ansich th, with a threaded column in the foundation bridge for height adjustment and a channel in the basic foundation for cable entry,

Fig. 8 is a view on an extension of the Fundamentbrüc ke with four spacers,

FIG. 9 is a view of an extension of the Fundamentbrüc ke with predetermined bending point, keystone with attached reason

Fig. 10 is a view to a gauge roll body,

Fig. 11: a view of an extension of the foundation bridge ke with crumple zone, and

Fig. 12: a view of an extension of the Fundamentbrüc ke with spring element.

In Fig. 1, which shows a floor foundation 1 in its simplest version, the basic structure of three parts 2 , 3 , 4, it is evident, with a base foundation 3 , a top foundation 4 and a bridge 2 connecting these is provided. Due to the partially axial section, a cover plate 16 and a rubber clamping ring 43 can be seen . The necessary immersion depth of the post 5 in the foundation bridge 2 is produced by a widened, upper tube part 6 , which is conical at the lower ren widening end and thus forms a stop for the post and centers it. The subsequent lower pipe section 7 serves as an extension of the foundation bridge 2 .

At the lower end of the pipe part 7 , a mounting flange 27 is provided, with the aid of which the foundation bridge 2 with screws ben 27 a and not shown threaded bushings is fastened to the basic foundation 3 . The basic foundation 3 has a circular cross section in the horizontal direction and has a spherical shape on its underside 33 . The head foundation 4 can be designed as a plastic part into which one end of the foundation bridge 2 has been vulcanized. The lower area of the head foundation 2 has a transition bevel 30 and runs conically towards the foundation bridge, which enables a stamping without dead corners.

Fig. 2 shows a shim 17 as it is provided for the execution according to FIG. 1. The shims 17 may vary in thickness, z. B. from 2 to 5 mm and can be put together for a precise height compensation. The disks contain the holes 17 a for the passage of the fastening screws 11 and 17 b for the post 5 .

Fig. 3 shows a concentric ring 13 as a head foundation 4 , in which two threaded bushings 31 a for attaching a cover plate from the contact surface 44 are visible, and two openings 31 b for filling the filler material and for leading the ramming tools. The foundation bridge 2 is visible as a pipe attachment and is attached to the ring by a welded connection.

Fig. 4 shows an open square body 14 as Kopffun dament 4 , in which the outer contour is not closed as in Fig. 3 ge, but is open, which allows easier filling and pounding. The square shape secures against torsional forces due to its shape. Otherwise, it is designed like the ring 13 from FIG. 3.

Fig. 5 shows a floor foundation 1, wherein for the purpose of height adjustment, the foundation bridge 2 in an upper sliding tube 28 and a lower base-tube 29 was isolated, which slide axially into each other. For this purpose, the base tube 29 is larger in diameter. The lower fixation and centering of the post 5 takes place here at the lower end of the base tube 29 by constrictions 56 . The height can be adjusted using two set screws 12 a and set nuts 12 b. The screw head is slidably guided and protected in a sleeve 57 with a base 58 leading to the surface of the head foundation 4 and accessible from above. The bottom 58 of the sleeve 57 serves the head of the screw 12 a as a support. The sleeve 57 is connected to the sliding tube 28 , e.g. B. connected by welding.

On the base tube 29 , a lower sleeve 8 is fastened, which extends in axial extension to the upper sleeve 57 and has the counter thread for the screw 12 a at its upper end. The lower part of the sleeve serves as a protective tube against dirt. Between the upper sleeve 57 and the lower sleeve 8 there is the adjusting nut 12 b, which serves to pre-fix the floor anchor 1 during installation.

In this exemplary embodiment, the base foundation 53 has a hexagonal shape against twisting in the upper area and a spherical shape in the lower area for easy positioning.

Fig. 5a shows a section with an adjustable from above A screw 49 in front view. The screw is guided in a protective sleeve 59 . At its lower end 60 , the protective sleeve 59 has an internal thread for the up and down movement of the adjusting screw. The position of the screw shown corresponds to the already rolled condition of the foundation, where at a safety distance between the end of the adjusting screw 49 and the stop 47 is visible. If the A set screw 49 is rotated after rolling over to the top surface 61 of the stop 47 , the sliding tube 28 can no longer be moved against the base tube 29 downwards. The stop 47 is used to preset the foundation height. He is with the base tube 29 z. B. connected by welding.

When the cover plate is removed, the adjusting screw 49 can be operated from above.

FIG. 6 shows a further embodiment of a basic foundation as an elliptical basic foundation 52 which, owing to its horizontal elliptical cross section, cannot be rotated about its vertical axis EE 'in the subsurface, but permits pivoting to the axis. The latter is possible due to the circular vertical cross section. This embodiment is advantageous in combination with the connectors of FIG. 9 and FIG. 12.

Fig. 7 shows a floor foundation 1, wherein the extension of the foundation bridge 2 by two functional elements, namely by a threaded post 26 and a cylinder 46 is carried out wherein the threaded column 26 B of the post 5 is extended into the interior of the necessary penetration depth and thus hollow post 5 assumes. The threaded column 26 has a threaded sleeve 25 as a counter piece. A countering of the threaded column 25 is possible by a lock nut (not shown) or a chemical screw lock. The embodiment provides as a head foundation 4 a ring 13 , which also serves as a handwheel for height adjustment. As an exchangeable element provided with fastening flanges 27 , the cylinder 46 serves as an extension of the threaded column 26 . The basic foundation 51 is provided in this exemplary embodiment with a continuous channel 37 through which cables 41 or pipes can be guided.

Fig. 8 shows an extension of the foundation bridge 2 with four spacers 20 and a base foundation 50 with a central bore and secondary bores. This arrangement is particularly suitable for bringing in cables 41 from all sides and guiding them through the foundation bridge 2 . The connec tion flange 27 to the post 5 has an opening which is smaller than the post diameter, so that it is ensured that the post 5 can not slide through. Above the flange 27 , the foundation bridge 2 has notches 62 for centering the post 5 .

Fig. 9 shows a bridge foundation 2 with an extension rod 63 between the flanges 27 and a predetermined bending point 23 in the form of a constriction of the rod 63 in the central region.

Fig. 10 shows a roll body 18 for the ground foundation consisting of an upper roll plate 64 a and a Zen trier tube 64 b. The thickness and the outer diameter of the roller plate 64 correspond to the cover plate 16 . The side surfaces (lateral surface) have an incline running inwards or downwards, seen from the road surface, for easier removal after the overrolling. In the middle of the rolling body 18 or the plate 64 there is a hole which serves to remove the rolling body after the rolling. Under the roll plate 64 a, the thick-walled pipe 64 a is attached centrally, the outer diameter or cross section of which corresponds to that of the post 5 , but is slightly smaller. Before rolling over, the device is inserted into the ground foundation from above and is fixed there by its shape and its own weight.

Fig. 11 shows a foundation bridge 2 , the extension of which consists of an upper and a lower fastening flange 27 and a guidance of the flanges by tubes sliding into one another, namely an inner tube 65 and an outer tube 66 , has. The crumple effect is achieved by pressing a squeeze tube 36 .

The crumple height corresponds to the height to be pressed in the road surface plus a security amount. At the bottom BEFE stigungsflansch 27 a spherical base 54 is screwed on.

Fig. 12 shows a foundation bridge 2 , the extension of which is a resilient rubber-metal oscillating element 55 . The element 55 is designed so that it withstands the pressure, bending and torsional forces that occur in normal operation and, in the event of overloading of the foundation, a shifting of the basic foundation and the position of the foundation bridge are met by deformation. After the tension has been removed by digging up and realigning the foundation bridge and the base foundation, the element 55 returns to its old shape and position. Fig. 12 shows such an element 55 in the state of the overloaded and bent floor foundation.

REFERENCE SIGN LIST

1

Floor foundation

2nd

Foundation bridge

3rd

Basic foundation

4th

Head foundation

5

post

6

Upper tube part

7

Lower pipe part

8th

Lower sleeve

10th

ground

11

Fastening screw

12th

Adjusting nut

12th

a set screw

12th

b Lock nut

13

ring

14

Open body

15

Earth's surface

16

Cover plate

17th

Shim

17th

a holes

17th

b breakthrough

18th

Rollover body

19th

Circular cross section

20th

Spacers

22

hole

23

Target bending point

25th

Threaded sleeve

26

Threaded rod

27

Mounting flange

27

a screws

28

Sliding tube

29

Base pipe

30th

Transition slope

31

a threaded bush

31

b ramming and filling opening

31

c opening

32

Demolding slope

34

pipe

35

Crumple element

36

Squeeze pipe

37

tunnel

38

Basic foundation, mixed form

39

Basic foundation, trapezoidal shape

40

Basic foundation, elliptical

41

electric wire

42

Threaded sleeve

43

Tension ring

44

Contact area

45

Warts

46

cylinder

47

attack

48

Threaded pipe

49

Adjusting screw

50

Basic foundation (slab)

51

Foundation (bridge)

52

Foundation (ellipsoid)

53

Basic foundation (+ hexagon)

54

Foundation (ball)

55

Vibrating element

56

Constriction

57

Upper sleeve

58

ground

59

Protective sleeve

60

Lower end

61

Head area

62

notch

63

Extension rod

64

a Roll-over plate

64

b Centering tube

65

inner tube

66

outer tube

67

hole

68

Formations
A Installation depth of the upper edge of the foundation
B required installation depth mullion
D post diameter

Claims (23)

1. Stampable ground foundation with a tubular receptacle for the post, at the upper end of which there is a clamping device for the post which can be operated from above, at the lower end of which a stop for the post is provided and on the outside of which a foundation block is fastened, characterized in that that

• - The floor foundation ( 1 ) is formed in three parts in its height, the foundation block in a top foundation ( 4 , 13 , 14 ) and a foundation foundation ( 3 , 50 , 51 , 52 , 53 , 54 ) is divided, which are arranged axially offset are,
• - The tubular post receptacle is extended at its one lower end, overall forming an at least one-piece foundation bridge ( 2 ), at the lower end of which the foundation foundation ( 3 , 50 , 51 , 52 , 53 , 54 ) is attached and on the latter the top foundation ( 4 ) is arranged at the top,
• - The top foundation ( 4 ) has a contact surface ( 44 ) which is not above the earth's surface ( 15 ) but is open towards the air space, and
• - The base foundation ( 3 , 50 , 51 , 52 , 53 , 54 ) has at its top edge an installation depth (A) which is greater than the necessary immersion depth (B) of the post ( 5 ).

2. Floor foundation according to claim 1, characterized in that the sum of the volumes of the top foundation ( 4 ) and the base foundation ( 3 , 50 , 51 , 52 , 53 , 54 ) is smaller than the volume of a one-piece conventional foundation block. 3. Floor foundation according to claim 1, characterized in that the foundation bridge ( 2 ) consists of two axially displaceable adjustable parts. 4. Floor foundation according to claim 3, characterized in that the one part has a central threaded column ( 26 ) which projects into the upper, a threaded sleeve ( 25 ) having part. 5. Floor foundation according to claim 3, characterized in that the two parts are concentrically guided tubes, an upper sliding tube ( 28 ) in a lower base tube ( 29 ) is slidably held. 6. Floor foundation according to claim 5, characterized in that between the base tube ( 29 ) and sliding tube ( 28 ) an adjusting ( 49 ) and / or a Stellvorrich device ( 12 a, 12 b) are provided. 7. Floor foundation according to claim 6, characterized in that as an adjusting device on the base tube ( 29 ) at least one lower sleeve ( 8 ) with internal thread BEFE Stigt and aligned with the axis on the sliding tube ( 28 ) as an insertion tube formed upper sleeve ( 57 ) is attached to the bottom ( 28 ), which are connected via an adjusting screw ( 12 a). 8. Floor foundation according to claim 6, characterized in that at least one threaded tube ( 48 ) with an adjustment screw guided therein ( 49 ) is provided on the upper sliding tube ( 28 ), which with a on the base tube ( 29 ) before seen axial stop ( 47 ) cooperates. 9. Floor foundation according to claim 7, characterized in that there is an adjusting nut ( 12 b) between the lower sleeve ( 8 ) and the upper sleeve ( 57 ) on the adjusting screw ( 12 a). 10. Floor foundation according to claim 1, characterized in that the top foundation ( 4 ) in the lower region to the foundation bridge ( 2 ) facing, conically tapering transition bevel ( 30 ). 11. Floor foundation according to claim 1, characterized in that the head foundation ( 4 ) is designed as an open body ( 14 ) or as a closed ring ( 13 ) and has filling and ramming openings ( 31 ). 12. Floor foundation according to claim 1, characterized in that the surface of the top foundation ( 4 ) lies at least by the thickness of a cover plate ( 16 ) below the earth's surface ( 15 ). 13. Floor foundation according to claim 12, characterized in that the cover plate ( 16 ) is provided with a draft angle ( 32 ) and that between the surface of the head foundation ( 4 ) and the cover plate ( 16 ) from the same washers ( 17 ) can be fastened. 14. Floor foundation according to claim 1, characterized in that the surface of the head foundation ( 4 ) with a rollover ( 18 ) can be covered. 15. Floor foundation according to claim 1, characterized in that the base foundation ( 3 ) is spherical in wesentli Chen or has the shape of an ellipsoid with the horizontal longitudinal axis. 16. Floor foundation according to claim 1, characterized in that the foundation bridge in the lower loading area ( 7 ) consists of at least one eccentrically arranged spacer ( 20 ) and that the base foundation ( 50 ) has a central hole ( 22 ). 17. Floor foundation according to claim 1, characterized in that the foundation bridge in the lower loading area ( 7 ) has a central rod ( 63 ) and two flanges ( 27 ) fastened on each end, the rod ( 63 ) being a predetermined bending point ( 23 ) owns. 18. Floor foundation according to claim 1, characterized in that the foundation bridge ( 2 ) in the lower region ( 7 ) has a rubber-metal oscillating element ( 55 ). 19. Floor foundation according to claim 1, characterized in that the foundation bridge ( 2 ) in the lower region ( 7 ) from a vertically downward deformable crushable element ( 35 ) is formed, with two slidable tubes ( 65 , 66 ) Form a guide around which a corrugated squeeze tube ( 36 ) is arranged concentrically. 20. Floor foundation according to claim 1, characterized in that the base foundation ( 51 ) has at least one horizontal tunnel ( 37 ). 21. Floor foundation according to claim 1, characterized in that the base foundation ( 3 , 50 , 51 , 52 , 53 , 54 ) at the lower end of the foundation bridge ( 2 ) is exchangeably attached. 22. Floor foundation according to claim 1, characterized in that the extension interchangeably is increasing. 23. Floor foundation according to claim 1, characterized in that the basic foundation and the head funn then made of concrete, steel, cast iron, sheet metal, aluminum, wood or Recycled material or other pourable or mecha nisch editable material are made.