DE102004031198A1 - Material processing method for e.g. canal construction involves placing sheeting over material placed in channel on ground - Google Patents

Abstract

Material, which may be transported e.g. by ships or in unreeling containers, is placed in a channel on the ground. A sheeting is placed over the material. Protection such as stakes and planting seeds are provided over the sheeting.

Description

With This patent is a process for / for processing, transport and processing of materials using a developed equipment in the field the sewer construction (revetment) as well as in the slope protection and in the area secured / patented by the mining industry.

Important in these applications (sewer construction, slope stabilization and mining) it is that the material in the application areas to be introduced all cavities fills. This must make it possible be that the material without interruption and break with high pressure and great power is installed or pressed, so to speak. This requires a material 100% consistent consistency, that means this material to be introduced must be constantly flowing and have no parallel differences in terms of components in the same volume. In particular, care must be taken that same Shares of water and material are present and up to the shoring always mixed. Would that would not be the case in the construction of the material can not be guaranteed that all cavities filled out can be.

These Condition / need leaves Only reach if the material immediately after mixing without delay is installed. Would This material would not be installed immediately, the mixed state would be back turning back. This means the components of water and material would be back give up their mixing. But this must not happen because with Help of the water the flowability of the material is guaranteed.

Out For this reason, it became necessary to develop a method which these whole conditions are guaranteed. Thus, a plant was created, the the material over sifting out a sieve, e.g. too large grain sizes, Root system, etc., then mix this material with water. As a main formula can be specified there 1/3 water and 2/3 material. After that will the material by means of pumps (for the most part concrete pumps) with the help of hoses or pipes and a self-developed Verbaugerätes installed (See the flow chart for material reconditioning, transport and processing / installation "Drawing 4 in the annex "; self-developed assembly unit "Drawing 11" including enclosed Numbering explanations). This plant is very versatile based on its applications used. For this it is necessary for the smooth direct employment from the water, from the rough terrain as well as from the road the To bring plants directly to the installation site. Because of this, plants can be installed differently. The cheapest application would be in containers, because the containers are universally implementable and therefore versatile. You can but also be firmly mounted. Some suggestions were in the drawing 5 in the annex including the enclosed numbering explanation demonstrated. Thus, the facilities are on both ships, trucks, trailers and Roll-off containers can be mounted or used.

in the Area of the sewer construction (revetment) can be the use of the method best described best with the help of pictorial representations (See drawing 1, drawing 2 and drawing 3 including the enclosed numbering explanation). In these drawings are different Kanalböschungsaufbauten (Cross section of the channel) shown. When installing this material by means of the Verbaugerätes but special needs to be considered. It is necessary, the Verbaugerät so far as possible into the revetment into it The material is not only installed in the upper part of the revetment. With the help of the already mentioned Druckverbauung the material Pressed in and guarantees a complete cavity filling in the Revetment. A pictorial representation is included in drawing 6 the enclosed numbering explanation. The pros and subsequent view of the revetment is shown in the drawing for illustrative purposes 10 "part drawing 1 + part drawing 2 "included the enclosed numbering explanation has been clarified.

One Another application of the method including the Verbaugerätes is the slope protection. In this application, wooden pegs are struck into the existing embankment, the have the task of holding the topsoil to be applied. Graphical Explanations Please refer to drawing 8 of the annex including the part drawing 1-3 and the enclosed numbering explanation. The pictorial representation of the Verbaus is shown in drawing 7 in the annex including the enclosed numbering Explanation seen.

It must also be pointed out that when installing materials in the area of the sewer construction (revetment) and also in the area of the slope protection, the material must not be removed flat, but must have rough unevenness. This prevents eg mixed seeds in the material (eg topsoil) from being washed out or washed away. Other peculiarities of the rough surface unevenness are that during rainfall, water has time to collect on embankments to penetrate the slope surface. This is necessary so that the soil does not dry out and that the necessary plant growth can flourish for a permanent slope protection.

One Another application is the filling of cavities in the Area of mining. This is necessary again and again, because old Collapse of mine tunnels and threats for human and cause animal. But here it is necessary in certain cases become the manual installer to be replaced by a remote controlled device, so that the danger to the persons in the Area of the Verbaus is kept low. Furthermore, in this Scope of application to note that 90% of the to be filled Cavity - like already described in the two previous application areas - filled and the material is worked up. In the last 10% of the material has the Product Füma (product name, e.g., 4702, 4701). This Material has the task / function / property to swell after the installation of the material all cavities fill. Thus it can be guaranteed that no cavities after there are more and less vulnerable areas and no longer endangered areas Collapse are threatened (see drawing 9 including enclosed Numbering explanation).

Explanatory notes to drawing 1:

1

Versickerungsmulde

2

3

Boden aufgefüllt

4

abgestufter Kornfilter nach MAK

5

Betriebsweg (in diesem Fall wie folgt aufgebaut)

– 1 cm Deckschicht, Splitt 2/5 mm

– 10 cm Schotterrasen (15% Oberboden; 85% Schotter 32/45 mm)

– 15 cm Tragschicht, Schotter 0/45 mm

6

Knickpunkt zur Verjüngung des Deckwerkes

7

Abschluss Deckwerk

8

Beginn des zu verfüllenden Deckwerkes mit Oberboden

9

loses Deckwerk (Schüttsteine in diesem Fall Klasse II)

10

Vollverguss

11

Geotextiler Filter

12

Hohlräume im Deckwerk mit Oberboden ausgefüllt mittels des zu patentierenden Verfahrens

13

Wasserstand im Kanal

(Cross section in the channel)

1

depression in

2

3

Soil filled up

4

Graded grain filter according to MAK

5

Operating path (in this case constructed as follows)

- 1 cm top layer, chippings 2/5 mm

- 10 cm gravel grass (15% topsoil, 85% gravel 32/45 mm)

- 15 cm base course, gravel 0/45 mm

6

Kink point for the rejuvenation of the revetment

7

Completion revetment

8th

Beginning of the revetment to be filled with topsoil

9

loose revetment (Schüttsteine in this case class II)

10

Full Encapsulation

11

Geotextile filter

12

Cavities in the revetment filled with topsoil by means of the patented process

13

Water level in the canal

Explanatory notes to drawing 2:

1

10 cm Oberbodenabdeckung

2

mit Boden verfüllen

3

obere Böschungskante vom Kanal

4

Hohlräume im Deckwerk mit Oberboden ausgefüllt mittels des zu patentierenden Verfahrens

5

Beginn des zu verfüllenden Deckwerks mit Oberboden

6

Betriebsweg (in diesem Fall wie folgt aufgebaut)

a. 1 cm Deckschicht Splitt 2/5 cm

b. 10 cm Schotterrasen (15% Oberboden; 85% Schotter 32/45 mm)

c. 15 cm Tragschicht 0/45 mm

7

5 cm Oberbodenabdeckung

8

2 stufiger ungebundener Kornfilter

9

Loses Deckwerk Schüttsteine K1. II

10

Wasserstand im Kanal

11

Abschluss Deckwerk

12

Knickpunkt zur Verjüngung des Deckwerkes

Cross-section in the channel)

1

10 cm top cover

2

fill with soil

3

upper slope edge of the canal

4

Cavities in the revetment filled with topsoil by means of the patented process

5

Beginning of the revetment to be filled with topsoil

6

Operating path (in this case constructed as follows)

a. 1 cm cover layer chippings 2/5 cm

b. 10 cm gravel grass (15% topsoil, 85% gravel 32/45 mm)

c. 15 cm base layer 0/45 mm

7

5 cm top cover

8th

2-stage unbound grain filter

9

Loose revetment of loose stones K1. II

10

Water level in the canal

11

Completion revetment

12

Kink point for the rejuvenation of the revetment

Explanation to drawing 3:

1

Verankerung

2

Ein- oder zweistufiger Kornfilter nach MAK

3

Spundwand

4

Geotexfiltermatte

5

6

Spundwandoberkante

7

Holm

8

Oberkante Holm

9

Loses Deckwerk Klasse II auszufüllen mit Oberboden mittels des zu patentierenden Verfahrens

10

Oberkante Böschung

11

Oberboden mittels patentierten Verfahren aufgebracht

12

Oberboden mittels patentierten Verfahren aufgebracht

13

Wasserstand im Kanal

(Cross section in the channel)

1

anchoring

2

One or two-stage grain filter according to MAK

3

bulkhead

4

Geotexfiltermatte

5

6

Sheet piling top

7

Holm

8th

Top edge spar

9

Complete revetment class II filled with topsoil by means of the patented process

10

Top edge of embankment

11

Topsoil applied by patented process

12

Topsoil applied by patented process

13

Water level in the canal

1

Technik zur/zum Materialaufarbeitung, -transport und -verarbeitung/-einbau verbaut auf einem Glattdeckleichter

2

Technik zur/zum Materialaufarbeitung, -transport und -verarbeitung/-einbau verbaut auf einem Sattelauflieger

3

Technik zur/zum Materialaufarbeitung, -transport und -verarbeitung/-einbau verbaut auf einem Drehschemelanhänger

4

Technik zur/zum Materialaufarbeitung, -transport und -verarbeitung/-einbau verbaut auf einem Vierachsfahrgestell (Nach StVZO Gesamtzuggewicht maximal 32 to.)

5

Technik zur/zum Materialaufarbeitung, -transport und -verarbeitung/-einbau verbaut auf einem Lkw (zwei- oder dreiachsig) variabel auf Baustellenfahrzeugen „Altrad" oder normalen Straßenlastkraftwagen)

6

Technik zur/zum Materialaufarbeitung, -transport und verarbeitung/-einbau verbaut auf einem

Abrollcontainer

Explanation to drawing 5:

1

Technology for material processing, transport and processing / installation installed on a smooth flat roofer

2

Technology for material reconditioning, transport and processing / installation installed on a semi-trailer

3

Technique for material processing, transport and processing installed on a turntable trailer

4

Technique for / material processing, transport and processing / installation installed on a four-axle chassis (according to StVZO gross vehicle weight maximum 32 tons.)

5

Technology for material reconditioning, transport and processing / installation mounted on a truck (two- or three-axle) variable on construction vehicles "Altrad" or normal road trucks)

6

Technology for / material processing, transport and processing / installation installed on one

abrollcontainer

Explanation to drawing 6:

1

arbeitende Person

2

Schlauch oder Rohr für die Materialzuführung des aufgearbeiteten Materials

3

Einbau/Verbaugerät für das aufgearbeitete Material

4

Verbautes aufgearbeitetes Material

5

Deckwerk im Kanalbau (Schüttsteine Klasse 2)

(Shoring of reclaimed or processed material with the help of a developed equipment in the area of the revetment "sewer construction")

1

working person

2

Hose or tube for the material supply of the reclaimed material

3

Installation / removal unit for the reclaimed material

4

Deployed refurbished material

5

Revetment in sewer construction (Schüttsteine class 2)

Explanatory notes to drawing 7:

1

Schlauch oder Rohr für die Materialzuführung des aufgearbeiteten Materials

2

Einbau/Verbaugerät für das aufgearbeitete Material

3

Verbautes aufgearbeitetes Material (Oberboden)

4

Profil der vorhandenen Böschung, die gesichert werden muss (vor dem Abrutschen)

5

Holzpflöcke zum Halten des aufgebrachten Materials

6

Arbeitende Person

(Installation of reclaimed or processed material with the help of a developed equipment in the field of slope attachment)

1

Hose or tube for the material supply of the reclaimed material

2

Installation / removal unit for the reclaimed material

3

Used refurbished material (topsoil)

4

Profile of the existing embankment, which must be secured (before slipping)

5

Wooden pegs for holding the applied material

6

Working person

Teilzeichnung 1 = Draufsicht auf die Böschungsschräge mit Holzpflöcken. Die Anzahl der Holzpflöcke richtet sich nach der Schräge der Böschung. Somit variiert die Anzahl der einzubauenden Holzpflöcke zwischen 8 und 20 Stück/m².

1

Oberkante der zu sichernden Böschungsebene

2

Holzpflöcke (je m² zwischen 8 und 20 Stück)

Teilzeichnung 2 = Querschnitt der zu sichernden Böschung mit Holzpflöcken.

3

Böschungsfläche

4

Holzpflöcke

Teilzeichnung 3 = Querschnitt der zu sichernden Böschung mit Holzpflöcken und aufgebrachten Oberboden

5

aufgebrachter Oberboden mittels Verbaugerät (es ist darauf zu achten, dass eine Deckung oberhalb der Holzpflöcke von mindestens 5cm erforderlich ist und die Holzpflöcke in der Böschung um mindestens 15cm versenkt sind und mindestens 10cm aus der Böschung zum Halten des Oberbodens noch herausschauen.

6

Böschungsfläche

7

Oberfläche des aufgebrachten Oberbodens (nicht eben, sondern stark aufgeraut, damit sich Wasser bilden kann und in das Erdreich versickern kann bei Niederschlag)

8

Oberkante der herausschauenden Holzpflöcke

9

Fläche auf dem der Oberboden aufgetragen wird

10

Holzpflöcke

Explanation to drawing 8:

Partial drawing 1 = top view of the slopes with wooden pegs. The number of wooden pegs depends on the incline of the embankment. Thus, the number of wooden pegs to be installed varies between 8 and 20 pieces / m ² .

1

Top edge of the embankment level to be secured

2

Wooden pegs (per m ² between 8 and 20 pieces)

Partial drawing 2 = Cross section of the embankment to be secured with wooden pegs.

3

slope face

4

wooden stakes

Partial drawing 3 = Cross section of the embankment to be secured with wooden pegs and applied topsoil

5

Applied topsoil by means of an installer (make sure that a cover above the wooden pegs of at least 5cm is required and the pegs are sunk in the embankment by at least 15cm and still at least 10cm from the embankment to hold the top floor still look out.

6

slope face

7

Surface of the applied topsoil (not flat, but heavily roughened, so that water can form and seep into the soil during precipitation)

8th

Top of the outward looking wooden pegs

9

Surface on which the topsoil is applied

10

wooden stakes

Explanation to drawing 9:

1

Schlauch bzw. Rohr zum Transport des aufgearbeiteten Materials

2

Anlage zur Aufarbeitung und Verarbeitung des zu verfüllenden Materials

3

Bebauung

4

Zu verfüllender Hohlraum (90% des zu verfüllenden Hohlraumes)

5

Bebauung

6

Zu verfüllender Hohlraum, dem zu verfüllenden Material wird das Produkt Fyma beigefügt (Produktbezeichnung, z.B. 4702, 4701). Dieses Material hat die Aufgabe, aufzuquellen, um nach dem Verbau des Materials sämtliche Hohlräume auszufüllen. Somit wird garantiert, dass keinerlei Hohlräume mehr vorhanden sind und gefährdete Gebiete nicht mehr vom Einsturz bedroht sind.

7

Bebauung

8

Bepflanzung

(Cross section of cavity fillings in the area of mining)

1

Hose or tube for transporting the reclaimed material

2

Plant for processing and processing of the material to be filled

3

building

4

Cavity to be filled (90% of the cavity to be filled)

5

building

6

To be filled cavity, the material to be filled is the product Fyma attached (product name, eg 4702, 4701). This material has the task of swelling to fill after filling the material all cavities. This guarantees that no cavities are left and endangered areas are no longer threatened by collapse.

7

building

8th

planting

Teilzeichnung 1 = Deckwerk (beim Kanalbau) vor der Verfüllung

1

Schüttsteine Klasse 2

2

Unterbau

Teilzeichnung 2 = Deckwerk nach der Verfüllung/Verpressung mit Oberboden oder Beton

3

Schüttsteine Klasse 2

4

Verfülltes/verpresstes Material

5

Unterbau

Explanation to drawing 10:

Partial drawing 1 = revetment (during sewer construction) before backfilling

1

Schüttsteine class 2

2

substructure

Partial drawing 2 = revetment after backfilling / grouting with topsoil or concrete

3

Schüttsteine class 2

4

Backfilled / pressed material

5

substructure

Explanatory notes to drawing 11:

1

Schlauch/Rohr zur Materialzuführung

2

Haltegriffe für Person zum halten des Gerätes

3

Schlauch

4

Haltegestell

5

Versteifungsgestell

6

Verbindungsschellen

Verbaugerät)

1

Hose / tube for material supply

2

Handles for person to hold the device

3

tube

4

holding frame

5

stiffening frame

6

connection clamps

Claims (1)

Process for reprocessing, transport and processing of materials with the help of a developed installer in the area of the sewer construction / revetment, on the slope protection and in the field of mining, characterized by the following features: 1. Process for material processing, transport and shoring Second Shoring / processing by Verbaugerät 3. Plant installation on Ships, trucks and roll-off containers 4. use in the fields, e.g. Sewer construction, slope protection, Mining 5. Addition of additional materials 6. Additional aids at the slope protection / sewer construction (e.g., wooden pegs, Planting seed)