CN211735370U - Mechanical connecting device of concrete precast pile - Google Patents

Abstract

The utility model relates to a mechanical connecting device of concrete precast pile, which comprises a pile body axial connecting unit, wherein the pile body axial connecting unit comprises a plurality of groups of mutually matched first sleeve nuts and second sleeve nuts, the first sleeve nuts and the second sleeve nuts of each group are respectively connected with the axial end faces of two pile bodies, and the first sleeve nuts and the second sleeve nuts form a mutual connecting state through connecting inserted bars; and counterbores are respectively arranged on one sides of the first sleeve nut and the second sleeve nut, which penetrate into the pile body, and the positions of the counterbores are matched with the upset heads of the prestressed reinforcements. The utility model discloses an increase supplementary cuff grout connected mode, with the bending resistance tensile stress load evenly distributed that shears of pile end joint department to pile body radial connection unit on to avoided pile head mechanical connecting device to lead to pile joint fracture phenomenon because of the bending resistance tensile load capacity that shears is not enough, improved the connection quality and the effect of concrete precast pile joint department greatly.

Description

Mechanical connecting device of concrete precast pile

Technical Field

The utility model relates to a mechanical connecting device of concrete precast pile.

Background

At present, when the precast concrete pile is subjected to maintenance, demolding and tension releasing, the prestressed steel bars can be loosened, but if the pile head is not provided with an end plate, the prestressed steel bars of the pile head drive the steel bar sleeve to be loosened and retracted only by virtue of the steel bar upset head, so that the pile head concrete around the sleeve is greatly lost due to the prestressed stress of the steel bar loosening and retraction, the pile head concrete prestressed stress is very small, and the durability of the pile head is seriously influenced. In addition, if an end-plate-free mode is adopted between pile ends of the precast pile, and only a main rib position is in a pure mechanical connection mode, when the mechanical connection joint is used for bending resistance, shearing resistance and tensile strength, due to objective machining errors and installation errors of parts, a plurality of mechanical connections cannot be stressed simultaneously or are stressed unevenly, overall mechanical performance expression is directly influenced, and product quality is caused to be problematic.

Aiming at the technical problems, when an upper pile and a lower pile of a concrete precast pile in the prior art are butted, pile heads are mainly welded by end plates, so that the steel consumption is large and the manual welding workload is large in order to ensure the product quality, and the quality control difficulty is large due to excessive manual participation; the hoops are connected through pile ends, but the manually welded hoops are high in labor intensity, poor in environment, unstable in engineering quality and low in construction efficiency.

SUMMERY OF THE UTILITY MODEL

The utility model provides a mechanical connecting device of a concrete precast pile, which has reasonable structural design, adopts an increased hoop grouting connecting mode to evenly distribute bending resistance, tensile strength and shearing resistance stress load at the joint of the pile end to the radial connecting unit of the pile body, thereby avoiding the phenomenon of pile joint cracking caused by insufficient shearing resistance, bending resistance and tensile load capacity of the mechanical connecting device of the pile head, and greatly improving the connecting quality and effect at the joint of the concrete precast pile; in addition, the pile body radial connecting unit does not need any manual welding process, the quality is controllable, the mechanical connection is reliable, the labor intensity is reduced, the corrosion resistance is good, the steel consumption is extremely small, and the product cost and the construction cost are effectively reduced. The mechanical connecting device is suitable for butt joint of pile heads of various concrete precast piles in pile foundation engineering, is particularly suitable for occasions that the pile heads are subjected to horizontal thrust, shearing force and large bending moment under complex geological conditions such as soft soil geology, quicksand liquefaction and the like, and solves the problems in the prior art.

The utility model discloses a solve the technical scheme that above-mentioned technical problem adopted and be: a mechanical connecting device for a concrete precast pile, comprising:

the pile body axial connecting unit comprises a plurality of groups of mutually matched first sleeve nuts and second sleeve nuts, the first sleeve nuts and the second sleeve nuts of each group are respectively connected with the axial end faces of the two pile bodies, and the first sleeve nuts and the second sleeve nuts form a mutual connecting state through connecting inserting rods; counter bores are respectively arranged on one sides of the first sleeve nut and the second sleeve nut, which penetrate into the pile body, and the positions of the counter bores are matched with the upset heads of the prestressed reinforcements, so that the prestressed reinforcements in the two pile bodies are respectively connected with the first sleeve nut and the second sleeve nut;

the positioning unit comprises a reinforcing bonding ring and a reinforcing bonding gasket, the reinforcing bonding ring is connected with the pile body, the reinforcing bonding gasket and the reinforcing bonding ring are integrated, and the reinforcing bonding gasket can be connected with the outer circle step of the end part of the first sleeve nut and/or the second sleeve nut in a positioning matching manner;

pile body radial connection unit, pile body radial connection unit includes first cuff, second cuff and outer hoop, the pile body circumference surface that first cuff and first sleeve nut correspond links to each other, the pile body circumference surface that second cuff and second sleeve nut correspond links to each other, the outside of first cuff and second cuff links to each other through outer hoop, makes first cuff and second cuff form the connection structure of lock at two pile body circumference surfaces.

Further, connect the inserted bar inside and establish to hollow structure along the axial, the outer wall of connecting the inserted bar is equipped with connecting portion and elasticity end respectively along axial both ends, the circumferential surface of connecting portion is equipped with the external screw thread, the connection inserted bar outer wall between elasticity end and the connecting portion is equipped with the draw-in groove, draw-in groove and elasticity end correspond the position and are equipped with the cutting joints that set up along the axial, and a plurality of cutting joints evenly set up along the circumferencial direction, make elastic deformation can take place for the radial dimension of elasticity end.

Furthermore, the first sleeve nut is connected with the axial end face of the pile body at the upper position, the second sleeve nut is connected with the axial end face of the pile body at the lower position, and the openings of the first sleeve nut and the second sleeve nut face outwards; first sleeve nut and second sleeve nut inner wall are equipped with the internal thread respectively, first sleeve nut inner wall links to each other with the connecting portion screw thread of connecting the inserted bar, second sleeve nut inner wall and hollow nut's surface screw thread link to each other, the elastic end of connecting the inserted bar can insert hollow nut, elastic deformation takes place at the hollow nut in-process at the elastic end, the elastic end can form the joint state through behind the hollow nut with hollow nut, makes the draw-in groove of connecting the inserted bar with hollow nut medial surface cooperatees to form mechanical connection state.

Furthermore, the inner sides of the first hoop and the second hoop are connected with anchoring steel bars, and the anchoring steel bars extend into the pile body.

Furthermore, the anchoring steel bars are uniformly arranged along the circumferential inner walls of the first hoop and the second hoop respectively, the anchoring steel bars are provided with two straight line sections and an inclined section, one of the straight line sections of the anchoring steel bars is connected with the inner wall of the first hoop or the inner wall of the second hoop, and the inclined section of the anchoring steel bars is arranged towards the inner side along the radial direction of the pile body.

Further, the axial terminal surface circumferencial direction of pile body is evenly set up along the first sleeve nut of multiunit and second sleeve nut, the reinforcing bonds the ring setting at the axial tip of two pile bodies, the reinforcing bonds the gasket with the tip excircle step looks fixed-position fit and the welding of first sleeve nut and/or second sleeve nut link to each other.

Furthermore, the inner wall of the outer hoop, the outer wall of the first hoop and the outer wall of the second hoop are respectively provided with annular grooves which are matched with each other, and the outer hoop, the first hoop and/or the second hoop are provided with locking screws.

Furthermore, an O-shaped rubber ring is arranged in the annular groove.

Furthermore, an outer circle step is arranged on the end face of the first sleeve nut and/or the second sleeve nut so as to install the enhanced bonding gasket on the enhanced bonding ring.

A method for manufacturing a mechanical connecting device of a concrete precast pile, comprising the steps of:

s1: before the pile body is poured with concrete, binding and fixing the anchoring steel bars on the first hoop and the second hoop with a corresponding steel reinforcement cage in a steel mould, connecting an upset head at the end part of the steel reinforcement cage with a first sleeve nut and a second sleeve nut which are provided with a reinforced bonding ring and a reinforced bonding gasket thereof, pouring the concrete into the steel mould after connection is finished, applying prestress to a set value on the first sleeve nut and the second sleeve nut which are provided with the reinforced bonding ring through tensioning screws, centrifugally forming, removing the tensioning screws after the pile body is cured to reach the demolding strength, and applying prestress to the end part of the pile body by the reinforced bonding gasket and the reinforced bonding ring of the pile body together with the corresponding first sleeve nut or second sleeve nut;

s2: before the pile heads of two precast piles are butted, a hollow nut is installed in a second sleeve nut of the lower section of precast pile, so that the outer axial end face of the hollow nut is flush with the outer end face of the second sleeve nut; in addition, the connecting inserted bar is connected with the inner wall of the first sleeve nut of the upper section precast pile through screw threads;

s3: before the two precast piles are butted, injecting or coating epoxy resin into the end faces of the precast piles and the first sleeve nut and the second sleeve nut;

s4: when the two precast piles are butted, the connecting inserted bar is inserted into the hollow nut of the next pile section, the elastic end head of the connecting inserted bar contracts, the elastic end head is extruded and radially contracts so as to smoothly pass through the hollow nut, the elastic end head is restored to the original state under the elastic deformation of the elastic end head, and the radial dimension of the elastic end head is larger than that of the hollow nut so as to form a clamping state with the hollow nut, so that the prestressed reinforcements of the two precast piles are mechanically connected;

s5: when the precast piles are required to resist pulling and bending and resist horizontal pushing force, a first hoop and a second hoop are arranged on the circumferential surface of the connecting position of the two precast piles, the first hoop and the second hoop are externally sleeved with outer hoops, O-shaped rubber rings are arranged in annular grooves, locking screws are used for positioning and connecting the outer hoops with the screw hole positions of the first hoop and the second hoop respectively, and finally high-strength rapid-setting expansion structural adhesive is poured.

The structure adopted by the utility model has the advantages that the structure design is reasonable, the hoop grouting connection mode is increased, the bending resistance, tensile strength and shearing resistance stress load at the pile end joint is uniformly distributed on the pile body radial connection unit, thereby avoiding the phenomenon of pile joint cracking caused by insufficient shearing resistance, bending resistance and tensile load capacity of the pile head mechanical connection device, and greatly improving the connection quality and effect of the concrete precast pile joint; in addition, the pile body radial connecting unit does not need any manual welding process, the quality is controllable, the mechanical connection is reliable, the labor intensity is reduced, the corrosion resistance is good, the steel consumption is extremely small, and the product cost and the construction cost are effectively reduced. The mechanical connecting device is suitable for butt joint of pile heads of various concrete precast piles in pile foundation engineering, and is particularly suitable for occasions that the pile heads are subjected to horizontal thrust, shearing force and large bending moment under complex geological conditions such as soft soil geology, quicksand liquefaction and the like.

Drawings

Fig. 1 is a schematic view of the sectional structure of the connection position of two pile bodies of the present invention.

Fig. 2 is a schematic structural view in the direction of a-a in fig. 1.

Fig. 3 is a schematic diagram of the local enlarged structure of the present invention.

Fig. 4 is a schematic structural view of the connection insertion rod of the present invention.

In the figure, 1, a first sleeve nut; 2. a second sleeve nut; 3. a pile body; 4. connecting the inserted link; 401. a connecting portion; 402. an elastic end; 403. a card slot; 404. cutting a seam; 5. a counter bore; 6. pre-stressing the steel bars; 7. reinforcing the adhesive ring; 8. a reinforcing bonding pad; 9. a first ferrule; 10. a second ferrule; 11. an outer hoop; 12. a hollow nut; 13. a card slot; 14. anchoring the reinforcing steel bars; 1401. a straight line segment; 1402. an inclined section; 15. an annular groove; 16. an O-shaped rubber ring; 17. locking screws; 18. and (5) an outer circle step.

Detailed Description

In order to clearly illustrate the technical features of the present invention, the present invention is explained in detail by the following embodiments in combination with the accompanying drawings.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present application, however, the present application may be practiced in other ways than those described herein, and therefore the scope of the present application is not limited by the specific embodiments disclosed below.

In addition, in the description of the present application, it is to be understood that the terms "center", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "axial", "radial", "circumferential", and the like, indicate orientations and positional relationships based on those shown in the drawings, are only for convenience of description and simplicity of description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present application.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present application, "a plurality" means two or more unless specifically limited otherwise.

In this application, unless expressly stated or limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can include, for example, fixed connections, removable connections, or integral parts; the connection can be mechanical connection, electrical connection or communication; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate.

In this application, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may be directly contacting the first and second features or indirectly contacting the first and second features through intervening media. In the description herein, reference to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the application. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

As shown in fig. 1-4, a mechanical connecting device for a concrete precast pile comprises a pile axial connecting unit, a positioning unit and a pile radial connecting unit, wherein the pile axial connecting unit comprises a plurality of groups of first sleeve nuts 1 and second sleeve nuts 2 which are matched with each other, the first sleeve nuts 1 and the second sleeve nuts 2 of each group are respectively connected with axial end faces of two pile bodies 3, and the first sleeve nuts 1 and the second sleeve nuts 2 form a mutual connecting state through connecting inserted rods 4; counter bores 5 are respectively arranged on one sides of the first sleeve nut 1 and the second sleeve nut 2, which extend into the pile body 3, and the positions of the counter bores 5 are matched with upset heads of the prestressed reinforcements 6, so that the prestressed reinforcements 6 in the two pile bodies 3 are respectively connected with the first sleeve nut 1 and the second sleeve nut 2; the positioning unit comprises a reinforced bonding ring 7 and a reinforced bonding gasket 8, the reinforced bonding ring 7 is connected with the pile body 3, the reinforced bonding gasket 8 and the reinforced bonding ring 7 are in an integrated structure, the reinforced bonding gasket 8 and the reinforced bonding ring 7 are arranged at the end part of each pile body 3, and the reinforced bonding gasket 8 can be matched and connected with the surface of the first sleeve nut 1 and/or the surface of the second sleeve nut 2, so that the position of the first sleeve nut 1 or the second sleeve nut 2 relative to the pile body 3 is kept unchanged; the pile body radial connecting unit comprises a first hoop 9, a second hoop 10 and an outer hoop holding device 11, the first hoop 9 is connected with the circumferential surface of the pile body 3 corresponding to the first sleeve nut 1, the second hoop 10 is connected with the circumferential surface of the pile body 3 corresponding to the second sleeve nut 2, the outer sides of the first hoop 9 and the second hoop 10 are connected through the outer hoop holding device 11, and the first hoop 9 and the second hoop 10 form a connecting structure buckled on the circumferential surfaces of the two pile bodies 3. When the device is used, a hoop grouting connection mode is added, and the bending resistance, tensile resistance, shearing resistance and stress load at the joint of the pile end is uniformly distributed on the radial pile body connection unit, so that the phenomenon of pile joint cracking caused by insufficient shearing resistance, bending resistance, tensile load capacity of a pile head mechanical connection device is avoided, and the connection quality and effect at the joint of the concrete precast pile are greatly improved; in addition, the pile body radial connecting unit does not need any manual welding process, the quality is controllable, the mechanical connection is reliable, the labor intensity is reduced, the corrosion resistance is good, the steel consumption is extremely small, and the product cost and the construction cost are effectively reduced. The mechanical connecting device is suitable for butt joint of pile heads of various concrete precast piles in pile foundation engineering, and is particularly suitable for occasions that the pile heads receive horizontal thrust, shearing force and large bending moment stress under complex geological conditions such as soft soil geology, quicksand liquefaction and the like.

In a preferred embodiment, the inside of the connecting plug rod 4 is axially arranged to be a hollow structure, the outer wall of the connecting plug rod 4 is axially provided with a connecting part 401 and an elastic end head 402 at two ends respectively, the circumferential surface of the connecting part 401 is provided with external threads, the outer wall of the connecting plug rod 4 between the elastic end head 402 and the connecting part 401 is provided with a clamping groove 403, the clamping groove 403 and the elastic end head 402 are provided with cutting seams 404 arranged axially at corresponding positions, and the plurality of cutting seams 404 are uniformly arranged along the circumferential direction, so that the radial dimension of the elastic end head 402 can be elastically deformed.

In a preferred embodiment, the first sleeve nut 1 is connected with the axial end face of the pile body 3 at the upper position, the second sleeve nut 2 is connected with the axial end face of the pile body 3 at the lower position, and the openings of the first sleeve nut 1 and the second sleeve nut 2 are arranged to face each other outwards; first sleeve nut 1 and 2 inner walls of second sleeve nut are equipped with the internal thread respectively, 1 inner wall of first sleeve nut links to each other with the connecting portion 401 screw thread of connecting inserted bar 4, 2 inner walls of second sleeve nut and the surface screw thread of hollow nut 12 link to each other, the elastic end 402 of connecting inserted bar 4 can insert hollow nut 12, elastic deformation takes place at hollow nut 12 in-process at elastic end 402, elastic end 402 can form the joint state with hollow nut 12 after through hollow nut 12, make the draw-in groove 403 of connecting inserted bar 4 and the outer surface of hollow nut 12 cooperate, in order to form mechanical connection state.

It is worth mentioning that the connecting inserted bar 4 can be made of spring steel and has good elastic deformation capability.

In a preferred embodiment, the inner sides of the first and second ferrules 9 and 10 are connected with the anchoring bars 14, and the anchoring bars 14 are arranged to extend into the pile body 3. The anchoring reinforcing steel bar 14 and the first ferrule 9 and the second ferrule 10 can be connected in a welding mode, and the welded anchoring reinforcing steel bar 14 can transmit acting force received by the first ferrule 9 and the second ferrule 10 into the pile body 3, so that the force is dispersed and transmitted, and the load at the positions of the first ferrule 9 and the second ferrule 10 is reduced.

In a preferred embodiment, the anchoring steel bar 14 is provided with a plurality of straight line sections 1401 and an inclined section 1402, wherein the straight line sections 1401 are uniformly arranged along the inner circumferential wall of the first hoops 9 and the second hoops 10, respectively, the anchoring steel bar 14 is provided with two straight line sections 1401 and one inclined section 1402, one straight line section 1401 of the anchoring steel bar 14 is connected with the inner wall of the first hoops 9 or the second hoops 10, and the inclined section 1402 of the anchoring steel bar 14 is arranged towards the inner side along the radial direction of the pile body 3.

In a preferred embodiment, multiple groups of first sleeve nuts 1 and second sleeve nuts 2 are uniformly arranged along the circumferential direction of the axial end faces of the pile bodies 3, the reinforcing bonding rings 7 are arranged at the axial end parts of the two pile bodies 3, reinforcing bonding gaskets 8 which are uniformly distributed are welded on the reinforcing bonding rings 7, inner holes of the reinforcing bonding gaskets 8 are matched with the outer circle steps 18 of the end parts of the first sleeve nuts 1 and/or the second sleeve nuts 2 in a positioning manner and are welded to each other, so that the first sleeve nuts 1 and/or the second sleeve nuts 2 are ensured to be in stable connection with the reinforcing bonding rings 7 and the reinforcing bonding gaskets 8.

In a preferred embodiment, the inner wall of the outer hoop 11 and the outer walls of the first hoop 9 and the second hoop 10 are respectively provided with mutually matched annular grooves 15, the annular grooves 15 are arranged to facilitate the expansion and solidification of the grouting material to increase the friction force between the hoops and the outer hoop 11, and the outer hoop 11 and the first hoop 9 and/or the second hoop 10 are provided with locking screws 17.

In the preferred embodiment, an O-ring rubber 16 is provided in the annular groove 15. An O-shaped rubber ring 16 is arranged in the annular groove 15 between the first hoop 9 and the outer hoop 11, the O-shaped rubber ring 16 is also arranged in the annular groove 15 between the second hoop 10 and the outer hoop 11, and the O-shaped rubber ring 16 is utilized to keep stable connection between the radial connection units, so that it can be understood that the two O-shaped rubber rings 16 are arranged along two of the annular grooves 15 corresponding to the two axial ends close to the outer hoop 11, and a good sealing connection effect can be achieved.

In the preferred embodiment, the ends of the first and second sleeve nuts are each provided with an external cylindrical step 18 for mounting the reinforcement bonding pad 8. The end part of the sleeve nut is provided with an outer circular step 18 which is convenient for installing the reinforced bonding gasket 8 and the reinforced bonding ring 7, thereby playing a role in pressing pile head concrete.

A method for manufacturing a mechanical connecting device of a concrete precast pile, comprising the steps of:

s1: before the pile body 3 is poured with concrete, the anchoring steel bars 14 are bound and fixed with a steel reinforcement cage in a steel mould, upset heads at the end parts of the steel reinforcement cage are connected with a first sleeve nut 1 and a second sleeve nut 2 which are provided with reinforced bonding rings 7, the concrete is poured into the steel mould after connection is finished, the first sleeve nut 1 and the second sleeve nut 2 which are provided with reinforced bonding gaskets 8 and reinforced bonding rings 7 are prestressed to a set value through tensioning screws, the tensioning screws are removed for tensioning after centrifugal forming and the pile body is cured to reach the demolding strength, the reinforced bonding gaskets 8 and the reinforced bonding rings 7 of the pile body 3 and the corresponding first sleeve nut 1 or second sleeve nut 2 respectively apply pre-compression stress to the end parts of the pile body, and the durability of the concrete at the end parts of the pile body 3 is enhanced;

s2: before the pile heads of two pile bodies 3 are butted, a hollow nut 12 is installed in a second sleeve nut 2 of a lower pile body 3, so that the outer axial end face of the hollow nut 12 is flush with the outer end face of the second sleeve nut 2; in addition, the inner wall of the first sleeve nut 1 of the connecting inserted rod 4 and the upper pile body 3 is connected by screw threads;

s3: before the two pile bodies 3 are butted, injecting or coating epoxy resin into the end surfaces of the pile bodies 3 and the first sleeve nut 1 and the second sleeve nut 2;

s4: when two precast piles are butted, the connecting inserted bar 4 is inserted into the hollow nut 12 of the next pile, the elastic end 402 of the connecting inserted bar 4 contracts, the elastic end 402 is extruded to radially contract so as to smoothly pass through the hollow nut 12, the elastic end 402 recovers under the elastic deformation of the elastic end 402, the radial dimension of the elastic end 402 is larger than that of the hollow nut 12 so as to form a clamping state with the hollow nut 12, and the prestressed reinforcements 6 of the two precast piles are mechanically connected;

s5: when the pile body 3 is required to resist pulling and bending and water level, the first hoop 9 and the second hoop 10 are arranged on the circumferential surface of the connecting position of the two pile bodies 3, the outer hoop 11 is sleeved outside the first hoop 9 and the second hoop 10, the O-shaped rubber ring 16 is arranged in the annular groove 15, the screw hole positions of the first hoop and the second hoop 10 are positioned and connected by the outer hoop 11 through the locking screw 17, and finally high-strength quick-setting expansion structural glue is injected.

It is worth mentioning that the surface and the connection part of the outer hoop can be coated with anticorrosive materials.

In addition, the connecting position of the end part of the pile body can be poured by special fiber concrete, and a micro-mixer can be specifically configured to specially produce the fiber concrete for pouring pile head concrete of the pile body, so that the strength and toughness of the pile head concrete are enhanced, and the construction driving resistance of the pile head is improved.

The above-mentioned specific embodiments can not be regarded as the restriction to the scope of protection of the utility model, to technical personnel in this technical field, it is right the utility model discloses any replacement improvement or transform that embodiment made all fall within the scope of protection of the utility model.

The parts of the present invention not described in detail are the known techniques of those skilled in the art.

Claims (9)

1. A mechanical connecting device of a concrete precast pile is characterized by comprising:

the pile body axial connecting unit comprises a plurality of groups of mutually matched first sleeve nuts and second sleeve nuts, the first sleeve nuts and the second sleeve nuts of each group are respectively connected with the axial end faces of the two pile bodies, and the first sleeve nuts and the second sleeve nuts form a mutual connecting state through connecting inserting rods; counter bores are respectively arranged on one sides of the first sleeve nut and the second sleeve nut, which penetrate into the pile body, and the positions of the counter bores are matched with the upset heads of the prestressed reinforcements, so that the prestressed reinforcements in the two pile bodies are respectively connected with the first sleeve nut and the second sleeve nut;

the positioning unit comprises a reinforcing bonding ring and a reinforcing bonding gasket, the reinforcing bonding ring is connected with the pile body, the reinforcing bonding gasket and the reinforcing bonding ring are integrated, and the reinforcing bonding gasket can be connected with the outer circle step of the end part of the first sleeve nut and/or the second sleeve nut in a positioning matching manner;

pile body radial connection unit, pile body radial connection unit includes first cuff, second cuff and outer hoop, the pile body circumference surface that first cuff and first sleeve nut correspond links to each other, the pile body circumference surface that second cuff and second sleeve nut correspond links to each other, the outside of first cuff and second cuff links to each other through outer hoop, makes first cuff and second cuff form the connection structure of lock at two pile body circumference surfaces.

2. The mechanical connection device for the concrete precast pile according to claim 1, wherein the connection rod is axially arranged in a hollow structure, the outer wall of the connection rod is axially provided with a connection portion and an elastic end at two ends, the circumferential surface of the connection portion is provided with an external thread, the outer wall of the connection rod between the elastic end and the connection portion is provided with a clamping groove, the clamping groove and the elastic end are provided with cutting seams arranged along the axial direction at corresponding positions, the cutting seams are uniformly arranged along the circumferential direction, and the radial dimension of the elastic end can be elastically deformed.

3. The mechanical connection device for the concrete precast pile according to claim 2, wherein the first sleeve nut is connected with the axial end face of the pile body at the upper position, the second sleeve nut is connected with the axial end face of the pile body at the lower position, and the openings of the first sleeve nut and the second sleeve nut are arranged to face each other outwards; first sleeve nut and second sleeve nut inner wall are equipped with the internal thread respectively, first sleeve nut inner wall links to each other with the connecting portion screw thread of connecting the inserted bar, second sleeve nut inner wall and hollow nut's surface screw thread link to each other, the elastic end of connecting the inserted bar can insert hollow nut, elastic deformation takes place at the hollow nut in-process at the elastic end, the elastic end can form the joint state through behind the hollow nut with hollow nut, makes the draw-in groove of connecting the inserted bar with hollow nut's medial surface cooperatees to form mechanical connection state.

4. The mechanical connection device for the precast concrete pile of claim 3, wherein the inside of the first hoop and the second hoop are connected with anchoring steel bars, and the anchoring steel bars are arranged to extend into the pile body.

5. The mechanical connection device for the precast concrete pile as claimed in claim 4, wherein the anchoring steel bar is provided with a plurality of straight sections and an inclined section, the straight sections are respectively and uniformly arranged along the inner circumferential wall of the first hoop and the second hoop, one of the straight sections of the anchoring steel bar is connected with the inner wall of the first hoop or the second hoop, and the inclined section of the anchoring steel bar is arranged towards the inner side along the radial direction of the pile body.

6. The mechanical connection device for the precast concrete pile of claim 5, wherein the multiple sets of the first sleeve nuts and the second sleeve nuts are uniformly arranged along the circumferential direction of the axial end face of the pile body, the reinforced bonding rings are arranged at the axial ends of the two pile bodies, and the reinforced bonding gaskets are matched with the outer circular steps of the ends of the first sleeve nuts and/or the second sleeve nuts in a positioning way and are connected with the first sleeve nuts and/or the second sleeve nuts in a welding way.

7. The mechanical connection device for the concrete precast pile according to claim 6, wherein the inner wall of the outer hoop and the outer wall of the first hoop and the second hoop are respectively provided with annular grooves which are matched with each other, and the outer hoop and the first hoop and/or the second hoop are provided with locking screws.

8. A mechanical connection device for precast concrete piles as claimed in claim 7, wherein an O-ring rubber is provided in the annular groove.

9. A mechanical connection device for a precast concrete pile according to claim 8, wherein an outer circular step is provided at an end surface of the first sleeve nut and/or the second sleeve nut so as to install the reinforcing bonding pad on the reinforcing bonding ring.

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