EP3592909A2

EP3592909A2 - Trenching unit, trenching body and insert

Info

Publication number: EP3592909A2
Application number: EP18717225.9A
Authority: EP
Inventors: Ramon Bhatia; Jan Mieze
Original assignee: ACO Severin Ahlmann GmbH and Co KG
Current assignee: ACO Ahlmann SE and Co KG
Priority date: 2017-03-09
Filing date: 2018-03-07
Publication date: 2020-01-15
Anticipated expiration: 2038-03-07
Also published as: WO2018162530A3; DE102017105002A1; AU2018229753B2; US20200056361A1; PL3592909T3; US10808391B2; WO2018162530A2; EA201992085A1; AU2018229753A1; CN110382795A; EP3592909B1

Abstract

The invention relates to a trenching unit comprising at least two trenching bodies (10a, 10b) which respectively comprise an upper base plate (11), a lower base plate (12) and hollow columns (13a, 13b) which are arranged vertically between the base plates (11, 12) and form column openings (14) in the base plates (11, 12). The lower base plate (11) of one of the trenching bodies (10a) and the upper base plater (12) of the other trenching body (10b) are placed on top of each other such that the column openings (14) of both placed base plates (11, 12) are arranged concentrically. The invention is characterised in that the trenching bodies (10a, 10b) are connected by at least one insert (15) which comprises a bearing surface (16) and two insert profiles (17a, 17b) which are arranged on both sides of the bearing surface (16) and are connected thereto. The bearing surface (16) is mounted between the placed base plates (11, 12) and the insert profiles (17a, 17b) are inserted in two concentrically mounted column openings (14) of the placed base plates (11, 12).

Description

Rigoleneinheit, Rigolenkörper and insert

description

The invention relates to a trench unit with the features of the preamble of claim 1. Such a trench unit is known for example from DE 10 2009 044 412 AI. The invention further relates to a trench body and a

Insert for a trench unit.

It is known to use rigging systems for dewatering surfaces, wherein the water to be discharged passes through the surface in the trench system and is discharged from there, for example in a sewage treatment plant. To this end, rigging systems have trench bodies whose boundary walls

are permeable to water. The stability of the rigging systems is determined by the columns or pylons arranged inside the trench bodies, which connect the base plates of the trench body with one another. In practice, trench bodies are stacked on top of one another to achieve sufficient drainage depth. It is important that the stacked trench body give the system overall sufficient stability.

The object of the invention is to specify a trench unit which, even with larger dimensions of the trench unit, i. in at least two stacked triggers, is sufficiently stable. The invention is further based on the object to provide a trench body and an insert for a trench unit.

According to the invention this object is achieved by the rigging unit according to claim 1. With regard to the trench body and the insert for a

Trench unit, the object is achieved by the independent claims 14, 15.

In particular, the object is achieved by a trench unit with at least two trench bodies, each having an upper base plate, a lower Have base plate and hollow columns. The hollow columns are arranged vertically between the base plates and form column openings in the

Baseplates. The lower base plate of one trench body and the upper base plate of the other trench body rest on one another such that the column openings of the two resting base plates are arranged concentrically. The trench bodies are connected by at least one insert having a support surface and two male profiles, which are arranged on both sides of the support surface and connected thereto. The support surface is arranged between the resting base plates. The male profiles are inserted in two concentrically arranged column openings of the resting base plates.

The invention has the advantage that the stability of the trench unit is improved. This makes it possible to stack a virtually any number of trench body on top of each other, without the risk that the trench body slip relative to each other. The invention forms an anti-slip device so that the lateral forces acting on the trench unit are reliably dissipated, without the trench bodies slipping. It is thus possible to vary the height of the trench unit in order to increase the dewatering performance of the trench unit.

Preferred embodiments of the invention are specified in the subclaims.

Thus, the male profiles can be inserted positively into the column openings.

The Einsteckprofile can be at least partially symmetrical, in particular completely symmetrical. As a result, on the one hand, the production is simplified. On the other hand, the male profiles can be used in both directions. A faulty installation of the Einsteckprofile is practically impossible because both sides of the insert fit into both the upper and in the lower base plate.

In a preferred embodiment, the Einsteckprofile each have a plurality of plug blocks. The plug-in blocks can be in different

Oriented directions to have a corresponding support effect in these To achieve directions. The arrangement of the plug blocks is arbitrary, as long as an insertion profile results, which can be positively connected to the concentrically arranged column openings of the resting base plates.

Preferably, the plug blocks are arranged in a cross shape. This increases the stability of the trench unit in the main load directions.

The plug blocks may each have reinforcing ribs which are arranged in a cross shape. The combination with the cross-shaped plug blocks results in a double cross-shaped configuration, whereby the stability of the trench unit is further increased.

In a preferred embodiment, the male profiles each

Contact surfaces, which adjoin the inside of the hollow columns to form the positive connection, wherein the contour of the contact surfaces is adapted to the contour of the inside of the hollow columns. In this way, area forces can be transmitted to the hollow columns on the inserts, whereby the force application and thus the stability of the trench unit is improved.

Preferably, the contour of the contact surfaces is wave-shaped. It has been shown that a particularly stable hold is achieved in accordance with wavy inner profile of the hollow columns.

The bearing surface of the insert may be formed substantially in the shape of a ring whose outer diameter is greater than the diameter of the column openings. This embodiment has the advantage that the

Insert is fixed by the weight of the upper trench body.

Preferably, the plug blocks are connected to the ring and thus fixed in the radial direction. In addition, the plug blocks can be connected to each other both in the radial and in the axial direction of the insert, whereby the stability of the insert is increased.

In a further preferred embodiment, several insert pieces

connected to each other, wherein the position of the inserts corresponds to the position of the column openings. This embodiment improves the handling of the Insert pieces, because several individual pieces at the same time with different

Column openings can be connected. It is therefore not necessary to align the individual inserts and to connect separately with individual column openings.

In the context of the invention, the insert for the trench unit with at least two trench body is taken alone, i. independently disclosed and claimed by the trench unit. It will also be part of the

Invention discloses and claims a trench body, wherein the insert covers at least one column opening in the upper base plate to form a continuously accessible area.

In contrast to the insert with arranged on both sides of the support surface Einsteckprofile the above insert is not intended for connecting two trench body, but for covering a column opening. Accordingly, the top of the insert is flat to allow unobstructed boarding of the top of the trench body. For this purpose, the insert only a single male profile, which in the

Column opening is inserted and has arranged in a cross-shaped plug-in blocks, which are aligned with main ribs of the upper base plate in at least two perpendicular to each other extending directions.

The aligned arrangement has the advantage that introduced into the reinforcing ribs forces are optimally introduced into the main ribs of the upper base plate. Conversely, the same applies. Thus, the stability of the trench body is improved by the insert. The aforesaid aligned

Arrangement of the plug blocks is also disclosed and claimed in connection with the insert for connecting two trench bodies.

The invention will be explained in more detail by means of embodiments with reference to the accompanying figures with further details.

In this show

Fig. 1 is a perspective view of a lower base plate for a

Rigolenkörper with several hollow columns; Fig. 2 is a perspective view of an upper base plate for a

Rigolenkörper with several hollow columns, which is connectable to the base plate of Figure 1 to a trench body.

3 is a perspective view of several inserts according to an embodiment of the invention, which is used to connect a plurality, in particular two trench body.

4 is a plan view of an insert according to FIG. 3;

5 shows a cross section through two trench bodies attached to the

Base plates are connected by an insert;

Fig. 6, the trench body according to Figures 1, 2 and the inserts after

Figure 3 when connecting the base plates;

Fig. 7 is a section through the upper base plate with only a single

Insert profile for covering the column opening; and

Fig. 8 is a plan view of the upper base plate of a trench body with several inserts, in which a plug-in blocks and the main ribs of the base plate are aligned.

In the following description, the same reference numerals are used for identical and equivalent parts.

The base plates 11, 12 shown in Figures 1, 2 form the

Basic elements of a trench body. The trench body is a box-shaped body with grid-like boundary surfaces through which water can flow into the trench body. The trench body can be wrapped in a known manner with a geotextile to prevent the penetration of sediments into the trench system.

A composite of such Rigolenkörpern rigidity system serves as a block storage for rainwater and other than

Block infiltration of rainwater. The basis of this system are the identical base plates illustrated in FIGS Can be combined with each other. The upper base plate 11 is located in the installed state of the trench system above and the lower base plate 12 below. The base plates each have hollow columns 13a, 13b, which extend perpendicular to the base plates 11, 12 and are connected thereto. The hollow columns 13a, 13b form spacers, which define the distance of the base plates 11, 12 to each other. For this purpose, the hollow columns 13a, 13b are attached with their free ends to one another. The hollow columns 13a, 13b, also called pylons, are cone-shaped, wherein the smaller cross-sectional opening the free end and the larger cross-sectional opening with the respective

Base plate 11, 12 connected end of the respective hollow column 13 a, 13 b form. The hollow columns 13a, 13b form column openings 14 in the respective base plate 11, 12, as can be clearly seen in FIG.

In order to increase the height of the trench system, it is common that several layers of trench bodies 10a, 10b are stacked on one another (see Fig. 5). In this case, a lower base plate 12 of the upper trench body 10a comes with an upper base plate 11 of the underlying trench body 10b in Appendix.

At this point, the invention begins, which, as shown with reference to the embodiment of FIG. 3, improves the connection between the stacked trench bodies 10a, 10b.

For this purpose, an insert 15 is provided, which is shown in Figures 3, 4. The insert 15 has a support surface 16 and two male profiles 17a, 17b. As can be clearly seen in FIGS. 3 and 5, the insertion profiles 17a, 17b are arranged on both sides of the support surface 16. In other words, the support surface 16 is located between the upper male profile 17a and the lower male profile 17b. The male profiles 17a, 17b are to

designed to accommodate the horizontal loads occurring in the (main) directions parallel to the base surfaces of the basic bodies 11, 12. For this purpose they have a cross-shaped structure with ribs, which follows the corresponding ribs of the base plates 11, 12. The support surface 16 extends in the circumferential direction between the Einsteckprofilen 17a, 17b. In addition, the support surface 16 projects radially beyond the insertion profiles 17a, 17b. This makes it possible that the support surface 16 rests on the upper side of the respective base plate 11, 12 and which is fixed by the upper trench body by its weight. The insertion profiles 17a, 17b are symmetrical and each have a plurality of plug blocks 18. The plug blocks 18 serve to produce the positive connection to the hollow columns 13 a, 13 b or column openings 14. The plug-in blocks 18 each have walls 23 which limit the plug-in blocks 18 laterally. As shown in Fig. 4, the plug blocks 18 are arranged in a cross shape, wherein four plug blocks 18 are arranged around a central plug block 18 around. Other arrangements of the plug blocks 18 are possible. The plug blocks 18 are formed substantially cuboid. Other geometry of the individual plug blocks 18 are possible.

The end faces of the plug blocks 18, i. The free ends of the plug-in blocks 18 each have a contact surface 20, which rests in the installed state on the inner wall or on the inner side 21 of the respective hollow column 13a, 13b (see FIG. 5). Specifically, the contact surfaces 20 are formed wave-shaped. Again, other geometry is possible. Advantageously, the contact surfaces 20 extend beyond the plug blocks 18 so that a surface pressure in the area between the contact surfaces 20 and the inner sides 21 of the hollow columns 13a, 13b can be reduced. In this way, the occurring horizontal forces can be transmitted as area load instead of line load. By transferring the horizontal forces as a surface load instead of a line load, larger forces can be transmitted.

Between the walls 23 of the plug blocks 18 are first and second

Reinforcing ribs 19a, 19b arranged in a cross shape.

The support surface 20 is formed in the embodiment of Figures 3, 4 as a ring 22, whose outer diameter is slightly larger than the diameter of the column openings 14. This ensures that the support surface 16 can rest on the respective base plate 11, 12 when the insert 15 is inserted into the opening 14. The annular bearing surface 20 may have one or more recesses to be used in packaging, for. B. on a pallet to provide guides for packaging tapes. The ribs of the Einsteckprofile have complementary recesses or elevations on to a

simplified stacking of multiple inserts 15 to allow.

The inner diameter of the ring 22 corresponds approximately to the inner diameter of the hollow columns 13a, 13b. As shown in Fig. 3, four identical inserts 15 are combined into a continuous composite, wherein the inserts 15 are interconnected by webs. The composite can be mounted uniformly. The individual inserts 15 are elastically connected to each other to compensate for any tolerances of the body as such or the body in the installation situation.

In Fig. 5 can be clearly seen that the lower base plate 12 of the upper

Rigolenkörpers 10a is connected to the upper base plate 11 of the lower trench body 10b. The connection is made by the one described above

Insert 15, which is arranged in the column opening 14. In this case, the contact surface 20 of the plug block 18 abuts against the inner wall 21 of the lower hollow column 13b. The two base plates 11, 12 are fixed in position and can not slip due to the insert 15. About the height of the insert 15, the degree of engagement with the respective hollow columns 13a, 13b are varied, with increasing height of the conicity of the hollow columns 13a, 13b is taken into account.

As shown in Fig. 6, before connecting the trench body the

Inserted pieces 15 in the column openings 14, so that the

Inserting profiles 17a with the column openings 14 and the hollow columns 13a engage (left illustration in Fig. 6). Then, another base plate, in the example shown in FIG. 6, the lower base plate 12 of the upper trench body 10 a placed on the inserts 15. For this purpose, the column openings 14 of the two base plates 11, 12 are aligned concentrically with one another. The

Overall orientation of the two base plates 11, 12 is determined by the position of the inserts 15 precise and secure.

In Fig. 7 is an alternative to acting as a connector

Insert 15 shown. In this insert 15 is a cover in which the insert 15 has only a single male profile 17a with sockets 18 on the underside. The side walls 23 of

Plug blocks 18 are aligned with the main ribs 24 of the base plate (see Fig. 8). Concretely, the walls 23 are aligned in two mutually perpendicular

Directions, so that maximum stability in the

Main load directions. The arrangement of the walls 23 is at both the example of FIG. 7 as well as in the example according to Figures 3 to 6 possible.

The aligned arrangement is shown in Fig. 8, in which virtual lines along the main ribs 24 are drawn. It follows that the walls 23 are aligned with the main ribs 24 in both main directions of the base plate 11.

LIST OF REFERENCE NUMBERS

10a first trench body

10b second trench body

11 upper base plate

12 lower base plate

13a upper hollow column

13b lower hollow column

14 column openings

15 insert

16 contact surface

17a upper insertion profile

17b lower insertion profile

18 plug-in blocks

19a first reinforcing ribs

19b second reinforcing ribs

20 contact surfaces

21 inside of the hollow column

22 ring

23 side walls of the plug blocks

24 main ribs

Claims

claims

1. trench unit having at least two trench bodies (10a, 10b), each having an upper base plate (11), a lower base plate (12) and hollow columns (13a, 13b) which are arranged vertically between the base plates (11, 12) and Column openings (14) in the base plates (11, 12) form, wherein the lower base plate (11) of the one Rigolenkörpers (10 a) and the upper base plate (12) of the other Rigolenkörpers (10 b) rest on one another such that the column openings (14) of the two resting base plates (11, 12) are arranged concentrically, since you nets that net

the trench bodies (10a, 10b) are connected by at least one insert piece (15), which has a bearing surface (16) and two insertion profiles (17a, 17b) which are arranged on both sides of the bearing surface (16) and connected thereto the bearing surface (16) between the resting base plates (11, 12) is arranged and the Einsteckprofile (17a, 17b) in two concentrically arranged

Column openings (14) of the resting base plates (11, 12) are inserted.

2. trench unit according to claim 1

d a d u rc h e ke n ze i c h n et that

the male profiles (17a, 17b) are inserted positively into the column openings (14).

3. rigging unit according to claim 1 or 2

That's why that is

the male profiles (17a, 17b) at least partially symmetrical

are formed.

4. trench unit according to one of the preceding claims

That's why that is

the male profiles (17a, 17b) each have a plurality of plug blocks (18).

5. trench unit according to claim 4

That's why that is

the plug blocks (18) are arranged in a cross shape.

6. trench unit according to claim 4 or 5

That's why that is

the plug blocks (18) each have reinforcing ribs (19a, 19b) which are arranged in a cross shape.

7. trench unit according to one of the preceding claims

That's why that is

the Einsteckprofile (17a, 17b) each have contact surfaces (20) adjacent to the inside (21) of the hollow columns to form the positive connection, wherein the contour of the contact surfaces (20) to the contour of the inner side (21) of the hollow columns (13a , 13b) is adapted.

8. trench unit according to claim 7

That's why that is

the contour of the contact surfaces (20) is wave-shaped.

9. trench unit according to one of the preceding claims

That's why that is

the bearing surface (20) of the insert (15) is formed substantially in the shape of a ring (23) whose outer diameter is greater than the diameter of the column openings (14).

10. trench unit according to claim 9

That's why that is

the plug blocks (18) are connected to the ring (23).

11. trench unit according to one of claims 4 to 10

That's why that is

the plug blocks (18) are interconnected.

12. trench unit according to one of claims 4 to 11

That's why that is

the cross-shaped plug blocks (18) with main ribs of the upper base plate (12) are aligned in at least two mutually perpendicular directions.

13. trench unit according to one of the preceding claims

d a d u r c h e c e n c i n e s that

a plurality of inserts (15) are interconnected, wherein the position of the inserts (15) corresponds to the position of the column openings (13a, 13b).

14. Insert for a trench unit with at least two trench bodies (10a, 10b), each having an upper base plate (11), a lower

Base plate (12) and hollow columns (13a, 13b) which are arranged vertically between the base plates (11, 12) and column openings (14) in the base plates (11, 12), wherein the insert a support surface (16) and two Einsteckprofile (17a, 17b) which are arranged on both sides of the support surface (16) and connected thereto, wherein the Einsteckprofile (17a, 17b) in the hollow columns (13a, 13b) for connecting the trench body (10a, 10b) can be inserted are and the support surface (16) protrudes outwardly beyond the Einsteckprofile (17a, 17b).

15. trench body (10 a) having an upper base plate (11), a lower

Base plate (12) and hollow columns (13a, 13b) which are arranged vertically between the base plates (11, 12) and column openings (14) in the base plates (11, 12), wherein an insert (15) at least one column opening ( 14) in the upper base plate (12) to form a walk-surface covered and a single

Einsteckprofil (17 a) which is inserted into the column opening (14) and arranged in a cross-shaped plug blocks (18) which are aligned with main ribs of the upper base plate (12) in at least two mutually perpendicular directions.