CN211951102U - Self-bottom-expanding mechanical anchor bolt - Google Patents

Abstract

The utility model discloses a from expanding bottom type machinery crab-bolt in the crab-bolt field, including crab-bolt screw rod and sleeve, the crab-bolt screw rod includes polished rod portion and the expansion portion and the screw thread portion of both sides, and the sleeve cover is in the outside of crab-bolt screw rod, and the nut cover is on screw thread portion, and the expansion portion includes tubaeform back taper head, and the outer tip of back taper head is connected with polished rod portion through the curved back taper face of indent, and its inner end portion is equipped with convex binding face, and back taper head is connected with binding face through transition plane; the telescopic interior tip is equipped with a plurality of evenly distributed's radial tear strip, forms the piece that opens of expanding between two adjacent tear strips, and the front end outer wall of the piece that opens of expanding is equipped with cutting edge tooth group, and the inner wall of the piece that opens of expanding is equipped with the district of polishing, and the front end in the district of polishing is equipped with the horn mouth, and the horn mouth is connected with the outside of cutting edge tooth group and is formed wedge structure. The utility model discloses the convenience, the visualization of the bloated convenience of opening and crab-bolt implantation of sleeve expansion piece have been improved, the stress concentration scheduling problem that screw rod and sleeve expansion piece expand to bear the load has been reduced.

Description

Self-bottom-expanding mechanical anchor bolt

Technical Field

The utility model relates to an crab-bolt field, specific theory relates to a from expanding bottom type machinery crab-bolt.

Background

Mechanical crab-bolt is the subassembly of utilizing the frictional action between crab-bolt and the drilling or the anchor of key effect on the concrete substrate, and main atress part comprises fastener (screw rod, nut, gasket), conical head, expanding piece (expansion sleeve or expansion piece) etc. that metal material made, and mechanical crab-bolt divide into: expansion anchor, expanding bottom anchor, self-tapping anchor, etc. Because the bottom-expanding anchor bolt forms a locking key relative to the expansion anchor bolt, mechanical meshing force is used as anchoring force, the stress distribution is similar to that of a large-head embedded part, the bottom-expanding anchor bolt has the characteristics of small stress area, small margin and small distance, the reliability is high, a large force value can be output when the drawing displacement is small, the bottom-expanding anchor bolt is suitable for cracked concrete, has excellent anti-seismic performance, and is widely applied to the building fields of public buildings, plants, rail transit, nuclear power and the like.

The bottom expanding anchor bolt is divided into: a die bottom expanding anchor bolt and a self bottom expanding anchor bolt. The die bottom expanding anchor bolt is a bottom expanding anchor bolt which is pre-expanded and then installed by a special die drill bit; the self-bottom-expanding anchor bolt is an anchor bolt with a hard cutting edge on an anchor bolt expansion piece, and completes hole expansion and expansion piece embedding while installing the anchor bolt. However, with the rapid development of the construction industry, the construction efficiency of the building is also accelerated continuously, and dangerous accidents such as collapse are easily caused by traditional anchoring type rooting products. Such products on the market present the following problems:

(1) the die bottom expanding anchor bolt has multiple installation steps, workers often do not perform hole expanding and direct implantation installation in order to improve installation efficiency, and the inverted cone-shaped locking key of the die bottom expanding is converted into friction force between the sleeve expanding sheet and the concrete wall, so that engineering safety is influenced.

(2) The self-bottom-expanding anchor bolt has an expansion piece with a cutting edge, is difficult to expand or insufficient to expand, is difficult to install and has unsatisfactory force value output.

(3) As shown in fig. 1, the inverted-cone-shaped locking key is shown as a square frame on the left side in the figure, the screw rod of the existing self-bottom-expanding anchor bolt is in a triangular inverted cone shape, and the connecting part of the anchor bolt rod and the inverted cone has an obvious boundary and an angle. When the anchor bolt bears load, the triangular inverted cone surface easily bends the sleeve at the bending part, and the bending amount is too large, so that the bending part of the sleeve is seriously stretched or extruded, the stress on the bending part of the sleeve is concentrated, and a cavity is also formed at the bending part, so that the sleeve cannot be supported by the inverted cone surface; under the condition of stress after actual installation, the inverted cone head stretches outwards, the triangular inverted cone surface can extrude the expansion sheet, so that the bending amount is continuously increased, the expanded sleeve expansion sheet can intensively lift the triangular inverted cone head, and meanwhile, a tensile stress concentration area is formed at the intersection of the screw and the inverted cone head through the stretching of the screw; the triangular inverted cone angle of the screw is steep, the end head and the inner wall of the sleeve are easily scraped with the triangular surface during installation, the installation difficulty is increased, and the sleeve expansion piece is prevented from being fully expanded.

(4) The hard cutting edge on the sleeve expansion piece is not easy to expand, and in order to enable the sleeve expansion piece to enter a cylindrical hole without back cutting, cutting teeth on the expansion piece are embedded into the hole wall and scrape concrete on the hole wall, so that the screw inverted cone head extrudes the expansion piece and rotates to realize back cutting until the maximum of the screw inverted cone shape. In order to insert the blade of the self-bottom-expanding anchor bolt expanding piece into the wall of the concrete hole and complete back cutting, larger impact energy needs to be realized on the other end of the sleeve.

Disclosure of Invention

In order to overcome the not enough of current technique, the utility model provides a from expanding bottom type machinery crab-bolt has improved the convenience, the visualization of the bloated opening of sleeve expansion piece and crab-bolt implantation, has reduced screw rod and sleeve expansion piece bloated stress concentration scheduling problem that bears the load.

The utility model discloses technical scheme as follows:

a self-expanding bottom type mechanical anchor bolt comprises an anchor bolt screw rod and a sleeve, wherein the anchor bolt screw rod comprises a polished rod part, an expansion part and a screw thread part which are arranged on two sides of the polished rod part, the sleeve is sleeved on the outer side of the anchor bolt screw rod, a nut is sleeved on the screw thread part,

the expansion part comprises a horn-shaped inverted cone head, the outer end part of the inverted cone head is connected with the polished rod part through an inwards concave arc inverted cone, a convex binding surface is arranged at the inner end part of the inverted cone head, and the inverted cone head is connected with the binding surface through a transition plane;

the inner end part of the sleeve is provided with a plurality of radial opening strips which are uniformly distributed, an expansion sheet is formed between every two adjacent opening strips, the outer wall of the front end of the expansion sheet is provided with a cutting edge tooth group, the inner wall of the expansion sheet is provided with a polishing area, the front end of the polishing area is provided with an inclined horn mouth, and the horn mouth and the outermost side of the cutting edge tooth group are connected to form a wedge-shaped structure.

According to above-mentioned scheme the utility model discloses, its characterized in that, the outer tip of polished rod portion is equipped with round annular mark.

Further, the annular mark is formed by painting or laser routing.

According to the utility model discloses of above-mentioned scheme, its characterized in that, the tip of screw thread portion is equipped with the corner of chamfer or shrink form.

Further, the chamfer or the corner is formed by cutting.

According to the above scheme the utility model discloses, its characterized in that, binding face includes a plurality of interconnect's inclined plane, the inclined plane pass through the chamfer cambered surface with the planar edge connection of transition.

Further, the inclined surface comprises a plurality of annular conical surfaces with different inclination angles or a plurality of annular spherical surfaces with different radiuses.

According to the above scheme the utility model discloses, its characterized in that, the external diameter of screw thread portion is greater than the external diameter of polished rod portion.

According to above-mentioned scheme the utility model discloses, its characterized in that, telescopic medial extremity is equipped with two tear strips at least, and then forms two at least bloated pieces that open.

According to above-mentioned scheme the utility model discloses, its characterized in that, the horn mouth is the arc or the conical surface shape of evagination.

According to above-mentioned scheme the utility model discloses, its characterized in that, telescopic surface is equipped with the first deformation trace of indent, cutting edge tooth group is located the outside of first deformation trace.

Furthermore, the section of the first deformation mark is rectangular, inverted conical triangular, fold-line-shaped or concave arc-line-shaped.

According to the above scheme the utility model discloses, its characterized in that, cutting edge tooth group is including overhead kick tooth and a plurality of cutting edge tooth, cutting edge tooth is located the outside of overhead kick tooth, overhead kick tooth and the most inboard between the cutting edge tooth, adjacent two cut respectively between the cutting edge tooth inwards form different supplementary deformation marks.

Further, extending along the sleeve towards the edge, the size and depth of the cutting edge teeth are sequentially increased.

Further, the depth and the width of the auxiliary deformation mark are sequentially increased along the sleeve towards the edge.

Furthermore, the depth of the first deformation mark is greater than that of the auxiliary deformation mark, and the width of the first deformation mark is greater than that of the auxiliary deformation mark.

Furthermore, the tangent plane of the cutting edge tooth is in an inverted cone shape.

According to the above scheme the utility model discloses, a serial communication port, be equipped with the non return point of symmetry on the telescopic outer end lateral wall.

Further, the check point is formed by mechanical punching.

Furthermore, the outer surface of the non-return point is inwards concave to form a concave point, and the inner surface of the non-return point is inwards convex to form a convex point.

According to the above scheme the utility model discloses, its characterized in that, the district of polishing includes the trace of polishing of a plurality of circulars.

According to above-mentioned scheme the utility model discloses, its characterized in that, the sleeve is in the wall thickness of district position of polishing is less than the wall thickness of other positions.

According to the above scheme the utility model discloses, its characterized in that, it has the plain washer still to overlap on the screw thread portion, the nut passes through the plain washer with muffjoint.

Further, a spring washer is arranged between the nut and the flat washer.

According to the above scheme the utility model discloses, its beneficial effect lies in, the utility model discloses the convenience, the visualization of the bloated convenience of opening and crab-bolt implantation of sleeve expansion piece have been improved, the stress concentration scheduling problem that screw rod and sleeve expansion piece bloated to open and bear the load has been reduced, and is concrete:

(1) the problems that the expanding part of the self-bottom-expanding anchor bolt sleeve is expanded and needs larger impact energy and is difficult to expand are greatly improved by the arc design of the inverted cone, the polishing area of the inner wall of the sleeve, the horn mouth at the edge of the inner wall of the sleeve, the design of each cutting edge tooth and the design of each deformation mark;

(2) the arc inverted cone surface and the sleeve are consistent in expansion deformation, so that the expansion sheet is uniformly deformed, and the problems of stress concentration caused by tension of an anchor bolt screw and stress concentration caused by stress of the sleeve expansion sheet are reduced to the greatest extent;

(3) the design of the first deformation mark and the size distribution of each cutting edge tooth solve the problem that the self-expanding bottom anchor bolt is difficult to cut the wall of the concrete hole, so that the range of back cutting concrete is as large as possible, and finally, each cutting edge tooth and the inverted hook tooth are meshed with the concrete to form an inverted cone-shaped locking key, so that the inverted cone-shaped locking key is as large as possible (the cutting range is large, the size of the formed inverted cone-shaped locking key can be ensured), the maximum force value can be ensured to be output under the condition of displacement as small as possible, and the self-expanding bottom anchor bolt is more stable and reliable relative to the existing;

(4) the polishing area of the inner wall of the sleeve enables the anchor bolt sleeve expansion piece to be in a contraction state in a natural state, so that concrete on the hole wall can not be scraped when the anchor bolt is implanted into the hole, the screw rod and the sleeve can be fixed through the non-return point design, and whether the depth of the anchor bolt hole meets the requirement can be checked through visual inspection.

Drawings

Fig. 1 is a schematic structural view of a self-expanding anchor bolt in the prior art.

Fig. 2 is a schematic structural diagram of the present invention.

Fig. 3 is a schematic structural view of an anchor bolt screw.

Fig. 4 is a schematic view of the bonding surface.

Fig. 5 is a schematic structural view of the sleeve.

FIG. 6 is a schematic view of a flare and a set of cutting teeth according to an embodiment.

FIG. 7 is a schematic view of another embodiment of a flare and a set of cutting teeth.

FIG. 8 is a schematic structural diagram of a deformation mark group.

Fig. 9 to 11 are schematic structural diagrams of the first deformation mark in different embodiments.

Fig. 12 is a side sectional view at a stopping point.

FIG. 13 is a schematic view of the ring markers after the anchor bolt screw is connected to the sleeve.

In the figure, 01, an anchor bolt screw; 02. a sleeve;

10. an anchor bolt screw; 11. a threaded portion; 111. chamfering; 12. a light bar section; 121. a ring-shaped mark; 13. a reverse taper head; 14. an inverted conical surface; 15. a transition plane; 16. a binding face;

20. a sleeve; 21. expanding and opening the sheet; 211. a tear strip; 212. polishing the area; 213. polishing a trace; 214. a bell mouth; 22. a cutting edge tooth group; 2211. a first cutting edge tooth; 2212. a second cutting edge tooth; 2213. a third cutting edge tooth; 2214. a reverse hook tooth; 2221. a first deformation mark; 2222. a second deformation mark; 2223. a third deformation mark; 2224. a fourth deformation mark; 23. a non-return point; 231. concave points; 232. salient points;

31. a nut; 32. a spring pad; 33. a flat washer;

40. the outer wall of the hole; 41. a conical bore bottom; 42. a void space; 43. the inverted cone void.

Detailed Description

The invention is further described with reference to the following figures and embodiments:

as shown in fig. 2, the self-expanding bottom type mechanical anchor bolt comprises an anchor bolt screw 10 and a sleeve 20, wherein the sleeve 20 is sleeved outside the anchor bolt screw 10, a nut 31 is sleeved on a threaded portion 11 at the outer end of the anchor bolt screw 10, a flat washer 33 is further sleeved on the threaded portion 11, and the nut 31 is connected with the sleeve 20 through the flat washer 33. Preferably, a spring washer 32 is arranged between the nut 31 and the flat washer 33, so that the adjustability between the nut 31 and the flat washer 33 is increased.

First, anchor bolt screw 10

As shown in fig. 3, the anchor bolt 10 includes a shank portion 12, and an expansion portion and a screw portion 11 provided on both sides of the shank portion 12.

1. Screw part 11

The end of the threaded portion 11 is provided with a chamfer 111 or a contraction-shaped corner, and since the end needs to be hammered in the process of implanting the mechanical anchor bolt into the hole, the nut 31 can be easily screwed into the threaded portion 11 after being hammered and deformed by applying the chamfer 111 or the contraction-shaped corner. Preferably, the chamfer 111 or the corner is formed by cutting, which simplifies the process of processing the chamfer 111 or the corner.

2. Polished rod part 12

The outer end of the smooth rod portion 12 is provided with a ring-shaped mark 121, so that after the sleeve 20 is pushed towards the front end of the anchor bolt 10, a construction installer can conveniently check whether the edge of the sleeve 20 reaches the center of the ring-shaped mark 121 or at least exposes a part of the ring-shaped mark 121 (as shown in fig. 13), so as to judge whether the expansion piece portion of the sleeve 20 is fully expanded.

Preferably, the annular mark 121 is formed by painting or laser bonding, so that the iron base of the anchor bolt 10 is not damaged, and stress concentration caused by forming an annular damaged part is avoided.

3. Expansion part

The expansion part comprises a horn-shaped inverted cone head 13, the outer end part of the inverted cone head 13 is connected with the polished rod part 12 through an inward concave arc-shaped inverted cone surface 14, the gradient is slow, the whole body is horn-shaped, and no obvious boundary line exists at the junction of the polished rod part 12 and the inverted cone head 13. The design functions of the inverted cone head 13 and the inverted cone surface 14 are as follows:

(1) in the process that the expanding sheet of the sleeve 20 is pushed to the front end by the arc-shaped inverted conical surface 14, the expanding sheet is in the same expanding deformation state with the expanding sheet, a cavity cannot be generated, the inverted conical surface 14 can extrude the expanding sheet and support the inner wall of the expanding sheet, the inner wall of the expanding sheet can be easily supported and expanded by the inverted conical surface 14, cutting teeth on the expanding sheet are embedded into a hole wall and scrape concrete on the hole wall, and the inverted conical head 13 extrudes the expanding sheet and rotates to realize back cutting until the edge of the front end of the inverted conical surface 14, so that the cutting edge of the expanding part of the sleeve 20 is inserted into the concrete hole wall and completes back cutting, the impact applied to the tail of the sleeve 20 in the installation process is reduced as much as possible, the largest locking key is formed, and the purposes of convenience, labor saving and reliability in the installation process of the sleeve 20 are.

(2) The inverted cone head 13 is trumpet-shaped, there is no obvious boundary line in the junction of the polished rod part 12 and the inverted cone head 13, under the condition of stress after the actual installation, the inverted cone head 13 is stretched to one side of the threaded part 11 to produce a slight displacement, the inverted cone 14 can extrude the expanding sheet to continuously increase the bending amount, the expanding sleeve 20 expanding sheet can concentrate and lift the inverted cone head 13, and simultaneously, a tensile stress concentration area is formed at the junction of the screw and the inverted cone head 13 through the stretching of the screw, the arc inverted cone 14 and the trumpet-shaped inverted cone head 13 in the embodiment can avoid forming the stress concentration area of the anchor bolt screw 10; in addition, the inverted conical surface 14 can make the expansion sheet metal of the sleeve 20 deform uniformly, the deformation amount of each expansion sheet is almost the same, and the expansion sheet cannot form a stress concentration area of the expansion sheet due to overlarge deformation amount of a certain point.

The inner end part of the inverted cone head 13 is provided with a convex fitting surface 16 in a circular shield shape, and the inverted cone head 13 is connected with the fitting surface 16 through a transition plane 15. The shape of the abutting surface 16 in this embodiment is designed to have the following functions: (1) during the process of implanting the anchor bolt screw 10 into the hole, scraping between the anchor bolt screw and the concrete on the hole wall can be reduced as much as possible; (2) the convex binding surface 16 is in a shape of a rammer head and can smash concrete scraps at the bottom of the hole; (3) when impacting, expanding the piece and the extrusion of curved back taper 14 to the afterbody of sleeve 20, binding face 16 can with strike the hole bottom laminating of boring the impact, withstand crab-bolt screw rod 10, the convenience that the piece and the 14 extrusion of back taper of being convenient for expand and guarantee that the piece expands and open.

Preferably, as shown in fig. 4, the abutting surface 16 comprises a plurality of mutually connected inclined surfaces, which are connected with the edge of the transition plane 15 by a chamfer arc. The inclined plane comprises a combination of a plurality of annular conical surfaces with different inclination angles or a combination of a plurality of annular spherical surfaces with different radiuses, the binding surfaces 16 with different shapes and combinations are produced through different processes, and the production process is diversified.

Second, sleeve 20

As shown in fig. 5, the inner end of the sleeve 20 is provided with a plurality of uniformly distributed radial tear strips 211, and an expansion sheet 21 is formed between two adjacent tear strips 211. Preferably, the end portion of the inner side of the sleeve 20 is provided with at least two opening strips 211, so as to form at least two expansion sheets 21, and in this embodiment, the opening strips 211 are preferably 3-4, so as to ensure that the stress of the expansion sheets 21 is more uniform.

The outer wall of the front end of the expansion sheet 21 is provided with a cutting edge tooth group 22, and the inner wall of the expansion sheet 21 is provided with a polishing area 212. The grinding area 212 comprises a plurality of circle-shaped grinding marks 213, and the wall thickness of the sleeve 20 at the position of the grinding area 212 is smaller than that at other positions (the grinding thickness is 0.1-0.4 mm). The effect of setting the polishing area 212 in this embodiment is: (1) after the polishing area 212 of the expansion sheet 21 is polished, the thickness of the expansion sheet 21 is reduced relative to other parts of the sleeve 20, the expansion sheet 21 of the sleeve 20 is in a shrinkage shape when not expanded, and when a mechanical anchor bolt is implanted into a hole, scraping between the cutting edge tooth group 22 on the expansion sheet 21 and concrete on the hole wall is reduced, so that the cutting edge tooth group 22 is protected and concrete fragments are prevented from being generated; (2) when the expansion sheet 21 expands and deforms, the expansion sheet can deform along each ring-shaped polishing mark 213, a convex part of the polishing mark 213 is in contact with and extrudes the arc-shaped inverted conical surface 14, a concave ring of the polishing mark 213 is used as a center of deformation, and two sides of the ring wall are expanded to enable the expansion sheet 21 to form a horn shape identical to the inverted conical surface 14, so that the engagement degree of the anchor bolt screw 10 and the sleeve 20 is better.

As shown in fig. 5 to 8, the surface of the sleeve 20 is provided with a first concave deformation mark 2221, and the cutting edge teeth 22 are located outside the first deformation mark 2221. The cutting edge tooth group 22 includes a barbed tooth 2214 and a plurality of cutting edge teeth (including a first cutting edge tooth 2211, a second cutting edge tooth 2212 and a third cutting edge tooth 2213), which are located on the outer side of the barbed tooth 2214.

Extending peripherally along the sleeve 20, the size and depth of the cutting teeth increase in the order of magnitude of the first cutting tooth 2211> magnitude of the second cutting tooth 2212> magnitude of the third cutting tooth 2213, and the depth of the first cutting tooth 2211> depth of the second cutting tooth 2212> depth of the third cutting tooth 2213. The function is as follows: when the expansion sheet 21 expands, the resistance of the back cut concrete hole wall faced by each cutting edge tooth is as follows: the first cutting edge tooth 2211, the second cutting edge tooth 2212 and the third cutting edge tooth 2213 are arranged, the tooth form of the first cutting edge tooth 2211 is the largest, the wedge-shaped structure and the toughness of the cutting edge are guaranteed, the back cutting is intervened at the earliest, and the cutting edge tooth is also a key point of the back cutting.

Preferably, the tangent plane of each cutting edge tooth is in an inverted cone shape, and the back cutting of the concrete is meshed through each cutting edge tooth and the inverted hook tooth 2214, so that the locking key of the bottom expanding anchor bolt is conveniently formed, and the mechanical anchor bolt is conveniently meshed with the inner wall of the hole to bear force.

The undercut tooth 2214 and the innermost cutting edge tooth and the adjacent two cutting edge teeth are respectively recessed to form different auxiliary deformation marks (including a second deformation mark 2222, a third deformation mark 2223 and a fourth deformation mark 2224).

The depth of the first deformation mark 2221 is greater than the depth of each auxiliary deformation mark, and the width of the first deformation mark 2221 is greater than the width of each auxiliary deformation mark; in addition, extending along the sleeve 20 towards the edge, the auxiliary deformation marks increase in depth and width in order (i.e. the depth of the second deformation mark 2222 > the depth of the third deformation mark 2223 > the depth of the fourth deformation mark 2224, the width of the second deformation mark 2222 > the width of the third deformation mark 2223 > the width of the fourth deformation mark 2224). The function is as follows: in the expanding process of the expanding sheet 21, the first deformation mark 2221 is deformed first; the expansion sheet 21 is expanded initially, the first cutting edge tooth 2211, the second cutting edge tooth 2212 and the third cutting edge tooth 2213 cut into the hole wall concrete successively, and after resistance is applied, the second deformation mark 2222, the third deformation mark 2223 and the fourth deformation mark 2224 deform in sequence. The dimensions of the first deformation mark 2221, the second deformation mark 2222, the third deformation mark 2223 and the fourth deformation mark 2224 are designed to be in accordance with the stress sequence and stress magnitude of the inverted hook tooth 2214 and the cutting edge teeth.

As shown in fig. 6 and 7, the front end of the grinding region 212 is provided with an inclined flare 214, and the flare 214 is connected with the outermost side (i.e., the first cutting tooth 2211) of the cutting tooth group 22 to form a wedge-shaped structure. Preferably, the flare 214 is convexly curved or tapered. The function of the flare 214 in this embodiment is: (1) the sleeve 20 is convenient to contact and extrude with the arc-shaped inverted conical surface 14 of the anchor bolt screw 10, so that scraping is not generated during propelling, resistance is reduced, impact energy required in the expanding process of the expanding sheet 21 is reduced, and the expanding characteristic of the self-expanding anchor bolt is improved; (2) the end of the ground region 212 is ground into an arc or cone shape so that the intersection of the flare 214 and the first cutting tooth 2211 forms a wedge shape that is easily inserted into the concrete hole wall to begin backcutting when a slight impact is applied to the end of the sleeve 20.

As shown in fig. 8 to 11, the cross-section of the first deformation mark 2221 is rectangular (fig. 8), inverted conical triangular (fig. 9), polygonal at a certain angle (fig. 10), or concave arc (fig. 11), and the shape of each first deformation mark 2221 can satisfy the above-mentioned functions, so that the processing technology of the first deformation mark 2221 is diversified.

As shown in fig. 2, 5 and 12, the outer end side wall of the sleeve 20 is provided with symmetrical check points 23. Preferably, the check point 23 is formed by mechanical stamping, and the outer surface of the check point 23 is recessed inwardly to form a dimple 231 and the inner surface thereof is raised inwardly to form a dimple 232. The function is as follows:

(1) because the thread formed by the thread part 11 in the threading process has the outer diameter larger than that of the polished rod part 12, the salient point 232 on the inner wall of the non-return point 23 can conveniently clamp the polished rod part 12, and the sleeve 20 can not slide out of the thread part 11 in the transportation process and the installation process; (2) under the natural state that the mechanical anchor bolt is not expanded and the non-return point 23 forms the convex point 232 on the inner wall of the sleeve 20 to clamp the thread, after the top of the expansion part is propped against the bottom of the hole, the non-return point 23 is just in line with the outer wall 40 of the hole, therefore, the non-return point 23 is used as the appearance of the outside of the sleeve 20, after the mechanical anchor bolt is implanted into the hole, if the non-return point 23 is exposed out of the outer wall 40 of the hole, the hole depth of the anchor bolt is not enough, and then whether the drilling depth of the anchor bolt is enough.

As shown in fig. 2, after the anchor bolt 10 and the sleeve 20 of the present invention are inserted into the hole, the non-return point 23 is aligned with the outer wall 40 of the hole; the abutting surface 16 and the conical hole bottom 41 form a tip gap; a hole space 42 is formed between the transition plane 15 of the expansion part and the hole; the inverted cone gap 43 is formed between the inverted cone 14 and the hole.

The utility model discloses have following advantage in production, the installation:

1. compared with the installation step of the die bottom expanding anchor bolt, the utility model only needs to drill a straight hole, does not need to perform the reaming and hole cleaning processes, and also reduces the potential safety hazard caused by the missing reaming and improper reaming;

2. the utility model discloses an improve the conical surface of back taper head 13 and be slow arc, add the polishing district 212 of sleeve 20 inner wall, the polishing of sleeve 20 inner wall tip into horn mouth 214, the wedge structure of horn mouth 214 and first cutting edge tooth 2211, the structure of first deformation trace 2221, greatly improve from expanding end crab-bolt sleeve 20 bloated need great impact energy and the difficult problem of bloating;

3. the flared inverted cone head 13 and the arc inverted cone surface 14 are consistent with the expansion deformation of the sleeve 20, so that the expansion sheet 21 is uniformly deformed, and the stress concentration problem of the contraction and the pull of the anchor bolt screw 10 and the stress concentration problem of the expansion sheet 21 of the sleeve 20 when stressed are reduced to the greatest extent;

4. the wedge-shaped structure of the horn mouth 214 and the first cutting edge teeth 2211, the shape and size distribution of each cutting edge tooth and the design of the first deformation mark 2221 solve the problem that the self-bottom-expanding anchor bolt is difficult to cut the wall of a concrete hole, so that the range of back cut concrete is as large as possible, and finally, each cutting edge tooth and the inverted hook tooth 2214 are meshed with the concrete to form an inverted cone-shaped locking key, so that the self-bottom-expanding anchor bolt is more stable and reliable compared with the existing product;

5. through the ring-shaped polishing area 212 on the inner wall of the sleeve 20, the expansion sheet 21 of the sleeve 20 is in a shrinkage state in a natural state, so that concrete on the hole wall cannot be scraped when the anchor bolt is implanted into the hole, and the anchor bolt screw rod 10 and the sleeve 20 can be fixed through the design of the non-return points 23, and whether the depth of the anchor bolt hole meets the requirement can be checked through visual inspection.

It will be understood that modifications and variations can be made by persons skilled in the art in light of the above teachings and all such modifications and variations are considered to be within the scope of the invention as defined by the following claims.

The above exemplary description of the present invention is made in conjunction with the accompanying drawings, and it is obvious that the present invention is not limited by the above manner, and various improvements made by the method concept and technical solution of the present invention or by directly applying the concept and technical solution of the present invention to other occasions without improvement are all within the protection scope of the present invention.

Claims (10)

1. A self-expanding bottom type mechanical anchor bolt comprises an anchor bolt screw rod and a sleeve, wherein the anchor bolt screw rod comprises a polished rod part, an expansion part and a screw thread part which are arranged on two sides of the polished rod part, the sleeve is sleeved on the outer side of the anchor bolt screw rod, a nut is sleeved on the screw thread part,

the expansion part comprises a horn-shaped inverted cone head, the outer end part of the inverted cone head is connected with the polished rod part through an inwards concave arc inverted cone, a convex binding surface is arranged at the inner end part of the inverted cone head, and the inverted cone head is connected with the binding surface through a transition plane;

the inner end part of the sleeve is provided with a plurality of radial opening strips which are uniformly distributed, an expansion sheet is formed between every two adjacent opening strips, the outer wall of the front end of the expansion sheet is provided with a cutting edge tooth group, the inner wall of the expansion sheet is provided with a polishing area, the front end of the polishing area is provided with an inclined horn mouth, and the horn mouth and the outermost side of the cutting edge tooth group are connected to form a wedge-shaped structure.

2. The self-expanding mechanical anchor according to claim 1, wherein the outer end of the shank portion is provided with a ring of circumferential markings.

3. The self-expanding mechanical anchor according to claim 1, wherein the end of the threaded portion is provided with chamfered or constricted corners.

4. The self-expanding mechanical anchor according to claim 1, wherein the abutment surface comprises a plurality of interconnected inclined surfaces connected to the edges of the transition plane by chamfered arc surfaces.

5. The self-expanding mechanical anchor according to claim 1, wherein the sleeve has a first deformation mark on its surface, and the set of cutting edge teeth are located outside the first deformation mark.

6. The self-expanding mechanical anchor according to claim 5, wherein said first deformation notch has a cross-section in the shape of a rectangle, an inverted cone, a dogleg, or an inwardly concave arc.

7. The self-reaming bottom type mechanical anchor bolt according to claim 1, wherein the cutting edge tooth group includes an inverted tooth and a plurality of cutting edge teeth, the cutting edge teeth are located on the outer side of the inverted tooth, and different auxiliary deformation marks are respectively formed between the inverted tooth and the innermost cutting edge tooth and between two adjacent cutting edge teeth.

8. The self-reaming mechanical anchor according to claim 7, wherein said cutting edge teeth increase in size and depth in sequence along said sleeve toward said margin.

9. The self-reaming mechanical anchor according to claim 7, wherein the auxiliary deformation notch increases in depth and width in succession along the sleeve towards the edge.

10. The self-expanding mechanical anchor as set forth in claim 1, wherein said sleeve is provided with symmetrical backstop points on the outer end side wall thereof.

Images