CN210395337U - Combined bearing plate capable of reinforcing front and rear grouting bodies and anchor rod - Google Patents

Abstract

The utility model relates to a combination bearing plate of grout body around can reinforcing, including the bearing plate, be equipped with the centre bore on the bearing plate and wear the muscle hole, still including setting up pipe joint hole on the bearing plate wears to be equipped with double-end spiro union pipe in the pipe joint hole, double-end spiro union pipe is established to first end and second end along axial both ends, first end spiro union has the pressure-bearing section pipe coupling, the spiro union has the tension section pipe coupling on the second end, be equipped with the punchhole with the inner wall intercommunication of pressure-bearing section pipe coupling on the lateral wall of pressure-bearing section pipe coupling, be equipped with the punchhole with the inner wall intercommunication of tension section pipe coupling on the lateral wall of tension section pipe coupling, the one end of keeping away from double-end spiro union pipe by the tension section pipe coupling is equipped with the head board, the one end that double-end spiro union was kept away from to the pressure-bearing section pipe coupling is connected with the reinforcing. Adopt the technical scheme of the utility model, can purify soil bits or soil cinder in the certain limit around the bearing plate, improve the intensity of slip casting body around the bearing plate greatly.

Description

Combined bearing plate capable of reinforcing front and rear grouting bodies and anchor rod

Technical Field

The utility model relates to a combination bearing plate and stock of slip casting body around can strengthening.

Background

The bearing capacity of the tension-compression composite type anchor rod (as disclosed in the patent number ZL 201420450678.5) is obviously improved, the construction cost is greatly reduced, and the tension-compression composite type anchor rod is continuously applied to actual engineering. The tension-compression composite anchor rod technology has wide application prospect in anchoring projects such as side slopes, foundation pits, water conservancy projects, dams, mines, underground projects and the like.

One of the mechanisms for remarkably improving the bearing capacity of the tension-compression composite anchor rod is that a large concentrated load transmitted to a bearing plate by an anchor head is decomposed into two small concentrated forces under the action of the bearing plate, and the two small concentrated forces are shared by a bearing anchoring section and a tension anchor respectively. The grout body can be extruded by the pressure bearing plate in front of the pressure bearing plate, and the grout body can be pulled by the rib body behind the pressure bearing plate. Therefore, the quality of the grouting body before and after the bearing plate is especially important for the cooperative bearing capacity of the pressure-bearing anchoring section and the tension anchoring of the tension-compression composite type anchor rod.

In actual engineering, because soil chips or soil residues are inevitably formed in the drilled hole, or because a certain water content exists in soil, certain soil chips or soil residues can be accumulated in the front and back of the pressure bearing plate due to extrusion, scraping, cutting and the like in the process that the tension-compression composite type anchor rod rib body is put down to the drilled hole. The concrete is difficult to clean in the conventional first grouting process, and after the cement slurry is solidified, the local bearing capacity is obviously reduced due to the inclusion of soil chips or soil residues. Under the extrusion of the pressure-bearing plate or the pulling of the rear rib body of the pressure-bearing plate, the pressure-bearing anchoring section and the pulled anchoring section cannot bear in cooperation to be damaged in advance due to insufficient bearing capacity of the grouting body, and the bearing capacity is greatly reduced. Finally, certain potential safety hazards exist in the anchoring engineering.

Accordingly, the present inventors have made extensive studies to solve the above problems and have made the present invention.

SUMMERY OF THE UTILITY MODEL

The utility model discloses to draw and press compound stock bearing plate in the actual engineering around the slip casting body probably to be mingled with certain soil bits or soil sediment, grout body intensity is not enough around appearing the bearing plate, leads to bearing anchor section and the problem that the anchor section that is drawn can't bear in coordination, provides a combination bearing plate that can clear away soil bits and reinforcing slip casting body around the bearing plate. The utility model also provides an adopt the stock of this bearing plate.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a combined bearing plate capable of reinforcing front and rear grouting bodies comprises a bearing plate, wherein a central hole and a rib penetrating hole are formed in the bearing plate, the combined bearing plate further comprises a pipe joint hole formed in the bearing plate, a double-head screwed pipe penetrates through the pipe joint hole, a first end and a second end are arranged at two axial ends of the double-head screwed pipe, the first end is screwed with a bearing section pipe joint, a tension section pipe joint is arranged on a second end of the double-head screwed pipe, the bearing section pipe joint and the tension section pipe joint are respectively arranged on two sides of the bearing plate, holes communicated with the inner wall of the bearing section pipe joint are formed in the side wall of the bearing section pipe joint, holes communicated with the inner wall of the tension section pipe joint are formed in the side wall of the tension section pipe joint, a sealing plate is arranged at one end, far away from the double-head screwed pipe, of the tension section pipe joint, and one end, far away from the double-head screwed pipe.

As a preferred mode of the utility model, the distance between the pipe joint hole and the outer wall of the bearing plate is 5-15mm, and the holes are arranged in a quincunx shape along the side wall.

As an optimal mode of the utility model, the both ends of double-end screwed pipe all are equipped with the screw thread portion that length is at 10-20mm, the length ratio of double-end screwed pipe the bearing plate thickness is big 20-40 mm.

As an optimized mode of the utility model, the pressure-bearing section tube coupling with be equipped with the gasket between the bearing plate, the tension section tube coupling with be equipped with the gasket between the bearing plate, the external diameter of gasket is than the diameter of tube coupling hole is 3-6mm big, the pressure-bearing section tube coupling with the length of tension section tube coupling is 2-6 times the bearing plate diameter.

As a preferable mode of the present invention, the plurality of holes are provided, and the horizontal distance between adjacent holes is 80 to 100 mm.

As a preferred mode of the present invention, the holes may be arranged along the pressure-bearing section pipe joint and the tension section pipe joint in a quincunx shape or in a rectangular shape.

The utility model provides an anchor rod, includes the anchor rod body and establishes the combination bearing plate at the anchor rod body with the cover, and the anchor rod body is equipped with the sleeve pipe in the pot head that the bearing plate axial is close to the anchor head, and the anchor rod body is equipped with spacing card in the other end that the bearing plate axial is close to the stock bottom, the bearing plate adopts foretell bearing plate of grouting body around can strengthening.

By adopting the technical scheme of the utility model, the pressure-bearing section pipe joints and the tension section pipe joints which are arranged at the front and the back of the pressure-bearing plate are grouted, the slurry continuously flows out from the holes, the soil scraps or the soil slag in the front and the back of the pressure-bearing plate can be purified, the problem of mud clamping of the grouting body at the front and the back of the pressure-bearing plate in the engineering is effectively solved, and the strength of the grouting body at the front and the back of the pressure-bearing plate is greatly; because the strength of the front and rear grouting bodies of the bearing plate is effectively ensured, the bearing anchoring section and the tension anchoring section can carry in a cooperative manner, and the bearing capacity is greatly improved.

Drawings

Fig. 1 is the installation schematic diagram of the assembled guide cap of the present invention.

Fig. 2 is a cross-sectional view taken along line a-a of fig. 1.

Fig. 3 is a longitudinal sectional view of the plug body of the present invention.

Fig. 4 is a cross-sectional view of fig. 3B-B according to the present invention.

Fig. 5 is a cross-sectional view taken along line C-C of fig. 4 according to the present invention.

Fig. 6 is a longitudinal sectional view of the stopper of the present invention.

Fig. 7 is a left side view of fig. 6 according to the present invention.

Fig. 8 is a right side view of fig. 6 according to the present invention.

Fig. 9 is a cross-sectional view taken along line D-D of fig. 6 according to the present invention.

Fig. 10 is a cross-sectional view E-E of fig. 6 according to the present invention.

Fig. 11 is a cross-sectional view of the locking ring of the present invention.

Fig. 12 is a longitudinal cross-sectional view of the locking ring of the present invention.

Fig. 13 is a longitudinal sectional view of the assembled guide cap of the present invention.

Fig. 14 is a left side view of fig. 13 according to the present invention.

Fig. 15 is a right side view of fig. 13 according to the present invention.

Fig. 16 is a cross-sectional view from F to F of fig. 13 according to the present invention.

Fig. 17 is a sectional view taken along line G-G in fig. 13 according to the present invention.

Fig. 18 is a schematic view of a tension-compression composite anchor rod for installing the reinforced grouting pipe joint.

Fig. 19 is a sectional view of the installation of the reinforced grouting pipe section at the bearing plate.

Fig. 20 is a sectional view of the bearing plate of the present invention.

Fig. 21 is a cross-sectional view taken along line a-a of fig. 20 in accordance with the present invention.

Fig. 22 is a sectional view of the reinforced grouting pipe joint and the bearing plate of the present invention.

Fig. 23 is a longitudinal sectional view of the double-headed screw pipe of the present invention.

Fig. 24 is a cross-sectional view taken along line B-B of fig. 23 according to the present invention.

Fig. 25 is a longitudinal sectional view of the pressure-bearing segment pipe joint of the present invention.

Fig. 26 is a longitudinal sectional view of a tension segment pipe section according to the present invention.

Fig. 27 is a cross-sectional view of fig. 25 and 26, taken along line C-C, in accordance with the present invention.

Fig. 28 is an elevation view of a pressure-bearing segment pipe joint of the present invention.

Fig. 29 is an elevation view of a tension section pipe joint of the present invention.

Fig. 30 is an assembly schematic diagram of the split centering plug of the present invention.

Fig. 31 is a longitudinal sectional view of the bracket of the present invention.

Fig. 32 is a sectional view taken along line F-F of fig. 31 according to the present invention.

Fig. 33 is a sectional view taken along line G-G in fig. 31 according to the present invention.

Fig. 34 is a sectional view taken along line H-H in fig. 31 according to the present invention.

Fig. 35 is a cross-sectional view taken along line I-I of fig. 31 according to the present invention.

Fig. 36 is a sectional view taken along the line J-J in fig. 31 according to the present invention.

Fig. 37 is a cross-sectional view of a male bracket according to the present invention.

Fig. 38 is a cross-sectional view of a bayonet of the female bracket of the present invention.

Fig. 39 is the mounting schematic diagram of the quick-mounting centering bracket of the present invention.

Fig. 40 is a cross-sectional view of the T-shaped plug of the present invention.

Fig. 41 is a sectional view taken along line a-a in fig. 40 according to the present invention.

Fig. 42 is a cross-sectional view taken along line B-B of fig. 40 in accordance with the present invention.

Fig. 43 is a longitudinal cross-sectional view of the assembled locking collar of the present invention.

Fig. 44 is a cross-sectional view taken along line K-K in fig. 43 according to the present invention.

Fig. 45 is a sectional view taken along line L-L of fig. 43 according to the present invention.

Fig. 46 is a front view of the male locking ring of the assembled locking ring of the present invention.

Fig. 47 is a front view of the female shackle of the assembled shackle of the present invention.

Fig. 48 is a side view of the male locking collar of the assembled locking collar of the present invention.

Fig. 49 is a side view of the female shackle of the assembled shackle of the present invention.

Fig. 50 is another schematic structural diagram of the split type supporting panel of the present invention.

Fig. 51 is a schematic structural view of the plug body matched with another structure of the split-type supporting panel of the present invention.

In the figure:

anchor rod body 10 sleeve 11

Central bore 21 of plug body 20

The through-rib hole 22 is filled with a rib groove 23

Rib plugging port 24T-shaped clamping groove 25

Limiting groove 26 grouting pipe bracket 27

Guide cap 30 guide cylinder 31

Guide ball 32T-shaped clamping rail 33

The limiting body 40 supports the rib body 41

Conical bolt 42 annular lock slot 43

Radial lock seam 49 rib groove 44

Put spacing cap 46 of muscle mouth 45

External thread 47 limit clip 48

Internal threads 51 of lock ring 50

T-shaped plug 52 male lock ring 501

Female lock ring 502 trapezoidal lock rail 503

First abutting surface 505 of trapezoidal lock slot 504

Second abutment surface 506 plug 521

Pipe joint hole 61 of pressure bearing plate 60

Double-end screwed pipe 71 pressure-bearing section pipe joint 72

Tension segment coupling 73 threaded portion 74

Connecting screw 75 shim 76

Eyelet 77 seal plate 78

Bracket 80 guide plate 81

Male bracket 801 of spacing ring 82

Primary support 802 tie bar 803

Chuck 804 bayonet 805

Drag panel 806807-trapezoidal clamping rail

808-trapezoidal clamping groove 809-locking thread

Grouting body 91 of grouting pipe 90

Rock-soil body 92 reinforced grouting pipe 93

Detailed Description

In order to further explain the technical solution of the present invention, the following detailed description is made with reference to the accompanying fig. 1-51. In order to facilitate the viewing of the utility model, the parts are enlarged in the drawings.

Example one

Referring to fig. 1 to 17, an assembled guide cap for an anchor includes an anchor rod body 10, a plug body 20 fitted over the anchor rod body 10, a stopper body 40 and a locking ring 50 for fixing the plug body 20, and a guide cap 30 engaged with the plug body 20. The utility model relates to an anchor rod body 10 can be the reinforcing bar, also can be steel strand wires. The plug body 20 is provided with a plug rib groove 23 and a plug rib port 24 in a surrounding manner, the plug rib port 24 is provided with a grouting pipe bracket 27, the plug rib groove 23, the plug rib port 24 and the grouting pipe dragging groove 27 all extend from one axial end to the other axial end of the plug body 20, and the plug rib groove 23, the plug rib port 24 and the grouting pipe dragging groove 27 extend from the outer wall of the plug body 20 to the center; a T-shaped clamping groove 25 is annularly arranged on the plug body 20, the T-shaped clamping groove 25 extends from one axial end to the other axial end of the plug body 20, and the T-shaped clamping groove 25 extends from the outer wall of the plug body 20 to the center; the axial ends of the plug body 20 are provided with limit grooves 26. The same limiting body 40 and the same locking ring 50 are symmetrically arranged at the limiting groove 26 at the two ends of the plug body 20, the limiting body 40 comprises a rib supporting body 41 and a conical bolt 42 formed on the rib supporting body 41, an annular locking slit 43 is formed between the rib supporting body 41 and the conical bolt 42, a radial locking slit 49 is arranged on the conical bolt 42, the radial locking slit 49 penetrates from the outer wall of the conical bolt 42 to the annular locking slit 43, in the embodiment, the number of the radial locking slits 49 is multiple, the multiple radial locking slits 49 are arranged along the circumferential direction of the conical bolt 42, and the radial locking slits 49 can assist the conical bolt 42 to zoom. The rib holding body 41 is further provided with a rib placing groove 44, the conical lock tongue 42 is provided with a rib placing port 45 communicated with the rib placing groove 44, the rib placing groove 44 and the rib placing port 45 extend from one axial end of the limiting body 40 to the other axial end, the rib placing groove 44 is communicated with the rib plugging groove 23 on the plug body 20, the outer wall of the conical lock tongue 42 is further provided with an external thread 47, the inner wall of the lock ring 50 is provided with an internal thread 51 matched with the external thread 47 of the conical lock tongue 42, and the lock ring 50 is sleeved outside the conical lock tongue 42 in a threaded connection mode. The limiting body 40 further comprises a limiting cap 46 arranged on the tendon body, and the limiting cap 46 is matched with the limiting groove 26 on the plug body 20 for use. In the embodiment, the rib placing grooves 44 and the rib placing openings 45 are both multiple, the rib placing grooves 44 are uniformly distributed on the rib supporting body 41 along the circumferential direction, and the rib placing openings 45 are uniformly distributed on the tapered lock tongue 42 along the circumferential direction. The utility model discloses in, direction cap 30 joint is in on the cock body 20, direction cap 30 includes guide cylinder 31 and forms at the one epaxial direction ball 32 of guide cylinder 31 the inner wall of guide cylinder 31 is equipped with T shape card rail 33, T shape card rail 33 is followed the axial setting of guide cylinder 31, T shape card rail 33 with on the cock body 20T shape draw-in groove 25 cooperatees and uses.

In a preferred embodiment of the present invention, the width (i.e. the extension in the radial direction) of the annular lock seam 43 is 5-15mm, and the width (i.e. the extension in the circumferential direction) of the radial lock seam 49 is 4-10 mm. Preferably, the width of the bead placing opening 45 is the same as the diameter of the bead placing groove 44.

As an optimized mode of the present invention, the T-shaped clamping rails 33 are a plurality of, the T-shaped clamping rails 33 are uniformly arranged along the circumferential direction in the guide cylinder 31. As a preferred mode of the present invention, the T-shaped clamping rail 33 extends out of the end of the guide cylinder 31, and the extending length is 10-30 mm. As an optimized mode of the present invention, the outer end thickness of the T-shaped rail 33 is smaller than the width of the T-shaped slot 25 by 1-2mm, the inner end thickness of the T-shaped rail 33 is larger than the width of the T-shaped slot 25 by 2-3mm, and the width of the T-shaped rail 33 is uniformly changed from the outer end to the inner end.

The technical scheme of the utility model adopts the plug body 20 as the carrier, the plug body 20 can be quickly fixed by adopting the limiting body 40 and the locking ring 50, and then the T-shaped clamping rail 33 of the guide cap 30 is directly inserted into the T-shaped clamping groove 25 of the plug body 20 to complete the installation, the assembly and the construction are convenient, and the efficiency is high; the utility model discloses a 30 ends of direction cap are provided with guide ball 32, transfer very easily in drilling and advance, and direction cap 30 simple structure, easily standardized batch production.

The utility model discloses the construction step is as follows: (1) a lock ring 50 is sleeved from the bottom of the anchor rod body 10 to a proper position; then the limiting body 40 is clamped from the bottom, and the anchor rod body 10 is inserted into the rib placing groove 44 from the rib placing opening 45 of the limiting body 40; (2) then the plug body 20 is clamped from the bottom, and the anchor rod body 10 is plugged into the plug rib groove 23 from the plug rib opening 24 of the plug body 20; (3) then a limiting body 40 is clamped into the plug body 20 from the bottom of the anchor rod body 10, the anchor rod body 10 is plugged into the rib placing groove 44 from the rib placing opening 45 of the limiting body 40, and then a locking ring 50 is sleeved into the bottom of the anchor rod body 10; (4) moving the limiting bodies 40 on the two sides of the plug body 20 to the limiting grooves 26 on the two sides respectively, properly adjusting the distance between the plug body 20 and the limiting bodies 40 on the two sides to the bottom of the anchor rod body 10, aligning the limiting caps 46 of the limiting bodies 40 to the limiting grooves 26 of the plug body 20 for clamping, then moving the locking rings 50 on the two sides of the limiting body 20 to the limiting bodies 40 respectively, and screwing to be tight, thereby completing the installation and fixation of the plug body 20; (5) the end of the grouting pipe 90 is plugged into the grouting pipe bracket 27 from the rib plugging port 24 of the plug body and is clamped tightly; (6) aligning the T-shaped clamping rail 33 of the guide cap 30 with the T-shaped clamping groove 25 in the plug body 20, and then inserting the T-shaped clamping rail into the T-shaped clamping groove 25 until the T-shaped clamping rail is clamped; the installation of the guide cap 30 is completed.

Example two

Referring to fig. 18 to 29, the utility model discloses still provide a combination bearing plate of slip casting body around can strengthening, including bearing plate 60, be equipped with centre bore 21 and wear muscle hole 22 on the bearing plate, wear muscle hole 22 and be a plurality of, a plurality of muscle hole 22 rings of wearing are established on the week of centre bore 21 and are followed. The utility model discloses still including setting up pipe joint hole 61 on the bearing plate 60 wears to be equipped with double-end spiro union pipe 71 in the pipe joint hole 61, and double-end spiro union pipe 71 is established to first end and second end along axial both ends, and first end spiro union has pressure-bearing section tube coupling 72, and the second end is served the spiro union and is had the tension section tube coupling 73, and pressure-bearing section tube coupling 72 and tension section tube coupling 73 are established respectively the both sides of bearing plate 60, be equipped with on the lateral wall of pressure-bearing section tube coupling 72 with the punchhole 77 of the inner wall intercommunication of pressure-bearing section tube coupling 72, be equipped with on the lateral wall of tension section tube coupling 73 with the punchhole 77 of the inner wall intercommunication of tension section tube coupling 73, the one end that the double-end spiro union pipe 71 was kept away from to tension section tube coupling 73 is equipped with head board 78, the one end that the double-end spiro union pipe 71 was kept away.

As a preferable mode of the present invention, the distance between the pipe joint hole 61 and the outer wall of the bearing plate 60 is 5 to 15 mm. As a preferable mode of the present invention, both ends of the double-ended screw joint tube 71 are provided with screw thread portions 74 having a length of 10-20mm, and the length of the double-ended screw joint tube 71 is 20-40mm greater than the thickness of the bearing plate 60. The connection thread 75 is arranged in the pressure section pipe joint 72 and the tension section pipe joint 73 corresponding to the thread part 74.

As a preferred mode of the present invention, a spacer 76 is disposed between the pressure-bearing section pipe joint 72 and the pressure-bearing plate 60, a spacer 76 is disposed between the tension-bearing section pipe joint 73 and the pressure-bearing plate 60, an outer diameter of the spacer 76 is 3-6mm larger than a diameter of the pipe joint hole 61, and lengths of the pressure-bearing section pipe joint 72 and the tension-bearing section pipe joint 73 are 2-6 times of the diameter of the pressure-bearing plate 60.

As a preferable mode of the present invention, the eyelets 77 of the pressure-bearing section pipe joint 72 are arranged along the length direction of the pressure-bearing section pipe joint 72, the eyelets 77 of the tension section pipe joint 73 are arranged along the length direction of the tension section pipe joint 73, and the horizontal distance between the eyelets 77 is 80-100 mm. As a preferred mode of the present invention, the eyelets 77 are arranged in a quincunx shape along the side walls of the pressure-bearing segment pipe joint 72 and the tension segment pipe joint 73.

The utility model provides an anchor rod, establishes the bearing plate 60 at the anchor rod body 10 including the anchor rod body 10 and cover, and the anchor rod body 10 is equipped with sleeve pipe 11 in the pot head that the bearing plate 60 axial is close to the anchor head, and the anchor rod body 10 is equipped with spacing card 48 in the other end that the bearing plate 60 axial is close to the stock bottom, bearing plate 60 adopts foretell one kind can strengthen the combination bearing plate of front and back slip casting body.

By adopting the technical scheme of the utility model, the pressure-bearing section pipe joint 72 and the tension section pipe joint 73 which are arranged at the front and the back of the pressure-bearing plate 60 are used for grouting, slurry continuously flows out from the hole 77, soil scraps or soil residues in the front and the back ranges of the pressure-bearing plate 60 can be purified, the problem of mud clamping of the grouting body 91 at the front and the back of the pressure-bearing plate 60 in engineering is effectively solved, and the strength of the grouting body 91 at the front and the back of the pressure-bearing plate 60 is greatly improved; because the strength of the front and rear grouting bodies 91 of the bearing plate 60 is effectively ensured, the bearing anchoring section and the tension anchoring section can cooperatively bear, and the bearing capacity is greatly improved.

The construction steps of the combined bearing plate capable of reinforcing front and rear grouting bodies are as follows: (1) the anchor rod body 10 is inserted into the bearing plate 60; after the bearing plate 60 is moved to the design position, the limiting clamp 48 is adopted for fixing; the sleeve 11 is sleeved on the anchor rod body 10 between the bearing plate 60 and the anchor head; penetrating the injection pipe 90 from the center hole 21 of the bearing plate 60 to a designed depth; (2) penetrating the double-ended screw connection pipe 71 into the pipe joint hole 61, respectively sleeving the gaskets 76 from two ends, and adjusting the double-ended screw connection pipe 71 to enable all exposed ends to be double-ended external screws; (3) on the side of the limit clamp 48, the tension section pipe joint 73 is screwed into the threaded part 74 of the double-end screwed pipe 71 until the tension section pipe joint contacts the gasket 76; (4) on the anchor head side, screwing the pressure-bearing section pipe joint 72 into the threaded part 74 of the double-end screwed pipe 71 until the pressure-bearing section pipe joint contacts the gasket 76; (5) screwing the bearing section pipe joint 72 and the tension section pipe joint 73 to be tight at two sides of the bearing plate 60; (6) after a reinforced grouting pipe 93 is sleeved on the end of the pressure-bearing section pipe joint 72 far away from the pressure-bearing plate 60, the anchor rod body is placed into the anchor rod drilling hole; (7) grouting is started from the bottom of the hole through the grouting pipe 90, and when cement slurry flows to the pressure bearing plate 60, the reinforced grouting pipe 93 is opened; when the hole begins to flow out the cement slurry, stopping grouting by the grouting pipe 90, and drawing out the grouting pipe 90; when the hole continuously overflows to discharge cement slurry, stopping grouting the reinforced grouting pipe 93, and drawing out the reinforced grouting pipe 93 to complete the grouting work of the anchor rod.

EXAMPLE III

Referring to fig. 3 to 12, fig. 30 to 38, the utility model discloses still provide a split type stopper of centering for stock centering, including cock body 20, cock body 20 is equipped with stop gear along axial both sides, is equipped with stopper muscle mouth 24 and stopper muscle groove 23 on the cock body 20, still includes two half tube-shape brackets 80, is equipped with T shape card rail 33 at the inner wall of bracket 80 the correspondence is equipped with T shape draw-in groove 25 with T shape card rail 33 complex on the cock body 20, and T shape draw-in groove 25 follows the axial one end of cock body 20 extends to the other end, and T shape draw-in groove 25 follows the outer wall of cock body 20 extends to the center, and bracket 80 axial one end is equipped with deflector 81, is equipped with the restriction at bracket 80's inner wall the stopper body 20 is to the locating part of deflector 81 motion.

As a preferred mode of the present invention, the limiting member is a limiting ring 82.

As an optimal mode of the present invention, the limiting mechanism includes the limiting body 40 and the locking ring 50, the limiting body 40 includes the support rib body 41 and the tapered lock tongue 42 formed on the support rib body 41, an annular locking seam 43 is formed between the support rib body 41 and the tapered lock tongue 42, the locking ring 50 is sleeved outside the tapered lock tongue 42 in a threaded connection manner, a radial locking seam 49 is provided on the tapered lock tongue 42, the radial locking seam 49 runs through to the annular locking seam 43 from the outer wall of the tapered lock tongue 42, the rib groove 44 is provided on the support rib body 41, the rib opening 45 provided on the tapered lock tongue 42 and communicated with the rib groove 44 is provided, the rib groove 44 is provided and the rib opening 45 is provided with the axial one end of the limiting body 40 extending to the other end.

As a preferred mode of the utility model, the width of the annular lock seam 43 is 5-15mm, the width of the radial lock seam 49 is 4-10mm, and the width of the rib placing opening 45 is the same as the diameter of the rib placing groove 44.

As an optimized mode of the utility model, the diameter of the grouting pipe 90 is larger than during the diameter of the anchor rod body 10, the plug body 20 is provided with the grouting pipe bracket 27 with the width directly matched with the grouting pipe 90 in the middle of the rib plugging port 24.

As an optimized mode of the utility model, still be equipped with on the cock body 20 and fill in muscle groove 23 and fill in muscle mouth 24, fill in muscle groove 23 and fill in muscle mouth 24 and all follow the axial one end of cock body 20 extends to the other end, fills in muscle mouth 24 and extends to fill in muscle groove 23 from the outer wall of cock body 20. As an optimized mode of the present invention, the stopper body 20 is provided with the limiting grooves 26 along the axial direction at both ends, and the end of the limiting body 40 is provided with the corresponding limiting cap 46 cooperating with the limiting grooves 26. The utility model also provides an anchor rod, establish the cock body 20 at the anchor rod body 10 including the anchor rod body 10 and cover, the cock body 20 adopts above-mentioned cock body 20, the anchor rod body 10 is worn to establish the cock body 20 the dowel groove 23 with spacing body 40 put in the muscle groove 44.

In the present invention, the structure of the plug body 20 and the limiting mechanism may be the same as the corresponding structure of the first embodiment.

After the technical scheme of the utility model is adopted, two semi-cylindrical brackets 80 are adopted, the brackets 80 are directly clamped on the plug body 20, the installation is very convenient, and the construction efficiency is very high; and the shape is simple, the standardized batch processing production is easy, and the method is widely popularized and applied.

A split type quick-mounting centering plug for an anchor rod centering support is constructed by the following steps: (1) after the anchor rod body 10 is cut and processed and placed orderly, a first locking ring 50 is sleeved into the position near the design position of the anchor rod body 10; (2) plugging the plug body 20 at the designed position of the anchor rod body 10, and plugging the anchor rod body 10 into the plug rib groove 23 from the plug rib opening 24 of the plug body 20; then the two limiting bodies 40 are respectively plugged into the two sides of the plug body 20, and the anchor rod body 10 is respectively plugged into the rib placing groove 44 from the rib placing opening 45 of the limiting body 40; (3) respectively moving the two limiting bodies 40 to the limiting grooves 26 on the two sides of the plug body 20, and enabling the limiting caps 46 of the limiting bodies 40 to be clamped with the limiting grooves 26 on the corresponding sides of the plug body 20; (4) moving the first locking ring 50 to the limiting body 40 at the corresponding end, sleeving the locking ring 50 on the bolt 42, screwing until the locking ring is tight, and fixing the first limiting body 40 on the anchor rod body 10; (5) then, sleeving a second branch locking ring 50 on the anchor rod body 10, moving the second branch locking ring to a second branch limiting body 40, sleeving the locking ring 50 on the locking bolt 42, screwing the locking bolt to be tight, and fixing the second branch limiting body 40 on the anchor rod body 10, namely finishing the split type installation of the split type centering plug; (6) the grouting pipe 90 is clamped into the grouting pipe bracket 27 from the rib plugging port 45 of the plug body 20; (7) the guide plates 81 of the two brackets 80 are respectively directed to the bottoms of the rib bodies, then the T-shaped clamping rails 33 are aligned to the T-shaped clamping grooves 25 in the plug body 20, and the T-shaped clamping rails are inserted until the limiting rings 82 abut against the plug body 20; namely, the installation of the centering bracket is completed.

Example four

Referring to fig. 31 to 42, the utility model provides a side installation T type stopper, including T type stopper 52, bracket 80 and catch 50, T type stopper 52 comprises the tapered end and plunger 521 that hold in the palm muscle body 41 and toper spring bolt 42 constitute, toper spring bolt 42 forms on holding in the palm muscle body 41 or forms on plunger 521, it forms annular lockstitch 43 to hold in the palm between muscle body 41 and the toper spring bolt 42, catch 50 establishes outside toper spring bolt 42 with threaded connection's mode cover, be equipped with radial lockstitch 49 on toper spring bolt 42, radial lockstitch 49 runs through to annular lockstitch 43 from the outer wall of toper spring bolt 42, it puts muscle groove 44 still to be equipped with on the muscle body 41, be equipped with on the toper spring bolt 42 with put muscle mouth 45 that muscle groove 44 communicates, it all extends to the other end from the axial one end of tapered end to put muscle mouth 44. The plug column 521 is provided with a plug rib groove 23 and a plug rib opening 24 in a surrounding manner, the plug rib opening 24 is provided with a grouting pipe bracket 27, the plug rib groove 23, the plug rib opening 24 and the grouting pipe bracket 27 all extend from one axial end of the plug column 521 to the other axial end, and the plug rib opening 24 extends from the outer wall of the plug column 521 to the center.

As an optimized mode of the utility model, the ring is equipped with T-shaped slot 25 on the stopper column 521, and T-shaped slot 25 extends to the other end from the axial one end of stopper column 521, and T-shaped slot 25 extends to the center from the outer wall of stopper column 521. In an embodiment, the locking head is integrally formed on the plunger 521.

The construction of the side-installed T-shaped plug comprises the following steps: (1) after the anchor rod body 10 is cut and processed and placed in order, at the designed position of the anchor rod body 10, the anchor rod body 10 is plugged into the plug rib groove 23 from the plug rib opening 24 of the plug body 20, and meanwhile, the anchor rod body 10 is placed into the plug rib groove 44 from the rib placing opening 45; (2) the lock ring 50 is sleeved on the lock tongue 42 and screwed tightly; (3) the grouting pipe 90 is clamped into the grouting pipe bracket 27 from the rib plugging port 45 of the plug body 20; (4) the guide plates 81 of the two brackets 80 are respectively directed to the bottoms of the rib bodies, then the T-shaped clamping rails 33 are aligned to the T-shaped clamping grooves 25 in the plug body 20, and the T-shaped clamping rails are inserted until the limiting rings 82 abut against the plug body 20; namely, the installation of the centering bracket is completed.

EXAMPLE five

Referring to fig. 31 to 38, fig. 50 to 51, the present invention further provides a split type support plate, including a half-cylindrical male bracket 801 and a half-cylindrical female bracket 802, the male bracket 801 and the female bracket 802 form a bracket 80, the male bracket 801 and the female bracket 802 are butted into a cylinder by a clamping mechanism, and a connecting mechanism connected with a plug of a centering bracket is arranged in the male bracket 801 and the female bracket 802.

Referring to fig. 31 to 38, as a preferred mode of the present invention, the locking mechanism is a locking head 804 disposed on the male bracket 801 and a locking head 805 disposed on the female bracket 802, the locking head 804 extends along the axial direction of the male bracket 801, the locking head 805 extends along the axial direction of the female bracket 802, and the locking head 804 is locked and leaned on the locking head 805.

As a preferred mode of the present invention, the connecting mechanism is a T-shaped clip rail 33 of the inner wall of the male bracket 801 and a T-shaped clip rail 33 of the female bracket 802, the T-shaped clip rail 33 is along the axial extension of the barrel. In use, the T-shaped clamp rail 33 can be matched with the T-shaped clamp groove 25 in the fourth embodiment.

As an optimized mode of the present invention, the inner wall of the male bracket 801 and the inner wall of the female bracket 802 are both provided with the spacing ring 82, the spacing ring 82 is disposed on the T-shaped clamping rail 33.

Referring to fig. 50 and 51, as another preferred embodiment of the present invention, the clamping mechanism is a trapezoidal clamping rail 807 disposed on the male bracket 801 and a trapezoidal clamping groove 808 disposed on the female bracket 802, the trapezoidal clamping rail 807 extends along the axial direction of the male bracket 801, and the trapezoidal clamping groove 808 extends along the axial direction of the female bracket 802.

As a preferred mode of the present invention, the male bracket 801 and the female bracket 802 are all provided with a locking thread 809 for butt joint. The split-type supporting panel with the structure can be matched with a plug body with external threads for use.

As an optimized mode of the utility model, the male bracket 801 is equipped with along axial one end and is used for the guide the barrel is in the smooth and easy gliding deflector 81 of drilling, female bracket 802 is equipped with along axial one end and is used for the guide the barrel is in the smooth and easy gliding deflector 81 of drilling, and deflector 81 is the arc.

EXAMPLE six

Referring to fig. 43 to 49, the utility model discloses still provide a split type catch, catch 50 is including the public catch 501 and the female catch 502 of the semicircular shape of mutually supporting, and public catch 501 and female catch 502 inner wall all are provided with internal thread 51, and internal thread 51 cooperatees with the external screw thread 47 of toper spring bolt 42 outer wall, is equipped with the lock rail on public catch 501 encircles, is equipped with the locked groove with the lock rail block on female catch 502, and public catch 501 and female catch 502 pass through the lock rail and the locked groove block becomes the barrel. Preferably, the lock rail is a trapezoidal lock rail 503, a section of the trapezoidal lock rail 503 along the circumferential direction of the male lock ring 501 is trapezoidal, the lock groove is a trapezoidal lock groove 504, a section of the trapezoidal lock groove 504 along the circumferential direction of the female lock ring 502 is trapezoidal, the trapezoidal lock rail 503 extends along the axial direction of the male lock ring 501, and the trapezoidal lock groove 504 extends along the axial direction of the female lock ring.

As a preferred mode of the present invention, the trapezoidal lock rail 503 of the male lock ring 501 has the same axial length as the trapezoidal lock groove 504 of the female lock ring 502. As a preferable mode of the present invention, the axial lengths of the trapezoidal lock rail 503 and the trapezoidal lock groove 504 are 5 to 10mm shorter than the axial lengths of the male lock ring 501 and the female lock ring 502.

In a preferred embodiment of the present invention, the end of the male locking ring 501 in the circumferential direction has a first abutting surface 505, the end of the female locking ring 502 in the circumferential direction has a second abutting surface 506 that engages with the first abutting surface 505, the trapezoidal locking rail 503 is formed on the first abutting surface 505, and the trapezoidal locking groove 504 is formed on the second abutting surface 506. The utility model provides a split type catch can be sold as solitary accessory production, and it can be used in the stock of various structures, like in embodiment one and the stock of embodiment four, is used in the stock, need not through sliding to the toper spring bolt in the stock body of rod 10, only need in the design position, with public catch 501 and female catch 502 with the stock body of rod 10 surround the back, can accomplish assembling of catch 50 through trapezoidal lock rail 503 and trapezoidal locked groove 504 joint, have the swift advantage of simple to operate.

EXAMPLE seven

The utility model discloses still provide a split type assembled centering support, with the split type support panel of five embodiments and the side dress T type stopper of implementing four be in the same place as the centering support, preferably, in this centering support, the catch adopts the split type catch of implementing six.

The T-shaped plug 52 of the present invention can be the plug 20 and the stopper 40 of the first embodiment. Preferably, the spacing body 40 and the plug body 20 are a unitary piece.

The utility model also provides an anchor rod, establish the centering support at the anchor rod body 10 including the anchor rod body 10 and cover, the centering support adopts above-mentioned centering support. The utility model discloses a components of a whole that can function independently assembled centering support, two half tube-shape brackets 80 constitute ring shape holding surface, and area of contact is big with the pore wall, and contact pressure is little, can not sink into the pore wall soil body, can guarantee that the stock body of rod 10 is in the position placed in the middle all the time in the work progress, guarantees the adhesion stress of stock body of rod 10 and slip casting 91, and the bracket 80 external diameter can be customized according to the drilling aperture demand, can guarantee the accurate centering of stock body of rod 10; the guide plate 81 of the utility model can enable the anchor rod body 10 to be placed in the drilling process, and slide easily to enter the drilling hole, so that soil bodies on the hole wall can not be cut to generate soil slag, but a certain compaction effect can be exerted on the hole wall of the drilling hole, and the bearing capacity of the anchor rod body 10 and the grouting body 91 is further improved; the T-shaped plug 52 of the utility model adopts the lateral installation of the anchor rod body 10 and the grouting pipe 90, and the anchor rod body 10 is directly clamped into the T-shaped plug 52 from the plug rib opening 24 at the designed position of the anchor rod body 10, so that the installation is convenient and the site construction efficiency is greatly improved; the utility model discloses a catch 50 takes split type public catch 501 and female catch 502, through the trapezoidal lock rail 503 of public catch 501 and the trapezoidal locked groove 504's of female catch 502 cooperation, can follow the outside of the stock body of rod 10 embolias the catch 50 with the stock body of rod 10 in, revolves soon to twist and to fix T type stopper 52 on toper spring bolt 42, avoids penetrating the loaded down with trivial details of closed catch 50 on the stock body of rod 10, and it is convenient to install, and the site operation efficiency improves greatly. The utility model discloses a bracket 80 contains T type card rail 33, goes into the T type draw-in groove 25 that T type stopper 52 is supporting through the card and can accomplish the bracket 80 installation, and the efficiency of construction improves greatly. The split assembly type centering support consists of a T-shaped plug 52, a bracket 80 and a locking ring 50, and due to the split assembly type structure, the construction efficiency of centering of the anchor rod body 10 can be greatly improved, and the split assembly type centering support can be modularized, standardized and produced in batches.

A split type quick-mounting type centering support for an anchor rod is constructed by the following steps:

(1) the anchor rod body 10 and the grouting pipe 90 are processed according to the designed length and then placed neatly; (2) at the position of a centering support designed on the anchor rod body 10, clamping the anchor rod body 10 into a rib groove 23 from a rib filling port 24 of a T-shaped plug 52, simultaneously clamping the anchor rod body 10 into a rib placing groove 44 from a rib placing port 45, and clamping a grouting pipe 90 into a grouting pipe bracket 27 from the rib filling port 24 of the T-shaped plug 52; (3) on the tapered bolt 42 side of the T-shaped plug 52, a male lock ring 501 and a female lock ring 502 are used for sleeving the anchor rod body 10 into the lock ring 50, a trapezoidal lock rail 503 of the male lock ring 501 is clamped into a trapezoidal lock groove 504 of the female lock ring 502, the combined lock ring 50 is sleeved on the external thread 47 of the tapered bolt 42 and screwed tightly, and the T-shaped plug 52 is fixed on the anchor rod body 10; (4) the guide plate 81 of the bracket 80 points to the bottom of the anchor rod body 10, the T-shaped clamping rail 33 of the male bracket 801 is aligned with the T-shaped clamping groove 25 in the T-shaped plug 52 and inserted until tight; in the same way, the female bracket 802 is inserted into the T-shaped plug 52, and the chuck 804 of the male bracket 801 is clamped into the bayonet 805 of the female bracket 802, so as to complete the installation of the split-assembly type centering bracket. (6) Additionally, the bolt shank 10 may be tied using a tie bar 803 on the plug 521 side of the T-plug.

In the present invention, the bearing plate 60 of the second embodiment can be used in the anchor rods of the first, third and fourth embodiments. The guide cap 30 of the first embodiment can also be used in the anchors of the second, third and fourth embodiments. A plurality of centering brackets can be provided in the anchor rod body 10, which centering brackets are arranged in the axial direction of the anchor rod body 10.

The utility model discloses in, icon 92 represents ground body 92.

The product form of the present invention is not limited to the drawings and embodiments of the present application, and any person can properly change or modify the product form of the present invention without departing from the scope of the present invention.

Claims (7)

1. The utility model provides a combination bearing plate of slip casting body around can strengthening, includes the bearing plate, is equipped with the centre bore on the bearing plate and wears muscle hole, its characterized in that: the pipe joint structure is characterized by further comprising a pipe joint hole arranged on the bearing plate, a double-head screwed pipe penetrates through the pipe joint hole, the double-head screwed pipe is arranged at two ends of the axial direction and is a first end and a second end, the first end is screwed with a pressure-bearing section pipe joint, the second end is screwed with a tension section pipe joint, the pressure-bearing section pipe joint and the tension section pipe joint are respectively arranged at two sides of the bearing plate, holes communicated with the inner wall of the pressure-bearing section pipe joint are formed in the side wall of the pressure-bearing section pipe joint, holes communicated with the inner wall of the tension section pipe joint are formed in the side wall of the tension section pipe joint, a sealing head plate is arranged at one end, far away from the double-head screwed pipe, of the tension section pipe joint, is connected with a reinforced grouting pipe.

2. A combined bearing plate for reinforcing front and rear grout as claimed in claim 1, wherein: the distance between the pipe joint hole and the outer wall of the bearing plate is 5-15 mm.

3. A combined bearing plate for reinforcing front and rear grout as claimed in claim 1, wherein: both ends of the double-end screwed pipe are provided with threaded parts with the length of 10-20mm, and the length of the double-end screwed pipe is 20-40mm larger than the thickness of the pressure bearing plate.

4. A combined bearing plate for reinforcing front and rear grout as claimed in claim 1, wherein: and a gasket is arranged between the pressure-bearing section pipe joint and the pressure-bearing plate, a gasket is arranged between the tension section pipe joint and the pressure-bearing plate, the outer diameter of the gasket is 3-6mm larger than the diameter of the pipe joint hole, and the lengths of the pressure-bearing section pipe joint and the tension section pipe joint are 2-6 times of the diameter of the pressure-bearing plate.

5. A combined bearing plate for reinforcing front and rear grout as claimed in claim 1, wherein: the horizontal spacing between adjacent holes is 80-100 mm.

6. A combined bearing plate for reinforcing front and rear grout as claimed in claim 1, wherein: the perforations can be arranged in a quincunx shape or a rectangular shape along the longitudinal direction of the pressure-bearing section pipe joint and the tension section pipe joint.

7. The utility model provides an anchor rod, includes that the stock body of rod and cover establish the combination bearing plate at the stock body of rod, and the stock body of rod is equipped with the sleeve pipe in the pot head that the bearing plate axial is close to the anchor head, and the stock body of rod is equipped with spacing card, its characterized in that in the other end that the bearing plate axial is close to the stock bottom: the bearing plate is a combined bearing plate capable of reinforcing front and rear grouting bodies as claimed in any one of claims 1 to 6.

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