CN109853546B - Assembled centering support and anchor rod adopting same - Google Patents

Abstract

The invention relates to an assembled centering bracket, which comprises a ship-shaped bracket and an assembling plug, wherein the ship-shaped bracket comprises an outer cylinder, an inner cylinder coaxially arranged in the outer cylinder and a rib plate connected between the outer cylinder and the inner cylinder, an inner screw tooth part is arranged on the inner wall of the inner cylinder, an outer screw tooth part matched with the inner screw tooth part is arranged on the outer wall of the assembling plug, the assembling plug is screwed in the inner cylinder, a rib penetrating hole for a bolt body to penetrate through and a grouting pipe penetrating hole for grouting are formed in the assembling plug, and a first limiting part and a second limiting part for limiting the movement of the assembling plug on the bolt body are respectively arranged at two axial ends of the assembling plug. The invention has the advantages of reliable centering, high centering precision, convenient construction and excellent universality.

Description

Assembled centering support and anchor rod adopting same

Technical Field

The invention relates to an assembled centering bracket and an anchor rod adopting the centering bracket, belonging to the technical field of foundation engineering.

Background

The anchor bolt support technology is used as a high-efficiency and economic support technology, is widely applied to engineering construction such as civil engineering, water conservancy, mining industry, traffic, urban infrastructure, geological disaster prevention and control and the like, and plays an extremely important role. Taking a traditional tension type anchor rod as an example, the anchor rod consists of a free section and an anchoring section, wherein the anchoring section further transfers load to the interface between the grouting body and the soil body by means of the bonding effect of the anchor rod body and the grouting body, thereby ensuring the anti-pulling bearing capacity of the anchor rod. But in the work progress, current stock adopts diameter 6mm smooth round bar welding centering support (the reinforcing bar body uses in a lot) or adopts plastic chuck to center (the steel strand wires body uses in a lot) for the stock exists with the potential risk: (1) The plain round steel bar welding centering support is supported by the steel bar, so that when the water content of a soil layer reaches a certain degree or non-dry operation is adopted for drilling, the steel bar support is extremely easy to sink into soil on the wall of a hole under the action of the dead weight of the anchor bar, the centering of the anchor bar is difficult to ensure, even the anchor bar is attached to the hole wall, the anchor bar cannot be fully bonded with the grouting body, and the bearing capacity is greatly reduced; in addition, a large amount of steel bar cutting, bending and welding workload is required for welding the steel bar support, and the construction is complicated; (2) The plastic chuck support is very thin in thickness and very low in rigidity, the thickness of the protective layer of the anchor rod body is very limited, the anchor rod body is easy to approach or even close to a hole wall soil body, the binding force between the anchor rod body and the grouting body is obviously reduced, and the bearing capacity is also greatly reduced.

In view of this, the present inventors have conducted intensive studies on the above problems, and have made the present invention.

Disclosure of Invention

The invention aims to provide an assembled centering bracket which is reliable in centering, high in centering precision, convenient to construct and excellent in universality. Another object of the present invention is to provide an anchor rod employing the above-mentioned centering bracket.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

the assembled centering support comprises a ship-shaped support and an assembly plug, wherein the ship-shaped support comprises an outer cylinder, an inner cylinder coaxially arranged in the outer cylinder and a rib plate connected between the outer cylinder and the inner cylinder, an inner screw tooth part is arranged on the inner wall of the inner cylinder, an outer screw tooth part matched with the inner screw tooth part is arranged on the outer wall of the assembly plug, the assembly plug is in screwed connection with the inner cylinder, a rib penetrating hole for a bolt body to penetrate through and a grouting pipe penetrating hole for grouting are formed in the assembly plug, and a first limiting part and a second limiting part for limiting the assembly plug to move on the bolt body are respectively arranged at two axial ends of the assembly plug.

As a preferable mode of the invention, the two ends of the outer cylinder along the axial direction are respectively provided with a first arc-shaped guide surface and a second arc-shaped guide surface. In a preferred embodiment of the present invention, the plurality of ribs are uniformly arranged on the inner wall of the outer cylinder. As a preferable mode of the present invention, the inner screw portion of the inner cylinder is longer than the outer screw portion of the fitting plug by 10-30mm, and the inner screw portion of the inner cylinder is shorter than the inner cylinder by 10-30mm.

As a preferable mode of the invention, the first limiting piece and the second limiting piece have the same structure, the first limiting piece comprises a barrel part with two open ends, the two ends of the barrel part along the axial direction are respectively provided with a first end and a second end, the first end is provided with a limiting table, the second end is provided with an annular groove, a binding wire is arranged in the annular groove, the outer diameter of the first end is larger than that of the second end, the invention further comprises an adjusting lock slot arranged on the barrel part, the adjusting lock slot penetrates from the inner wall to the outer wall of the barrel part, and the adjusting lock slot extends from the second end to the first end. In a preferred mode of the invention, the plurality of tendon passing holes are formed, the grouting pipe perforation is arranged on the central axis of the assembly plug, and the plurality of tendon passing holes are uniformly and annularly arranged around the grouting pipe perforation.

The invention also provides an anchor rod, which comprises an anchor rod body, a bearing plate body arranged on the anchor rod body and a centering bracket arranged on the anchor rod body, wherein a rib penetrating hole for the anchor rod body to penetrate is formed in the center of the bearing plate body along the axial direction, the centering bracket comprises a ship-shaped bracket and an assembly plug, the ship-shaped bracket comprises an outer cylinder, an inner cylinder coaxially arranged in the outer cylinder and a rib plate connected between the outer cylinder and the inner cylinder, an inner screw tooth part is arranged on the inner wall of the inner cylinder, an outer screw tooth part matched with the inner screw tooth part is arranged on the outer wall of the assembly plug, the assembly plug is in screw connection with the inner cylinder, a rib penetrating hole for the anchor rod to penetrate and a grouting pipe penetrating hole for grouting are formed in the assembly plug, and a first limiting part and a second limiting part for limiting the movement of the assembly plug on the anchor rod are arranged at two axial ends of the assembly plug.

The centering bracket adopts an assembly scheme, is very convenient to assemble on site, and avoids complex procedures such as cutting, bending and welding of a welded steel bar bracket and steel bar consumption; the ship-shaped bracket adopted by the centering bracket is a cylindrical bracket, so that the contact area between the ship-shaped bracket and the hole wall is large, the contact pressure is small, the ship-shaped bracket cannot sink into soil body of the hole wall, the anchor rod body can be ensured to be always positioned at the centering position in the construction process, and the bonding force between the anchor rod body and the grouting body is ensured; the assembly plug of the centering bracket can process different numbers of the tendon-penetrating holes and adjust diameters according to market demands, meets engineering requirements of different numbers of anchor rod bodies and rod diameters, and has good universality. Further, the outer cylinder of the ship-shaped bracket forms a first arc-shaped guide surface and a second arc-shaped guide surface along two axial ends respectively, the anchor rod body is placed in the drilling process, the anchor rod body has guiding and sliding functions, cutting and disturbance of the reinforcing steel bar welding bracket to a hole wall soil body can be effectively avoided, and soil body residues in the drilling are reduced.

Drawings

Fig. 1 is a schematic view of a tension-compression composite anchor rod with a universal centering bracket installed in the invention placed in an anchor rod drilling hole. Fig. 2 is a sectional view of the installation of the universal centering bracket of the present invention in a pressure bearing anchor segment. Fig. 3 is a sectional view showing the installation of the universal centering bracket in the tension anchoring section of the present invention. Fig. 4 is a cross-sectional view of a boat-shaped bracket in a first embodiment of the present invention. Fig. 5 is a rib elevation of a boat bracket in a first embodiment of the invention. FIG. 6 is a cross-sectional view of FIG. 4 A-A in accordance with the present invention. FIG. 7 is a cross-sectional view B-B of FIG. 4 in accordance with the present invention. FIG. 8 is a cross-sectional view of FIG. 4C-C in accordance with the present invention. Fig. 9 is a longitudinal cross-sectional view of a first universal plug of the present invention. Fig. 10 is a sectional view of fig. 9D-D in accordance with the present invention. Fig. 11 is a cross-sectional view of a first locking ring of the present invention. FIG. 12 is a section E-E of FIG. 11 according to the present invention. Fig. 13 is an assembled view of the assembled centering bracket of the present invention. Fig. 14 is a longitudinal cross-sectional view of an assembled plug of the present invention. Fig. 15 is a cross-sectional view of an assembled plug A-A of the present invention. Fig. 16 is a longitudinal side view of a first stop member of the present invention. FIG. 17 is a section B-B of FIG. 16. Fig. 18 is a cross-sectional view taken along line C-C of fig. 16. Fig. 19 is a sectional view of D-D in fig. 16. Fig. 20 is a longitudinal cross-sectional view of another construction of a boat bracket in an assembled centering bracket of the present invention. Fig. 21 is a schematic structural view of rib plates in the assembled centering bracket of the present invention. Fig. 22 is a sectional view of fig. 20E-E. Fig. 23 is a left side view of fig. 20. FIG. 24 is a cross-sectional view of the expansion shell bearing plate of the present invention. Fig. 25 is a left side view of fig. 24 in accordance with the present invention. Fig. 26 is a right side view of fig. 24 in accordance with the present invention. Fig. 27 is a schematic illustration of an anchor installed with an expanded shell bearing plate placed in an anchor borehole. Fig. 28 is a schematic view of the wheel type grout stop tire of the present invention in an anchor rod drilling after inflation. Fig. 29 is a sectional view showing the installation of the wheel type grout stop tire of the present invention in an inflated state. FIG. 30 is a cross-sectional view A-A of FIG. 29 in accordance with the present invention. FIG. 31 is a section B-B through FIG. 29 according to the present invention. FIG. 32 is a cross-sectional view of FIG. 29 according to the present invention. FIG. 33 is a front elevational view of the hub of the present invention. FIG. 34 is a D-D section of FIG. 33 according to the present invention. FIG. 35 is a cross-sectional view of a rubber tire prior to inflation with the spacer anchor grouting of the present invention. FIG. 36 is a cross-sectional view of a inflated rubber tire with the spacer anchor grouting of the present invention. FIG. 37 is a cross-sectional view of a rubber tire of the present invention prior to inflation using elevation anchor grouting and isolation grouting. FIG. 38 is a cross-sectional view of a inflated rubber tire of the present invention utilizing elevation anchor grouting and isolation grouting. FIG. 39 is a schematic diagram of an assembled integral bearing plate according to the present invention. FIG. 40 is a schematic exploded view of the integral bearing plate of the present invention. Fig. 41 is a schematic perspective view of an assembled integral bearing plate according to the present invention. Fig. 42 is a front view of an assembled integral bearing plate of the present invention.

In the figure:

10-an anchor rod body; 101-a pressure-bearing anchoring section rod body; 102, a rod body of the tension anchor section; 103—a first thread segment; 104-a second thread segment; 11-a sleeve; 12-extruding the sleeve; 121-welding spots; 13-limiting clamps; 21-an outer cylinder; 22-an inner cylinder; 23-rib plates; 211-a first arcuate guide surface; 212-a second arcuate guide surface; 221-a first tongue taper; 222-a second tongue taper; 223-a first adjustment slit; 224-a second adjustment slit; 225-inner thread part; 24-a first universal plug; 25-a second universal plug; 241-first tendon passing holes; 242-first reinforcement through seams; 243-first grouting pipe perforation; 244-a first limit cap; 245-a first chamfer; 26-a first locking ring; 261-first cone thread; 27-a second locking ring; 271-second cone threads; 30-a rock layer; 40-fitting the plug; 41-a tendon passing hole; 42-perforating the grouting pipe; 43-outer thread; 51-a first limiting piece; 52-a second limiting piece; 511-a limiting table; 512-a cylinder part; 513-an annular groove; 514-binding wires; 515-adjusting the lock joint; 60-bearing plate; 61-plate portion; 611-a through hole; 62-a taper; 63-an annular extrusion station; 64-a first annular yielding pad; 65-a second annular yielding pad; 66-connecting rib holes; 67-sleeve; 671-inner bore; 672-internal threads; 68-reinforcing plates; 70-tyre; 71-a charging pipe nozzle; 72-an inflation tube; 80-a hub; 81-a first tapered end; 82-a second tapered end; 83-a first lock stitch; 84-second lock joint; 85-hub slots; 90-grouting pipe; 91-a first locking ring; 92-a second locking ring; 911-first internal threads; 921-a second internal thread; 100-drilling holes; 200-exhaust pipes; 300-grouting body.

Detailed Description

Referring to fig. 1 to 38, in order to further explain the technical solution of the present invention, the following description will be made in detail with reference to the accompanying drawings.

Example 1

Referring to fig. 1 to 12, the present invention proposes a universal centering bracket including a boat bracket, a first universal plug 24, a second universal plug 25, a first locking ring 26, and a second locking ring 27. The ship-shaped bracket comprises an outer cylinder 21, an inner cylinder 22 coaxially arranged at two ends of the outer cylinder 21 and rib plates 23 connected between the outer cylinder 21 and the inner cylinder 22, wherein a first bolt cone part 211 and a second bolt cone part 212 are arranged at two ends of the inner cylinder 22 along the axial direction, the outer diameter of the first bolt cone part 211 and the outer diameter of the second bolt cone part 212 are gradually increased from the free end to the center direction of the inner cylinder 22, a first universal plug 24 is embedded in the first bolt cone part 211, a second universal plug 25 is embedded in the second bolt cone part 212, a first thread part is arranged on the outer wall of the first bolt cone part 211, a second thread part is arranged on the outer wall of the second bolt cone part 212, a first cone thread 261 matched with the first thread part is arranged on the inner wall of the first locking ring 26, and a second cone thread matched with the second thread part is arranged on the inner wall of the second locking ring 27. The first bolt cone portion 211 is provided with a first adjusting slit 223, the first adjusting slit 223 extends from the free end of the first bolt cone portion 211 to the middle of the inner cylinder 22 and penetrates from the inner wall of the first bolt cone portion 211 to the outer wall, the second bolt cone portion 212 is provided with a second adjusting slit 224, the second adjusting slit 224 extends from the free end of the second bolt cone portion 212 to the middle of the inner cylinder 22 and penetrates from the inner wall of the second bolt cone portion 212 to the outer wall, the first universal plug 24 is provided with a first rib penetrating hole 241 for penetrating the bolt body 10 and a first grouting pipe penetrating hole 243 for grouting, and the second universal plug 25 is provided with a second rib penetrating hole for penetrating the bolt body 10 and a second grouting pipe penetrating hole for grouting.

As a preferred mode of the present invention, a first limit cap 244 is disposed at one axial end of the first universal plug 24, a first chamfer 245 is disposed at the other axial end of the first universal plug 24, a second limit cap is disposed at one axial end of the second universal plug 25, and a second chamfer is disposed at the other axial end of the second universal plug 25. The outer diameter of the first limit cap 244 and the outer diameter of the second limit cap are both greater than the inner diameter of the inner barrel 22.

As a preferred mode of the present invention, the outer cylinder 21 is formed with a first arc-shaped guide surface 211 and a second arc-shaped guide surface 212 at both ends in the axial direction, respectively. By adopting the structure, the anchor rod body 10 can effectively avoid cutting and disturbance of the reinforcing steel bar welding bracket to the soil body of the hole wall in the process of putting the anchor rod body 10 into the drill hole 100, and reduce soil body residues in the drill hole.

In a preferred embodiment of the present invention, the plurality of ribs 23 are provided, and the plurality of ribs 23 are uniformly provided around the inner wall of the outer tube 21. As a preferred mode of the present invention, the first universal plug 24 and the second universal plug 25 have the same structure, the first grouting pipe perforation 243 is disposed on the central axis of the first universal plug 24, the number of the first rib penetrating holes 241 is plural, in an embodiment, the number of the first rib penetrating holes 241 is four, and the plural first rib penetrating holes 241 are uniformly disposed around the first grouting pipe perforation 243.

As a preferred mode of the present invention, the first reinforcement penetrating slit 242 is further included in communication with the first reinforcement penetrating hole 241, the first reinforcement penetrating slit 242 penetrates from one axial end to the other axial end of the first universal plug 24, and the first reinforcement penetrating slit 242 penetrates from the outer side wall of the first universal plug 24 to the first reinforcement penetrating hole 241. By providing the first through-reinforcement slot 242, the anchor rod body 10 can be quickly clamped into the first universal plug 24, and the assembly efficiency is improved. As a preferred mode of the present invention, the first universal plug 24 and the second universal plug 25 are both rubber plugs.

The invention also provides an anchor rod, which comprises an anchor rod body 10, a bearing plate 60 arranged on the anchor rod body 10 and a centering bracket arranged on the anchor rod body 10, wherein a through hole for the anchor rod body 10 to penetrate is formed in the center of the bearing plate 60 along the axial direction, and the centering bracket adopts the centering bracket introduced in the first embodiment. The anchor rod is a tension-compression composite anchor rod, and the anchor rod can be installed on the centering support in the following manner on the design positions of the free section, the pressure-bearing anchor section and the tension anchor section of the tension-compression composite anchor rod: (1) The first locking ring 26 is sleeved into the anchor rod body 10, then the first universal plug 24 is clamped, and the anchor rod body 10 is plugged into the first universal plug 24; (2) telescoping the inner barrel 22 of the boat-shaped bracket into the anchor rod body 10; (3) Then the second universal plug 25 is clamped, the anchor rod body 10 is plugged into the second universal plug 25, and the second locking ring 27 is sleeved into the anchor rod body 10; (4) Pushing the first universal plug 24 into the first lock tongue conical cylinder part 211, sleeving the first locking ring 26 into the first lock tongue conical cylinder part 221 and pre-screwing for 2-4 circles; the second universal plug 25 is plugged into the second lock tongue conical cylinder part 222, and the second locking ring 27 is sleeved into the second lock tongue conical cylinder part 222 and is pre-screwed for 2-4 circles: (5) After the centering bracket is moved to the design position, the first locking ring 26 and the second locking ring 27 are screwed to be tight, and then the centering bracket is installed.

Example two

Referring to fig. 13 to 23, the assembled centering support comprises a boat-shaped support and an assembling plug 40, the boat-shaped support comprises an outer cylinder 21, an inner cylinder 22 coaxially arranged in the outer cylinder 21 and a rib plate 23 connected between the outer cylinder 21 and the inner cylinder 22, an inner screw tooth part 225 is arranged on the inner wall of the inner cylinder 22, an outer screw tooth part 43 matched with the inner screw tooth part 225 is arranged on the outer wall of the assembling plug 40, the assembling plug 40 is in screw connection with the inner cylinder 22, a rib penetrating hole 41 for the anchor rod body 10 to penetrate through and a grouting pipe penetrating hole 42 for grouting are arranged on the assembling plug 40, and a first limiting piece 51 and a second limiting piece 52 for limiting the movement of the assembling plug 40 on the anchor rod body 10 are respectively arranged at two ends of the assembling plug 40 in the axial direction.

As a preferred mode of the present invention, the outer cylinder 21 is formed with a first arc-shaped guide surface 211 and a second arc-shaped guide surface 212 at both ends in the axial direction, respectively.

As a preferable mode of the present invention, the number of the ribs 23 is plural, the plurality of ribs 23 are uniformly arranged around the inner wall of the outer tube 21, and in the embodiment, the number of the ribs 23 is 4.

As a preferred mode of the present invention, the first limiting member 51 and the second limiting member 52 have the same structure, the first limiting member 51 includes a cylindrical body 512 with two open ends, the two ends of the cylindrical body 512 in the axial direction are respectively provided with a first end and a second end, the first end is provided with a limiting table 511, the second end is provided with an annular groove 513, a binding wire 514 is arranged in the annular groove 513, the outer diameter of the first end is larger than the outer diameter of the second end, and the first limiting member further includes an adjusting lock slit 515 arranged on the cylindrical body 512, the adjusting lock slit 515 penetrates from the inner wall to the outer wall of the cylindrical body 512, and the adjusting lock slit 515 extends from the second end to the first end.

As a preferable mode of the present invention, the plurality of bead penetrating holes 41 are provided, the grouting pipe penetrating holes 42 are provided on the central axis of the fitting plug 40, and the plurality of bead penetrating holes 41 are uniformly provided around the grouting pipe penetrating holes 42.

As a preferable mode of the present invention, the length of the inner screw 225 of the inner cylinder 22 is 10-30mm greater than the length of the outer screw 43 of the fitting plug 40, and the length of the inner screw 225 of the inner cylinder 22 is 10-30mm smaller than the length of the inner cylinder 22.

The invention also provides an anchor rod, which comprises an anchor rod body 10, a bearing plate 60 arranged on the anchor rod body 10 and a centering bracket arranged on the anchor rod body 10, wherein a through hole for the anchor rod body 10 to penetrate is formed in the center of the bearing plate 60 along the axial direction, and the centering bracket in the second embodiment is adopted. When the anchor rod is installed, the first limiting piece 51, the assembly plug 40 and the second limiting piece 52 are sleeved in the designed position of the anchor rod body 10 in sequence, the first limiting piece 51 and the second limiting piece 52 are abutted against the assembly plug 40, the first limiting piece 51 and the second limiting piece 52 are screwed and fixed on the annular grooves 513 of the first limiting piece 51 and the second limiting piece 52 respectively through binding wires 514, and then the inner barrel 22 of the ship-shaped bracket is sleeved in the outer screw tooth part 43 of the assembly plug 40 in a rotating mode until the outer screw tooth is tight.

The centering bracket adopts an assembly scheme, is very convenient to assemble on site, and avoids complex procedures such as cutting, bending and welding of a welded steel bar bracket and steel bar consumption; the ship-shaped bracket adopted by the centering bracket is a cylindrical bracket, the contact area with the hole wall is large, the contact pressure is small, the anchor rod body 10 can be ensured to be always positioned at the centering position in the construction process, and the binding force between the anchor rod body 10 and the grouting body 300 is ensured; the assembly plug 40 of the centering bracket can process different numbers of the reinforcement penetrating holes 41 and adjust diameters according to market demands, meets engineering requirements of different numbers and diameters of the anchor rod bodies 10, and has good universality.

Example III

Referring to fig. 24 to 27, the present invention further proposes an expansion shell bearing plate, including a tapered bearing plate, in which a through hole 611 through which the anchor rod body 10 passes is formed in the center of the tapered bearing plate along the axial direction, the tapered bearing plate includes a flat plate portion 61 and a tapered portion 62 formed on the flat plate portion 61, the flat plate portion 61 and the tapered portion 62 are integrally formed, two ends of the tapered portion 62 along the axial direction are respectively provided with a connection end and a free end, the outer diameter of the connection end is greater than the outer diameter of the free end, an annular extrusion table 63 is formed at the connection position of the connection end and the flat plate portion 61, and a first annular yielding pad 64 is provided on the annular extrusion table 63. As a preferred mode of the present invention, a second annular yielding pad 65 is fixed to the end face of the free end.

In a preferred embodiment of the present invention, the length of the tapered portion 62 in the axial direction is 0.5 to 1.5 times the outer diameter of the flat plate portion 61. As a preferred mode of the present invention, the taper angle of the taper portion 62 is 5 ° to 20 °, that is, the angle between the outer wall of the taper portion 62 and the central axis. As a preferred mode of the present invention, the thickness of the first annular pressure relief pad 64 and the thickness of the second annular pressure relief pad 65 are both 2 to 10mm. As a preferred form of the invention, the first annular crush pad 64 and the second annular crush pad 65 are both low modulus annular pads.

The invention also provides an anchor rod, which comprises an anchor rod body 10 and conical bearing plates arranged on the anchor rod body 10, wherein the conical bearing plates in the third embodiment are adopted, the anchor rod body 10 is penetrated in the through hole 611, 1 or more anchor rod bodies 10 are arranged,

in a preferred embodiment of the present invention, the sleeve 11 corresponding to the anchor rod 10 is sleeved outside the anchor rod 10, the anchor rod 10 is provided with an extrusion sleeve 12 at one end of the flat plate portion 61, and the extrusion sleeve 12 and the flat plate portion 61 are fixed by spot welding, and a welding point 121 is formed. In this embodiment, the anchor rod body 10 is one and is sleeved with a sleeve 11.

The mechanism for improving the pulling-resistant bearing capacity of the anchor rod is as follows: when the anchor rod is prestressed, the conical bearing plate can squeeze the grouting body, and as the annular squeezing table 63 is provided with the first annular pressure-yielding pad 64, the end face of the free end is fixedly provided with the second annular pressure-yielding pad 65, and the conical bearing plate can release certain deformation when squeezing the grouting body, namely certain yielding deformation is generated. In the "yielding" process: (1) The conical surface of the conical part 62 radially extrudes the peripheral grouting body to cause the grouting body to radially expand, and is similar to an expansion bolt, so that the grouting body extrudes the peripheral rock-soil body, and the normal stress of the interface between the grouting body and the rock-soil body is greatly increased due to the reverse constraint effect of the peripheral rock-soil body on the grouting body, so that the friction resistance of the interface between the grouting body and the rock-soil body is obviously enhanced; (2) The flat plate portion 61 presses the grouting body along the axial direction of the anchor rod, so that the grouting body tends to be pushed out of the drilled hole, on one hand, the binding force between the grouting body and the rock-soil body in the range of the whole anchoring section of the anchor rod is overcome, and on the other hand, the friction resistance which is remarkably increased due to the lateral expansion of the grouting body of the expansion shell bearing plate Zhou Bianzhu is overcome. Based on the two reasons, the expansion shell bearing plate greatly improves the anti-pulling bearing capacity of the anchor rod.

Example IV

Referring to fig. 28 to 38, the wheel type grout stop tire comprises a hub 80 and a tire 70 sleeved on the hub 80, wherein the hub 80 can be a rubber hub, an inflation tube nozzle 71 is arranged on the tire 70, the inflation tube nozzle 71 is connected with an inflation tube 72 for inflating the tire 70, and a rib penetrating hole 41 for penetrating the anchor rod body 10 and a grouting tube penetrating hole 42 for penetrating the grouting tube are arranged on the hub 80. The two ends of the hub 80 along the axial direction form a first tapered lock 81 and a second tapered lock 82 respectively, the first tapered lock 81 is provided with a first external thread, the second tapered lock 82 is provided with a second external thread, the hub further comprises a first lock ring 91 for locking the first tapered lock 81 on the anchor rod body 10 and a second lock ring 92 for locking the second tapered lock 82 on the anchor rod body 10, the first lock ring 91 is sleeved on the first tapered lock 81, the second lock ring 92 is sleeved on the second tapered lock 82, the first lock ring 91 is provided with a first internal thread 911 matched with the first external thread, the second lock ring 92 is provided with a second internal thread 921 matched with the second external thread, the first tapered lock 81 is provided with a plurality of first lock slits 83, the first lock slits 83 penetrate from the outer wall of the first tapered lock to the inner wall and extend from the free end of the first tapered lock 81 to the hub 80, the second tapered lock 82 is provided with a plurality of second lock slits 84, and the second lock slits 84 penetrate from the outer wall of the second tapered lock 82 to the free end of the second tapered lock 82. In the present invention, the first tapered locking head 81 and the second tapered locking head 82 are integrally formed at both axial ends of the hub 80, and the outer diameter of the first tapered locking head 81 is gradually increased and the outer diameter of the second tapered locking head 82 is gradually increased from the end surface (i.e., free end) toward the middle of the hub 80.

In a preferred embodiment of the present invention, the tire 70 is a rubber tire, the hub 80 is provided with a hub groove 85 for mounting the tire 70, and the outer diameter of the hub groove 85 is larger than the inner diameter of the tire 70 in the initial state. The tire 70 is nested in the hub groove 85 by resilient expansion.

The invention also provides an anchor rod, which comprises an anchor rod body 10 and a bearing plate 60 arranged on the anchor rod body 10, wherein a through hole for the anchor rod body 10 to penetrate is formed in the center of the bearing plate 60 along the axial direction, and the anchor rod further comprises a wheel type grout stop tire arranged on the anchor rod body 10, wherein the wheel type grout stop tire comprises the wheel type grout stop tire in the fourth embodiment.

As a preferred mode of the present invention, the bearing plate 60 is fixed on the anchor rod body 10 through the extrusion sleeve and the limiting clamp, the extrusion sleeve 12 and the limiting clamp 13 are respectively arranged at two axial ends of the bearing plate 60, and the sleeve 11 is sleeved on the anchor rod body 10 between the anchor head and the bearing plate 60.

After the technical scheme of the invention is adopted, the wheel hub 80 of the wheel type slurry-stopping tyre and the tyre 70 can be produced in batches, which is very convenient; the hub 80, the tire 70 and the locking ring can be assembled on site, and the construction is very convenient; the hubs 80 can be provided with different rib penetrating holes 41 according to the number and the diameter of the anchor rod bodies 10, so that the universality is high; the tire 70 can be tightly contacted with the wall of the borehole 100 by the inflation pressure, so that the isolation or sealing effect is stronger, and the safety and the reliability are realized. The invention can adopt the following application modes:

application case 1, referring to fig. 35-36, when the wheel type grout stop tire of the fourth embodiment is used for pulling and pressing a composite anchor rod and is used for isolating grouting bodies of a free section (L1) and an anchoring section (L2) of the anchor rod, the method comprises the following steps:

(1) Fitting the tire 70 over the hub groove 85 of the hub 80 and connecting the inflation tube 72 to the inflation tube nipple 71 of the tire 70; (2) The two ends of the rubber hub 80 are respectively slightly sleeved with a first locking ring 91 and a second locking ring 92, and the rubber hub 80 is penetrated into the design position of the pull-press composite anchor rod body 10 and then is penetrated into the grouting pipe 90; (3) The first lock ring 91 and the second lock ring 92 at the two ends of the rubber hub 80 are locked, and the installation of the wheel type grout stop tire on the anchor rod body 10 is completed; (4) placing the bolt body 10 into the bolt bore 100; grouting is performed into the drill hole 100 through the grouting pipe 90, and when grouting continuously overflows from the hole opening of the drill hole 100, grouting is stopped as shown in fig. 35; (5) After the tire 70 is inflated to the design pressure, the air intake valve of the inflation tube 72 is closed, as shown in fig. 36; (6) After the grouting strength meets the design requirement, opening the inflation tube 72, and exhausting the gas in the tire 70, thereby completing the grouting separation of the anchor rod free section (L1) and the anchoring section (L2).

Application case 2, referring to fig. 37-38, when the wheel type grout stop tire of the fourth embodiment is used for the pulling and pressing composite anchor rod of an elevation angle, and is used for grouting the anchor rod of the elevation angle and grouting the free section (L1) and the anchoring section (L2) of the isolation anchor rod, the method comprises the following steps:

(1) The rubber tire 70 is sleeved on the hub groove 85 of the first support hub 80, and the inflation tube 72 is connected to the inflation tube connector 71 of the tire 70; (2) The two ends of the rubber hub 80 are respectively and slightly sleeved with a first locking ring 91 and a second locking ring 92, the rubber hub 80 is penetrated into the junction of the anchor rod free section (L1) and the anchor section (L2) of the pull-press composite anchor rod body 10, then the exhaust pipe 200 is penetrated into the bottom of the anchor rod, and the exhaust pipe 200 is penetrated from the middle hole of the grouting pipe perforation 42 of the wheel type grout stop tire; (3) The first lock ring 91 and the second lock ring 92 at the two ends of the rubber hub 80 are locked, and the installation of the first supporting wheel type grout stop tire on the anchor rod body 10 is completed; (4) Fixing a second support hub 80 sleeved in the tire 70 at the hole of the anchor rod body 10 positioned in the drilling hole 100; the anchor rod body 10 is placed into the anchor rod drilling 100; (5) Extending a grouting pipe 90 with a shorter length into the hole opening of the drilling hole 100, and closing the gas charging pipe 72 after the tire 70 mounted on the second support hub 80 is charged to the design pressure, thus completing the sealing of the drilling hole 100;

(6) Grouting into the drill hole 100 through the grouting pipe 90, stopping grouting and closing the grouting pipe 90 when the exhaust pipe 200 overflows with grout; as shown in fig. 37; (7) After the tire 70 mounted on the first support hub 80 is inflated to a design pressure, the air intake valve of the inflation tube is closed, as shown in fig. 38; (8) After the grouting strength meets the design requirement, opening an inflation tube 72 connected with the tire 70 on the first support hub 80, and exhausting the air in the tire 70, so as to complete the grouting separation of the anchor rod free section (L1) and the anchoring section (L2).

Example five

Referring to fig. 39 to 42, the assembled integral bearing plate comprises a bearing plate 60 and further comprises four sleeves 67 fixed on the bearing plate 60, in the embodiment, four sleeves 67 are uniformly distributed around the center of the bearing plate 60, of course, the invention is not limited to four sleeves 67, the bearing plate 60 is provided with a connecting rib hole 66 for penetrating the anchor rod body 10, the inner wall of the connecting rib hole 66 is provided with an internal thread 672, the sleeves 67 are provided with an internal hole 671 with the same diameter as the connecting rib hole 66, the sleeves 67 are coaxially arranged with the connecting rib hole 66, the internal hole 671 is provided with an internal thread 672 identical with the connecting rib hole 66, the anchor rod body 10 comprises a bearing anchor section rod body 101 and a tension anchor section rod body 102, the bearing anchor section rod body 101 and the tension anchor section rod body 102 are respectively arranged at two sides of the bearing plate 60, the end part of the bearing anchor section rod body 101 is provided with a first thread section 103 and a second thread 104, the end part of the bearing anchor section rod body 101 is provided with the internal thread 672, and the first thread 103 is matched with the internal thread 672 of the second thread 671.

As a preferable mode of the present invention, the sleeve 67 further comprises a reinforcing plate 671 for reinforcing the sleeve 67, and the reinforcing plate 671, the sleeve 67 and the bearing plate 60 are integrally formed.

As a preferable mode of the present invention, the reinforcing plates 671 are plural, and in the embodiment, two reinforcing plates 671 are provided for each sleeve 67, and the plural reinforcing plates 671 are uniformly provided (when two reinforcing plates 671 are symmetrically provided) in the circumferential direction of the sleeve 67, the reinforcing plates 671 are triangular in the axial direction of the sleeve 67. As a preferable mode of the invention, the thickness of the bearing plate 60 is 15-40mm, and the diameter of the rib connecting hole 66 is 16-32mm. As a preferred mode of the invention, the length of the sleeve 67 is 30-100mm, and the wall thickness of the sleeve 67 is 5-20mm.

The invention further provides an anchor rod, which comprises an anchor rod body 10, a bearing plate 60 arranged on the anchor rod body 10, a centering bracket arranged on the anchor rod body 10, and a sleeve 67 fixed on the bearing plate 60, wherein the bearing plate 60 is provided with a connecting rib hole 66 for penetrating the anchor rod body 10, the inner wall of the connecting rib hole 66 is provided with an inner thread 672, the sleeve 67 is provided with an inner thread 671 with the same diameter as the connecting rib hole 66, the inner hole 671 is provided with an inner thread 672 with the same diameter as the connecting rib hole 66, the bearing plate 101 is provided with a first thread section 103, the tensioning anchor rod body 102 is provided with a second thread section 104, the first thread section 103 is matched with the inner thread 672 of the connecting rib hole 66, and the second thread section 104 is matched with the inner thread 672 of the inner hole 671. In the present invention, the sleeve 11 is sleeved on the rod 101 of the pressure-bearing anchoring section, wherein the centering bracket may be the centering bracket described in other embodiments, and the grouting pipe 90 may pass through between the bearing plate 60 and the inner wall of the borehole 100, or a through hole 611 is provided in the center of the bearing plate 60 for penetrating the grouting pipe 90. The construction steps of the assembled integral bearing plate are as follows:

(1) Cutting the pressure-bearing anchoring section rod body 101 and the tension anchoring section rod body 102 according to design requirements, and respectively processing a first thread section 103 of the pressure-bearing anchoring section rod body 101 and a second thread section 104 of the tension anchoring section rod body 102; (2) Penetrating the first thread section 103 of the pressure-bearing anchoring section rod body 101 into the connecting rib hole 66 of the pressure-bearing plate 60, and screwing to be tight; (3) Threading the second threaded section 104 of the tensioned anchor section rod body 102 into the inner bore 671 of the sleeve 67, screwing to tight; (4) And sleeving a sleeve on the rod body 101 of the pressure-bearing anchoring section, thus completing the installation of the tension-compression composite anchor rod.

The wheel type grout stop tire can be used in the anchor rods of the first embodiment, the second embodiment or the third embodiment and the fifth embodiment. The expansion shell bearing plate can be used in the anchor rod in the first embodiment, the second embodiment or the fourth embodiment to replace the bearing plate in the first embodiment, the second embodiment or the fourth embodiment, and meanwhile, the expansion shell bearing plate can be limited by the extrusion sleeve and the limiting clamp.

The form of the present invention is not limited to the illustrations and examples, and any person who performs a similar idea of the present invention should be regarded as not departing from the scope of the patent of the invention.

Claims (5)

1. Assembled centering support, its characterized in that: the device comprises a ship-shaped bracket and an assembly plug, wherein the ship-shaped bracket comprises an outer cylinder, an inner cylinder coaxially arranged in the outer cylinder and a rib plate connected between the outer cylinder and the inner cylinder, an inner screw tooth part is arranged on the inner wall of the inner cylinder, an outer screw tooth part matched with the inner screw tooth part is arranged on the outer wall of the assembly plug, the assembly plug is screwed in the inner cylinder, a rib penetrating hole for a bolt body to penetrate through and a grouting pipe penetrating hole for grouting slurry are formed in the assembly plug, and a first limiting part and a second limiting part for limiting the movement of the assembly plug on the bolt body are respectively arranged at two axial ends of the assembly plug;

a first arc-shaped guide surface and a second arc-shaped guide surface are respectively formed at two ends of the outer cylinder along the axial direction;

the first locating part with second locating part structure is the same, first locating part includes both ends open-ended barrel portion, and barrel portion establishes respectively to first end and second end along axial both ends, and first end is equipped with spacing platform, and the second end is equipped with annular groove, is equipped with the binding in the annular groove, and the external diameter of first end is greater than the external diameter of second end, still including setting up the adjustment fore shaft on barrel portion, the adjustment fore shaft runs through to the outer wall from the inner wall of barrel portion, and the adjustment fore shaft extends to first end from the second end.

2. The fabricated centering bracket of claim 1, wherein: the rib plates are multiple, and the rib plates are uniformly arranged on the inner wall of the outer cylinder in a surrounding mode.

3. The fabricated centering bracket of claim 1, wherein: the inner screw tooth part of the inner cylinder is 10-30mm longer than the outer screw tooth part of the assembly plug, and the inner screw tooth part of the inner cylinder is 10-30mm longer than the inner cylinder.

4. The fabricated centering bracket of claim 1, wherein: the plurality of rib penetrating holes are formed in the central axis of the assembly plug, and the plurality of rib penetrating holes are uniformly and annularly formed around the perforation of the grouting pipe.

5. The utility model provides an anchor, includes the stock body, installs the bearing plate body on the stock body and installs the centering support on the stock body, and the center of bearing plate body is offered along the axial and is supplied the tendon hole of wearing that the stock body runs through, its characterized in that: the centering bracket comprises a ship-shaped bracket and an assembly plug, wherein the ship-shaped bracket comprises an outer cylinder, an inner cylinder coaxially arranged in the outer cylinder and a rib plate connected between the outer cylinder and the inner cylinder, an inner screw tooth part is arranged on the inner wall of the inner cylinder, an outer screw tooth part matched with the inner screw tooth part is arranged on the outer wall of the assembly plug, the assembly plug is screwed in the inner cylinder, a rib penetrating hole for a bolt to pass through and a grouting pipe penetrating hole for grouting are formed in the assembly plug, and a first limiting part and a second limiting part for limiting the movement of the assembly plug on the bolt are arranged at two axial ends of the assembly plug;

a first arc-shaped guide surface and a second arc-shaped guide surface are respectively formed at two ends of the outer cylinder along the axial direction;

the first locating part with second locating part structure is the same, first locating part includes both ends open-ended barrel portion, and barrel portion establishes respectively to first end and second end along axial both ends, and first end is equipped with spacing platform, and the second end is equipped with annular groove, is equipped with the binding in the annular groove, and the external diameter of first end is greater than the external diameter of second end, still including setting up the adjustment fore shaft on barrel portion, the adjustment fore shaft runs through to the outer wall from the inner wall of barrel portion, and the adjustment fore shaft extends to first end from the second end.