CN206245278U - Splicing frame-type slope protecting components, slope protection device and barricade - Google Patents

Abstract

The utility model is related to a kind of splicing frame-type slope protecting components of concrete compacting, slope protection device and barricade, including dividing plate and latch fitting；Two vertical side edges of dividing plate are respectively arranged with the first locking structure；Latch fitting is column structure, contour with dividing plate, is provided with least two the second locking structures interlocked with the first locking structure of dividing plate.The utility model is spliced into frame concrete component using dividing plate and latch fitting, the weight of concrete component only accounts for the very little part of whole slope protection device and barricade, realize light-weighted slope protection device and barricade, it is simple with processing, cost of transportation is low, and sound construction, intensity is high, the advantage of long service life, solves that concrete brick weight of the prior art is big, the technical problem of waste of materials.

Description

Splicing frame-type slope protecting components, slope protection device and barricade

Technical field

The present invention relates to a kind of building element of concrete compacting, for the bank protection or barricade of hydraulic engineering.

Background technology

Existing bank protection or barricade are made of stone or concrete brick.In order to mitigate weight, cost-effective, concrete brick is equal Using rectangular structure, fabrication hole is provided with.But, it is provided with the weight of concrete brick of technique pore structure still too Greatly, serious waste cement.If fabrication hole is too big, the intensity of concrete brick can be influenceed.Therefore, being badly in need of a kind of lightweight macroscopic void Concrete brick structure.

The content of the invention

It is an object of the present invention to provide one kind splicing frame-type slope protecting components, slope protection device and barricade, existing skill is which solved Concrete brick weight in art is big, the technical problem of waste of materials.

Technical solution of the invention is：

One kind splicing frame-type slope protecting components, are formed by concrete compacting, and it is characterized in that, including dividing plate and latch fitting； Two vertical side edges of the dividing plate are respectively arranged with the first locking structure；The latch fitting is column structure, contour with dividing plate, its On be provided with least two the second locking structures interlocked with the first locking structure of dividing plate.

Multiple bridle ports of two sides of insertion are provided with aforementioned barriers；The bridle port is at least a row, often drains into It is few one；The construction location hole of insertion from top to bottom is provided with the latch fitting；First locking structure is to set from top to bottom Put the groove in divider upright side；Second locking structure is the projection for being arranged on latch fitting lateral surface from top to bottom.

The first slope protection device being made up of above-mentioned splicing frame-type slope protecting components, including multiple dividing plates and multiple latch fitting structures Into ccf layer and be filled in ccf layer soil or stone；The latch fitting is matrix distribution, and by anchoring rods through construction It is vertically fixed on bank protection after location hole；Two the first locking structures of the dividing plate are respectively with wherein the one of two neighboring latch fitting Individual second locking structure clamping.

In order to prevent soil or stone to be washed, slope protection device also includes being laid on geotextiles, the covering below the ccf layer Grid above the ccf layer and sequentially pass through bridle port and grid and many ropes that dividing plate and grid are stitched together Rope.

Or, three, four, five or six the two of dividing plate sides are sequentially connected and are integrally formed structural elements, wherein Divider plate on be provided with multiple bridle ports of two sides of insertion；First locking structure of two sides being connected is combined into Integrally；The bridle port is at least a row, often arranges at least one；The quantity of the second locking structure of the latch fitting is two and phase To distribution.

In order to improve intensity, above-mentioned integrative-structure component also includes the reinforcement being arranged between two neighboring dividing plate.

In order to adapt to anchorage style, above-mentioned integrative-structure component also including upper and lower two sides of insertion dividing plate at least two Anchor hole.

Above-mentioned first locking structure is to be arranged on two dovetail grooves of vertical side edge of dividing plate from top to bottom；Second locking Structure is the inverted trapezoidal structure for being arranged on latch fitting lateral surface from top to bottom.

Second slope protection device being made up of above-mentioned splicing frame-type slope protecting components, including multiple integrative-structure components and many The ccf layer of individual latch fitting composition and the soil or the stone that are filled in ccf layer；The latch fitting is matrix distribution；Oblique angle is relative Two corresponding first locking structures of integrative-structure component respectively with the two of latch fitting second locking structure clampings.

In order to prevent soil or stone to be washed, slope protection device also includes being laid on geotextiles, the covering below the ccf layer Grid above the ccf layer and sequentially pass through bridle port and grid and many ropes that dividing plate and grid are stitched together Rope.

The barricade of splicing frame-type slope protecting components composition, including the multilayer that multiple integrative-structure components and multiple latch fittings are constituted Ccf layer and the soil or the stone that are filled in ccf layer；The latch fitting is matrix distribution；Two relative integrative-structures of oblique angle Corresponding first locking structure of component respectively with the two of latch fitting second locking structure clampings；The one of two neighboring ccf layer Body structural elements is connected using dislocation retrogressing connecting method and by the anchoring rods being through in anchor hole.

In order to prevent soil or stone to be washed, barricade also includes being laid on geotextiles, the covering below orlop ccf layer Grid above the superiors' ccf layer or each layer of ccf layer and sequentially pass through bridle port and grid and by dividing plate and grid Many ropes being stitched together.

Beneficial effects of the present invention：

1st, it is lightweight.The present invention is spliced into frame concrete component, the weight of concrete component using dividing plate and latch fitting The very little part of whole slope protection device and barricade is only accounted for, light-weighted slope protection device and barricade is realized.

2nd, process simple, cost of transportation is low.Dividing plate of the invention and latch fitting are processed respectively, compared to large-sized revetment brick Speech, volume reduces more than half；Can be stacked during transport, significantly reduced cost of transportation.

3rd, sound construction, intensity is high.The present invention is using measures such as reinforcement, anchoring rods, latch fitting, construction technology holes, it is ensured that The sound construction degree of splicing framework, on the premise of weight is most light, the need for intensity meets hydraulic engineering.

4th, long service life.Slope protection device of the invention and barricade, if washing away for water may be faced, then using bottom Geotextiles and top grid come prevent in framework soil or stone loss, so as to ensure that service life very long.Together When, grid is sewn on component as stitching a quilt cover on rope, it is ensured that grid is not flushed away, equally ensure that the long-life.

Brief description of the drawings

Fig. 1 is the structural representation of the first dividing plate of the invention；

Fig. 2 is the structural representation of the first latch fitting of the invention；

Fig. 3 is the position relationship schematic diagram between the latch fitting in dividing plate and Fig. 2 in Fig. 1；

Fig. 4 is the structural representation of another locking structure on the first dividing plate of the invention；

Fig. 5 is the right view of Fig. 4；

Fig. 6 is the top view of Fig. 4；

Fig. 7 is the slope protection device structural representation that the first dividing plate of the invention and the first latch fitting are spliced into；

Fig. 8 to Figure 13 is the other structures schematic diagram of the first dividing plate of the invention；

Figure 14 is that Fig. 8 to Figure 13 plants the slope protection device structural representation that various dividing plates are spliced into；

Figure 15 is the structural representation of the first dividing plate upper band anchor hole of the invention；

Figure 16 to Figure 18 is three kinds of position relationship schematic diagrams that reinforced earth bulkhead is built with Figure 15 median septums；

Figure 19 is the position relationship schematic diagram that Gravity Retaining Wall is built with Figure 15 median septums；

Figure 20 is the slope protection system structural representation being laid to Figure 15 median septums；

Figure 21 is the structural representation of second dividing plate of the invention；

Figure 22 is the structural representation of second latch fitting of the invention；

Figure 23 is the structural representation of second dividing plate of the invention and second slope protection device and slope protection system of latch fitting composition Figure；

Figure 24 is the structural representation that arc reinforcement is set on the first dividing plate of the invention；

Figure 25 is the stereogram of Figure 24；

Figure 26 is the structural representation that straight reinforcement is set on the first dividing plate of the invention；

Figure 27 is the stereogram of Figure 26；

Figure 28 is the structural representation of slope protection device of the present invention.

Reference：1- dividing plates, 11- bridle ports, 12- anchor holes, the locking structures of 13- first, 14- reinforcements, 2- latch fittings, The locking structures of 21- second, 22- construction location holes, 3- anchoring rods, 4- ropes, 51- upper stratas ccf layer, 52- lower floors ccf layer, 6- Bank protection, 7- geotextiles, 8- grids, 9- soil or stone.

Specific embodiment

The first splicing frame-type slope protecting components, is formed, referring to Figure 21,22, including dividing plate and latch fitting by concrete compacting； Two vertical side edges of dividing plate are respectively arranged with the first locking structure；Latch fitting is column structure, contour with dividing plate, is provided with Four the second locking structures interlocked with the first locking structure of dividing plate.First locking structure hangs down to be arranged on dividing plate from top to bottom The groove of straight sided, the second locking structure is the projection for being arranged on latch fitting lateral surface from top to bottom.Insertion two is provided with dividing plate Two rows two of individual side arrange totally 4 bridle ports；The construction location hole 22 of insertion from top to bottom is provided with latch fitting.

Referring to Figure 23, the first slope protection device being made up of the first splicing frame-type slope protecting components, including multiple dividing plates With multiple latch fittings constitute ccf layer, be filled in ccf layer soil or stone, be laid on below the ccf layer geotextiles, cover The grid that covers above the ccf layer and sequentially pass through bridle port and grid and many that dividing plate and grid are stitched together Rope；Latch fitting be square matrices distribution, and by anchoring rods through construction location hole after be vertically fixed on bank protection；The two of dividing plate Individual first locking structure respectively with one of them second locking structure clamping of two neighboring latch fitting.

Second splicing frame-type slope protecting components, is formed, referring to Fig. 1-6, including dividing plate and latch fitting by concrete compacting；Lock Part is contour with dividing plate, is provided with two the second locking structures interlocked with the first locking structure of dividing plate.By four dividing plates Two sides be sequentially connected and be integrally formed structural elements, be provided with insertion two the two of side on upper and lower two dividing plates therein Row two arranges totally 4 bridle ports；First locking structure of two sides being connected is integrated；Second locking structure of latch fitting Quantity is two and Relative distribution.First locking structure is to be arranged on two dovetail grooves of vertical side edge of dividing plate from top to bottom；The Two locking structures are the inverted trapezoidal structure for being arranged on latch fitting lateral surface from top to bottom.

Integrative-structure component can have various different structures, referring to Fig. 8-Figure 13.

In order to improve intensity, referring to Figure 24-27, integrative-structure component also includes the reinforcement being arranged between two neighboring dividing plate Muscle, the reinforcement is straight reinforcement or arc reinforcement.

In order to adapt to anchorage style, referring to Figure 15, integrative-structure component also including upper and lower two sides of insertion dividing plate 10 Individual anchor hole, wherein two relative dividing plates are respectively provided with 2, two relative in addition dividing plates are respectively provided with 3.The anchor hole Position may refer to Figure 16-18.

It is referring to Figure 20 and Figure 28 including many by second splicing second slope protection device constituting of frame-type slope protecting components Ccf layer that individual integrative-structure component and multiple latch fittings are constituted, the soil being filled in ccf layer or stone, it is laid on the ccf layer The geotextiles of lower section, the grid being covered in above the ccf layer and sequentially pass through bridle port and grid and stitch dividing plate and grid Many ropes being combined.Latch fitting is distributed for square matrices；Corresponding the first of two relative integrative-structure components of oblique angle Locking structure respectively with the two of latch fitting second locking structure clampings.

Splice the barricade that frame-type slope protecting components are constituted by second, referring to Figure 16-19, including multiple integrative-structure components The multistory frame layer that is constituted with multiple latch fittings, the soil being filled in ccf layer, are laid on below orlop ccf layer stone Geotextiles, the grid being covered in above the superiors' ccf layer or each layer of ccf layer and sequentially pass through bridle port and grid and will The many ropes that dividing plate and grid are stitched together.Latch fitting is distributed for square matrices；Two relative integrative-structure structures of oblique angle Corresponding first locking structure of part respectively with the two of latch fitting second locking structure clampings；The one of two neighboring ccf layer Structural elements is connected using dislocation retrogressing connecting method and by the anchoring rods being through in anchor hole.

Claims (12)

1. a kind of splicing frame-type slope protecting components, are formed by concrete compacting, it is characterised in that：Including dividing plate and latch fitting；It is described Two vertical side edges of dividing plate are respectively arranged with the first locking structure；The latch fitting is column structure, contour with dividing plate, is set thereon It is equipped with least two the second locking structures interlocked with the first locking structure of dividing plate.

It is 2. according to claim 1 to splice frame-type slope protecting components, it is characterised in that：Insertion two is provided with the dividing plate Multiple bridle ports of individual side；The bridle port is at least a row, often arranges at least one；It is provided with from top to bottom on the latch fitting The construction location hole of insertion；First locking structure is the groove for being arranged on divider upright side from top to bottom；Described second Locking structure is the projection for being arranged on latch fitting lateral surface from top to bottom.

It is 3. according to claim 1 to splice frame-type slope protecting components, it is characterised in that：Three, four, five or six every Two sides of plate are sequentially connected and are integrally formed structural elements, and two multiples of side of insertion are provided with divider plate therein Bridle port；First locking structure of two sides being connected is integrated；The bridle port is at least a row, often drains into few one It is individual；The quantity of the second locking structure of the latch fitting is two and Relative distribution.

It is 4. according to claim 3 to splice frame-type slope protecting components, it is characterised in that：Also include be arranged on it is two neighboring every Reinforcement between plate.

5. splicing frame-type slope protecting components according to claim 3 or 4, it is characterised in that：Also include that insertion dividing plate is upper and lower Two at least two anchor holes of side.

It is 6. according to claim 5 to splice frame-type slope protecting components, it is characterised in that：First locking structure is from upper And under be arranged on two dovetail grooves of vertical side edge of dividing plate；Second locking structure is to be arranged on latch fitting lateral surface from top to bottom Inverted trapezoidal structure.

7. the slope protection device that splicing frame-type slope protecting components according to claim 2 are constituted, it is characterised in that：Including multiple Ccf layer that dividing plate and multiple latch fittings are constituted and the soil or the stone that are filled in ccf layer；The latch fitting is matrix distribution, and It is vertically fixed on bank protection after passing through construction location hole by anchoring rods；Two the first locking structures of the dividing plate respectively with it is adjacent Two one of them second locking structure clampings of latch fitting.

8. slope protection device according to claim 7, it is characterised in that：Also include being laid on the geotechnique below the ccf layer Cloth, the grid being covered in above the ccf layer and sequentially pass through bridle port and grid and dividing plate and grid be stitched together Many ropes.

9. the slope protection device for being constituted according to any splicing frame-type slope protecting components of claim 3 or 4, it is characterised in that：Bag Include the ccf layer that multiple integrative-structure components and multiple latch fittings are constituted and the soil or the stone that are filled in ccf layer；The latch fitting It is matrix distribution；Corresponding first locking structure of two relative integrative-structure components of oblique angle respectively with one the two of latch fitting Two locking structure clampings.

10. slope protection device according to claim 9, it is characterised in that：Also include being laid on the geotechnique below the ccf layer Cloth, the grid being covered in above the ccf layer and sequentially pass through bridle port and grid and dividing plate and grid be stitched together Many ropes.

The barricade of 11. splicing frame-type slope protecting components compositions according to claim 5, it is characterised in that：Including multiple one Multistory frame layer that body structural elements and multiple latch fittings are constituted and the soil or the stone that are filled in ccf layer；The latch fitting is square Battle array distribution；Corresponding first locking structure of two relative integrative-structure components of oblique angle is locked with one the two of latch fitting second respectively Only structure clamping；The integrative-structure component of two neighboring ccf layer retreats connecting method and by being through in anchor hole using dislocation Anchoring rods be connected.

12. barricades according to claim 11, it is characterised in that：Also include being laid on the geotechnique below orlop ccf layer Cloth, the grid being covered in above the superiors' ccf layer or each layer of ccf layer and sequentially pass through bridle port and grid and by dividing plate Many ropes being stitched together with grid.