JPS61216926A - Support member and its constitutional element - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

Detailed Description of the Invention <Industrial Application Field> The present invention relates to a support member capable of supporting an axial pressure load and its component G, which can be used as a support in an underground tunnel or the construction industry. .

<Summary of the Invention> According to the present invention, by means of dividing walls made of flexible material,
an extension of flexible material divided into a plurality of compartments along the length of the tube, at least some of which are filled with a granular filling; A support member and components thereof capable of supporting pressure loads are provided.

The support member may be provided with a restraining means that wraps around the outside of the tube to prevent the tube from deforming in a direction transverse to the longitudinal direction of the tube. The restraining means may be provided over the entire length of the tube, or may be provided on a portion thereof, or at several locations thereof. The restraint means is weld mesh (w81d wheel 5ah
), diamond mes
h)-, fencing wire
e), plastic net
ing), plastic mesh as described in South African Patent No. 82/7300.
tic mesh), plastic or metal lobes, or plastic or metal tape. In all cases, the restraining means must prevent deformation of the tube in a direction transverse to its longitudinal direction, especially when the support member is placed under axial pressure loads.

Alternatively, the compartments at the periphery of the tube may be left empty to prevent deformation of the tube in a direction transverse to the length of the tube.

It has been discovered that leaving one or more compartments at the periphery of the tube empty increases the strength of the tube against deformation across the length of the tube.

The flexible material may be any suitable flexible material, such as a plastic material, aluminum foil, paper, aluminum foil coated with aluminum or plastic, or a thin metal sheet. This flexible material is preferably a plastic material. The plastic material may be a conventional plastic material, a two-wheel stretched plastic material, or a woven or non-woven fabric. Suitable plastics include high density and low density polyethylene, polypropylene, styrenic plastics, polyester and polyvinyl chloride.

The extension tube divided into compartments preferably has a honeycomb structure. This structure is described in US Pat. No. 4,478,659, for example.
It can be formed by joining a series of non-metallic sheets by welding them together along their lengths by the method described in the above patent.

The granular fill used to fill the compartment can be sand,
It may be any suitable granular material such as cement, ground bed, granular material including sludge or thriller, slag, ash, riverbed sediment, bentonite, or mixtures of two or more of these.

Some or all of the compartments may contain solid fillers, such as wood, cement or metal columns, with the column or the area around the columns in the compartment being filled with granular material. The filling is filled. Such columns or struts serve to impart rigidity to the support member, especially more so than if all the compartments were filled with granular material.

Example With reference to the drawings, the support member On consists of an extension tube (2) of flexible material divided into a number of compartments or compartments Q41 by dividing walls OI. As can be seen from Figure 2, the extension tube divided into the partitions O has a honeycomb structure. This honeycomb structure is formed by joining sheets of flexible material to each other along the joining line α.

At least some of the compartments α are filled with a powder filler. The support member Ql has a restraint means (c), and the restraint means is a belt made of metal or plastic, and the support member αl is held in a direction (C) transverse to the longitudinal direction (D) of the pipe. It is provided on the outer periphery of the extension tube (2) to prevent it from deforming.

The method for constructing a support member OI for supporting the ceiling in a mine shaft is as follows: First, a pipe (2), which is open at both ends, is connected to the upper end of the pipe (2) and the ceiling (increase). It is placed between the ground (young) and the ceiling + 3m of the tunnel, with a gap of several centimeters between them.

Due to the flexibility of the tube, the tube (2) may initially be
It must be supported by being attached to the ceiling, suspended from the ceiling, or by other suitable means.

When the tube @ is placed, and when the column or column to be used is placed, the granular material filling QII is filled into the compartment α, i.e., when the granular material L2 is pumped. inject.

The granular filling is subjected to vibrations so that it can be sufficiently injected and solidified. Then, the means of restraint (
2. No. 2 is placed around the pipe (b). Thereafter, the gap between the upper end of the support member Ql and the ceiling is filled with something such as a wooden rootstock, wedge, or inflatable platform.

The inflatable platform (34) can also be filled with a granular filling, so that the support member αe is arranged to support an axial pressure load.

The extension tube and dividing wall of the support member of the invention described above are made of a flexible material, which may be plastic, a thin metal sheet, or a layer of one or more of these.

The flexible material is preferably a plastic, which may be a conventional plastic, a biaxially oriented plastic, or a non-woven fabric.

If the flexible material is a non-magnetic material, the extension tube divided into many compartments is preferably formed by the method described in US Pat. No. 4,478,659. Among other things, the patent discloses that two first sheets of non-magnetic material are bonded together along a bond line, and a third sheet of non-magnetic material is bonded to a third sheet of non-magnetic material along the bond line. This is a method of joining. This method converts the third sheet into the first
placing three sheets near a magnet adjacent to the sheet; and placing an object to be attracted by the magnet between the first sheet and the second sheet, so that the first sheet and a third sheet are brought together into the gap between the magnet and the object, together with a second sheet below the object, and passing the first sheet and the third sheet into the gap. In the step of forcing and in the gap,
or the step of joining the third sheet to the first sheet immediately after the third sheet and the first sheet pass through the gap to form a joining line. , the first sheet and the second sheet are joined to each other along two substantially parallel joining lines, and the third sheet is joined between the joining lines of the first and second sheets. It is bonded to the first sheet along an intervening bond line. As a result, a honeycomb structure is formed. If the sheets are of non-woven material, the sheets may be joined together by thermal welding or ultrasonic welding, creating a continuous weld joint line along the length of the sheets. In this way, each compartment of the extension tube of the support member of the present invention is suitably formed from a honeycomb structure of cells formed between two adjacent sheets of material.

Each chamber can be round, square, diamond-shaped, hexagonal,
Alternatively, it can be of any other suitable shape.

The hollow honeycomb structure can be formed by other methods. For example, if the flexible material is paper, the honeycomb structure may be formed by gluing adjacent sheets to each other along the bond line.

The cross-sectional area of each chamber of the honeycomb structure can be varied depending on its use, in which the support member is to be installed. in general,
The individual chambers 100s+w may have a diameter of 1 m or more. When the flexible material is made of flexible plastic material, the diameter is from 50 μm to 500 μm.
It consists of a plastic film with a thickness of μm.

The length of the extension pipe can be, for example, from 1 meter to 1000 meters for the new house.

The flexible material may be provided with minute holes to allow liquid to seep out of the tube, but the granular filling must not escape.

The granular filler used to fill the compartment is sand,
It may be cement, crushed rock, granular material including sludge or chiller such as mine sludge or chiller, slag, ash, river bed sediment, bentonite, other muds, or similar granular material as appropriate.

Additionally, some or all of the compartments may contain solid fillers such as wood, cement or metal pillars or supports, with the area around the pillars or supports within the compartment being filled with granular material. Such columns or struts serve in particular to provide more rigidity to the support member than if all the compartments were filled with granular material.

The restraining means illustrated in Figure 1 of the drawings are provided on only a portion of the tube. However, the restraining means may also be provided throughout the length of the tube. The restraining means illustrated in FIG. 1 is a plastic or metal tape.

However, the restraining means can also be welded mesh, diamond mesh, fencing wire, plastic netting or
It may also consist of plastic mesh or plastics or metal ropes such as those contained in

It is not necessary to use restraint means, especially if the ratio of the diameter of the support member to its height is sufficiently large. For example, if the diameter or width of the support member is eight times the height of the support member, restraint means are generally unnecessary.

Alternatively, the compartment around the tube may be left empty to eliminate the need for restraining means. This serves as a constraint against deformation in a direction transverse to the tube's longitudinal direction.

The support member is highly susceptible to axial pressure loads due to the fact that most or all of the compartments are adjacent to a few other compartments filled with a granular filling. Gain great strength.

This protects the compartment from destruction, since the compartment is simultaneously supported by and provides support for the adjacent compartment.

The support member is a conventional mat (+mat pac
k) can be used as supports in underground shafts, as shown in the drawings, to support ceilings in a similar manner as is used. This support element can also be used in the construction industry as a load-bearing element. for example,
It can be used in the construction of buildings or as a support for bridges etc. The support member can also be used to form railway ballasts, in which case the support member is generally 0.5 m to 1 m
A height of m can be used.

<Effects of the Invention> The support member of the present invention and the extension tube that is a component thereof have many advantages. First, it is cheap to manufacture. Secondly, they can be assembled on site, i.e. down the shaft, which has a great effect on ancillary operations. For example, empty pipes divided into compartments can be folded It can also be easily transported to the lower part of the mine shaft. It is then placed in the appropriate location and then filled with a granular filler available on site. Third, the support member is capable of supporting high pressure loads. FIG. 1 is a front view of the support member and its components according to the present invention, and FIG. 2 is taken along line A-A in FIG. FIG.

Reference numeral 2 OI in the figure: Support member, (2): Extension pipe,
αjun...partition, aω...dividing wall, all...joining line, (2)...filling, (company)...restraint means.

Applicant: Alesif Rosalind melanie hall

Claims (1)

[Claims] 1. Consisting of an extension tube made of a flexible material divided into a plurality of compartments in the longitudinal direction of the tube by dividing walls made of a flexible material, at least some of the compartments; a support member capable of supporting an axial pressure load in which the filler is filled with powder or granular material; 2. The support member according to claim 1, further comprising a restraining means wound around the outside of the tube in order to suppress deformation of the tube in a direction transverse to the longitudinal direction of the tube. 3. Claim No. 3, wherein the restraining means is selected from weld mesh, diamond mesh, fencing wire, plastic net, plastic mesh, plastic or metal rope, or plastic or metal tape. The support member according to item 2. 4. Support element according to claim 1, in which the compartments at the periphery of the tube are left empty in order to prevent deformation of the tube in a direction transverse to the longitudinal direction of the tube. 5. Claims 1 to 5, wherein the flexible material is selected from a plastic material, aluminum foil, paper, aluminum foil coated with paper or plastic, or a thin metal sheet. The support member according to any one of Item 4. 6. The support member according to claim 5, wherein the flexible material is a flexible plastic material. 7. Claims 1 to 6, in which the extension tube divided into partitions has a honeycomb structure.
The support member according to any one of paragraphs. 8. Where the granular filling consists of sand, cement, crushed rock, granular material containing thriller, slag, ash, riverbed sediment, bentonite, or a mixture of two or more of these. A support member according to any one of claims 1 to 7. 9. The support member according to any one of claims 1 to 8, wherein one or more of the compartments is filled with a hard solid filling. 10. Consists of an extension tube of flexible plastic material divided into a plurality of compartments along the length of the tube by dividing chambers of flexible plastic material, and therefore divided by dividing walls. The extension tube has a honeycomb structure, the flexible plastic material has a thickness of 50 μm to 500 μm, and at least some of the compartments are filled with a granular filling. The support member according to claim 1, which is capable of supporting pressure loads. 11. The support member according to claim 10, wherein the diameter of the support member is greater than the height of the support member. 12. Consisting of an extension tube made of a flexible material that is divided into a plurality of compartments along the length of the tube by dividing walls made of a flexible material, and at least some of the compartments are filled with a filler. a flexible tube divided into a plurality of compartments along the length of the tube by a dividing wall of flexible material for use in support members capable of supporting axial pressure loads such as A component that is an extension tube of material.