CN112942321B - Anchor rope drilling bored concrete pile combination retaining structure - Google Patents

Abstract

The invention discloses an anchor cable cast-in-situ bored pile combined retaining structure which comprises a retaining structure main body, a cast-in-situ pile opening and a drilling movable clamping mechanism. The bottom fixed phase of the supporting and retaining structure main body is connected with a cast-in-place pile opening, two sides of the inside of the supporting and retaining structure main body are movably connected with a transverse driving motor, one end of the transverse driving motor is movably connected with a transverse telescopic screw rod, one end of the transverse telescopic screw rod is fixedly connected with a lifting mechanism, a top end of the lifting mechanism is fixedly connected with a pipeline bundling column, the pipeline bundling column well reflects the bundling convenience of the device, the distance control convenience of the supporting and retaining structure is well reflected by transverse adjusting and controlling scales, the fixed adjustability of the device is well reflected by a drilling movable clamping mechanism, the supporting and adjusting flexibility of the device is greatly reflected by an adjustable supporting mechanism, the adjustability and the mobility of the supporting and retaining structure are well improved by the supporting and retaining mechanism, the supporting and retaining mechanism is suitable for use in the technical field of civil engineering facilities, and has wide development prospect in the future.

Description

Anchor rope drilling bored concrete pile combination retaining structure

Technical Field

The invention belongs to the technical field of civil engineering facilities, and particularly relates to a combined retaining structure of an anchor cable cast-in-situ bored pile.

Background

The cast-in-place pile system is a pile formed by forming a pile hole in foundation soil through mechanical drilling, steel pipe soil extrusion or manual excavation and the like on an engineering site, placing a reinforcement cage and cast-in-place concrete in the pile hole, and the cast-in-place pile can be divided into a immersed tube cast-in-place pile, a cast-in-place pile and a cast-in-place pile according to different hole forming methods.

The existing supporting and blocking structure is of a fixed design, the movement within a certain range can not be carried out according to the position of operation during operation, the adjustment performance is not good, the movement flexibility is not enough, the optimal supporting positions of different cast-in-place pile openings are different, the existing supporting and blocking structure can not carry out good supporting and adjusting according to the actual supporting position, the supporting and adjusting performance is not enough, meanwhile, the existing supporting structure can not be used for fixing drilling equipment according to different drilling sizes, the real-time adjustment is carried out, and the fixed adjustment performance of the equipment is not enough.

Disclosure of Invention

The invention aims to: in order to solve the problems of insufficient flexibility of movement, insufficient support adjustability and insufficient fixing adjustability proposed in the background art, a combined retaining structure for an anchor cable cast-in-situ bored pile is provided.

The technical scheme adopted by the invention is as follows: a combined supporting and retaining structure for anchor cable cast-in-situ bored piles comprises a supporting and retaining structure main body, a cast-in-situ pile mouth and a drilling movable clamping mechanism, wherein the bottom of the supporting and retaining structure main body is fixedly connected with the cast-in-situ pile mouth, and the middle part of the cast-in-situ pile mouth is movably connected with the drilling movable clamping mechanism;

the supporting and retaining structure comprises a supporting and retaining structure body, and is characterized in that two sides inside the supporting and retaining structure body are movably connected with transverse driving motors, one ends of the transverse driving motors are movably connected with transverse telescopic screw rods, one ends of the transverse telescopic screw rods are fixedly connected with lifting mechanisms, the inner sides of the lifting mechanisms are connected with lifting limit bolts in a penetrating manner, and the tops of the transverse driving motors are connected with a motor control mechanism in a lap joint manner;

adjustable support columns are fixedly connected to two sides of the interior of the cast-in-place pile opening, the top ends of the adjustable support columns are movably connected with support movable gears, gear revolving clamping pieces are connected to the tops of the support movable gears in an embedded mode, support movable mechanisms are connected to the tops of the gear revolving clamping pieces in an overlapped mode, and movable guide rails are fixedly connected to the peripheries of the support movable mechanisms;

the inside inboard swing joint of drilling activity chucking mechanism has chucking spare, the both ends swing joint of chucking spare has chucking interlock spare, one side swing joint of chucking spare has movable pressure spring, the tensile bolt of one end fixedly connected with activity of activity pressure spring, the inboard through connection that the activity was stretched and is tied has the chucking spacer pin.

Preferably, the inner side of the transverse telescopic screw rod is fixedly connected with a transverse adjusting control scale.

Preferably, the top end of the lifting mechanism is fixedly connected with a pipeline bundling column.

Preferably, the top end of the pipeline converging column is fixedly connected with a stressed pull ring.

Preferably, the bottom end of the lifting mechanism is fixedly connected with a reinforcing grounding device.

Preferably, an integrated brightening and light supplementing lamp is fixedly connected to one side of the top end of the supporting and blocking structure body.

Preferably, the horizontal driving motors on two sides inside the supporting and blocking structure body, the horizontal telescopic screw rod at one end of the horizontal driving motor, the lifting mechanism at one end of the horizontal telescopic screw rod, the lifting limiting bolt on the inner side of the lifting mechanism and the motor control mechanism at the top of the horizontal driving motor jointly form a supporting and blocking moving mechanism.

Preferably, the adjustable supporting columns on two sides inside the cast-in-place pile opening, the supporting movable gear on the top end of each adjustable supporting column, the gear rotating clamping piece at the top of each supporting movable gear, the supporting movable mechanism at the top of each gear rotating clamping piece and the movable guide rails on the periphery of each supporting movable mechanism jointly form the adjustable supporting mechanism.

Preferably, the drilling activity chucking mechanism is formed by the combination of the inside inboard chucking spare, the chucking interlock spare at chucking spare both ends, the activity pressure spring of chucking spare one side, the activity of activity pressure spring one end is stretched and is tied inboard chucking spacer pin with the activity is stretched.

In summary, due to the adoption of the technical scheme, the invention has the beneficial effects that:

1. in the invention, by arranging the supporting and blocking movable mechanism, a worker can control the transverse driving motor through the motor control mechanism to enable the mechanism to perform transverse movement in a certain range on the transverse telescopic screw rod, and can perform lifting movement through the lifting rod and the lifting sleeve of the lifting mechanism;

2. according to the invention, the adjustable supporting mechanism is arranged, the adjustable supporting column arranged on the adjustable supporting mechanism and the filling pile opening are grounded and supported, the adjustable supporting column can transversely revolve through the supporting movable gear during supporting, after revolving to a proper position, the gear revolving clamping piece is nested into the clamping teeth at the corresponding position of the supporting movable gear to complete the fixed adjustment of the supporting angle, and meanwhile, the gear revolving clamping piece can transversely move along the movable guide rail through the supporting movable mechanism, so that the effect of changing the supporting position of the adjustable supporting column is well achieved, and the supporting and adjusting flexibility of the mechanism is greatly reflected;

3. according to the invention, by arranging the movable drilling clamping mechanism, when the drilling equipment is fixed, the movable compression spring is stretched to a contraction state by pulling the movable stretching bolt, after the movable stretching bolt is stretched to a compression state, the drilling equipment passes through the hollow position, then the movable stretching bolt is loosened to enable the movable compression spring to be bounced, through linkage of the clamping linkage piece, clamping pieces on four sides tightly press and attach the drilling equipment to complete clamping, and after the clamping is completed, the clamping limiting pin is penetrated to further reinforce and limit, so that the effect of adapting, adjusting and fixing the drilling equipment with different sizes is well achieved, and the fixing adjustability of the equipment is well embodied.

4. In the invention, the inner side of the transverse telescopic screw rod is fixedly connected with a transverse adjusting control scale, and because the supporting and blocking structure has a flexible transverse adjusting design, the existing device does not have a good adjusting size control design, by arranging the transverse adjusting control scale which is a good equidistant scale mark, the working personnel can control the movable size through the transverse adjusting control scale according to the actual requirement, thereby well reflecting the distance control convenience of the supporting and blocking structure, the top end of the lifting mechanism is fixedly connected with a pipeline converging column, when the supporting operation is carried out, the device can carry more pipelines, the pipelines are easy to be wound when being randomly placed, through setting up the pipeline and receiving the bunch post, the pipeline is received the bunch post and is fine receipts supporting structure, and the staff can revolve in order the pipeline of being correlated with along the pipeline is received the bunch post to fine embodiment the device receive the bunch convenience.

5. In the invention, the top end of the pipeline bundling column is fixedly connected with a stressed pull ring, a certain vibration can be generated during operation due to the fact that the supporting and blocking structure is provided with a motor, the supporting and blocking mechanism needs to be stressed to ensure stability during operation, a worker can hold the stressed pull ring to stress the supporting and blocking mechanism through the stressed pull ring and can carry and transport the mechanism through the stressed pull ring, the stress convenience of the supporting and blocking structure is well improved, the bottom end of the lifting mechanism is fixedly connected with a reinforced grounding device, the supporting and blocking mechanism can generate large vibration during operation, the existing device does not have a good stable design at a grounding position, the reinforced grounding device is a weighted bolt grounding block arranged at the bottom end of the lifting mechanism, the contact and biting force between the supporting and blocking mechanism and an underlying surface can be well increased, and the supporting and blocking structure is well prevented from vibrating and sliding during operation, thereby the reinforcing stability of this fender mechanism has been reflected well.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is an enlarged schematic view of the invention at A;

FIG. 3 is an enlarged view of the invention at B;

FIG. 4 is a schematic sectional view of the movable clamping mechanism for drilling according to the present invention;

fig. 5 is an enlarged view of the present invention at C.

The labels in the figure are: 1. a retaining structure body; 2. pouring a pile opening; 3. a drilling movable clamping mechanism; 301. a retainer; 302. clamping the linkage piece; 303. a movable compression spring; 304. a movable stretching bolt; 305. clamping the limiting pin; 4. a transverse driving motor; 5. a transverse telescopic screw rod; 6. a lifting mechanism; 7. a lifting limit bolt; 8. a motor control mechanism; 9. transversely adjusting the control scale; 10. a pipeline converging column; 11. a stressed pull ring; 12. reinforcing the grounding device; 13. an integrated brightening and light supplementing lamp; 14. an adjustable support column; 15. supporting the movable gear; 16. the gear revolving fastener; 17. a supporting movable mechanism; 18. a movable guide rail.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention; the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance; furthermore, unless expressly stated or limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, as they may be fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1-5, the present invention provides a technical solution: a combined retaining structure of an anchor cable cast-in-situ bored pile comprises a retaining structure main body 1, a cast-in-situ pile mouth 2 and a drilling movable clamping mechanism 3, wherein the bottom of the retaining structure main body 1 is fixedly connected with the cast-in-situ pile mouth 2, and the middle part of the cast-in-situ pile mouth 2 is movably connected with the drilling movable clamping mechanism 3;

two sides of the interior of the supporting and retaining structure main body 1 are movably connected with transverse driving motors 4, one ends of the transverse driving motors 4 are movably connected with transverse telescopic screw rods 5, one ends of the transverse telescopic screw rods 5 are fixedly connected with lifting mechanisms 6, the inner sides of the lifting mechanisms 6 are connected with lifting limit bolts 7 in a penetrating mode, and the tops of the transverse driving motors 4 are connected with motor control mechanisms 8 in a lap joint mode;

adjustable supporting columns 14 are fixedly connected to two sides of the interior of the cast-in-place pile opening 2, the top ends of the adjustable supporting columns 14 are movably connected with supporting movable gears 15, the tops of the supporting movable gears 15 are connected with gear revolving clamping pieces 16 in an embedded mode, the tops of the gear revolving clamping pieces 16 are connected with supporting movable mechanisms 17 in an overlapping mode, and movable guide rails 18 are fixedly connected to the peripheries of the supporting movable mechanisms 17;

the inside inboard swing joint of drilling activity chucking mechanism 3 has chucking piece 301, and the both ends swing joint of chucking piece 301 has chucking interlock piece 302, and one side swing joint of chucking piece 301 has movable pressure spring 303, and the tensile bolt 304 of one end fixedly connected with activity of activity pressure spring 303, the inboard through connection of the tensile bolt 304 of activity has chucking spacer pin 305.

Preferably, the inboard fixedly connected with lateral adjustment control scale 9 of horizontal flexible screw rod 5, because this fender structure has nimble lateral adjustment design, current device does not possess fine regulation size control design, through setting up lateral adjustment control scale 9, lateral adjustment control scale 9 is fine equidistance scale mark, the staff can control the activity size through lateral adjustment control scale 9 according to actual need, thereby fine embodiment this distance control convenience of keeping off the structure.

Preferably, elevating system 6's top fixedly connected with pipeline beam column 10, when a fender operation goes on, more pipeline can be carried to the device, and the pipeline is taken at will and is put and cause the winding easily, and through setting up pipeline beam column 10, pipeline beam column 10 is fine beam supporting structure, and the staff can revolve in order related pipeline beam column 10 along the pipeline to fine embodiment the device's beam convenience of receipts.

Preferably, the top fixedly connected with atress pull ring 11 of the post 10 is restrainted in the pipeline, because a fender structure is provided with the motor, when moving, can produce certain vibrations, need carry out the atress to a fender mechanism and guarantee stably, through setting up atress pull ring 11, the staff accessible is grabbed and is held atress pull ring 11 and carry out the atress to a fender mechanism, still can carry the transportation to the mechanism through atress pull ring 11 simultaneously, fine improvement a fender structure's atress convenience.

Preferably, elevating system 6's bottom fixedly connected with consolidates earthing device 12, because prop up and keep off the mechanism and can produce great vibrations when carrying out the operation, current device does not have fine firm design in the earthing position, consolidate earthing device 12 through setting up, consolidate earthing device 12 for setting up the aggravate bolt grounding block in elevating system 6 bottom, the increase that can be fine props up the contact interlock of keeping off mechanism and underlying surface, fine preventing to prop up and keep off the structure operation and take place vibrations and slide, thereby fine embodiment should prop up the reinforcement stability who keeps off the mechanism.

Preferably, prop up integrative blast light filling lamp 13 of top one side fixedly connected with of fender structure main part 1, current fender structure does not possess fine light filling structure, when moving under outdoor environment at night, need be with the help of extra light filling structure, it is comparatively inconvenient, through setting up integrative blast light filling lamp 13, integrative blast light filling lamp 13 is for the illumination light filling design with device an organic whole, can be fine automatic blast, through the independent power supply of self-contained power, need not with the help of extra lighting apparatus, thereby fine embodiment the device's illumination light filling convenience.

Preferably, the transverse driving motors 4 at two sides in the supporting and blocking structure body 1, the transverse telescopic screw 5 at one end of the transverse driving motor 4, the lifting mechanism 6 at one end of the transverse telescopic screw 5, the lifting limit bolt 7 at the inner side of the lifting mechanism 6 and the motor control mechanism 8 at the top of the transverse driving motor 4 jointly form a supporting and blocking movable mechanism, the existing supporting and blocking structure is in fixed design, can not change in a certain range according to the operation position during operation, does not have good adjustability and insufficient activity flexibility, and by arranging the supporting and blocking movable mechanism, a worker can control the transverse driving motor 4 through the motor control mechanism 8 to enable the mechanism to transversely move in a certain range on the transverse telescopic screw 5 and simultaneously can also lift and move through the lifting rod and the lifting sleeve of the lifting mechanism 6, and after lifting and adjusting to a proper position, the lifting limit bolt 7 is penetrated to play a good height limit control, in conclusion, the device well improves the adjustability and the mobility of the retaining structure.

Preferably, the adjustable supporting columns 14 on two sides inside the cast-in-place pile mouth 2, the supporting movable gear 15 on the top of the adjustable supporting column 14, the gear revolving clamping piece 16 on the top of the supporting movable gear 15, the supporting movable mechanism 17 on the top of the gear revolving clamping piece 16, and the movable guide rail 18 on the periphery of the supporting movable mechanism 17 jointly form an adjustable supporting mechanism, because the optimal supporting positions of different cast-in-place pile mouths 2 are different, the existing supporting and blocking structure cannot perform good supporting and adjusting according to the actual supporting positions, the supporting and adjusting performance is not enough, by arranging the adjustable supporting mechanism, the adjustable supporting columns 14 arranged on the adjustable supporting mechanism and the cast-in-place pile mouth 2 perform grounding support, during supporting, the adjustable supporting columns 14 can transversely revolve through the supporting movable gear 15, after revolving to the proper position, the gear revolving clamping pieces 16 are nested into the clamping teeth at the corresponding positions of the supporting movable gear 15, so as to complete the fixed adjustment of the supporting angle, meanwhile, the supporting and moving mechanism 17 can transversely move along the movable guide rail 18, so that the effect of changing the supporting position of the adjustable supporting column 14 is well achieved, and the supporting and adjusting flexibility of the mechanism is greatly embodied.

Preferably, the drilling movable clamping mechanism 3 is formed by combining a clamping piece 301 on the inner side of the drilling, clamping linkage pieces 302 at two ends of the clamping piece 301, a movable compression spring 303 at one side of the clamping piece 301, a movable stretching bolt 304 at one end of the movable compression spring 303 and a clamping limit pin 305 on the inner side of the movable stretching bolt 304, the existing supporting structure cannot adjust the fixation of the drilling equipment in real time according to different drilling sizes, the fixation adjustability of the equipment is insufficient, when the drilling equipment is fixed by arranging the drilling movable clamping mechanism 3, the movable compression spring 303 is stretched to a contraction state by pulling the movable stretching bolt 304, after the movable compression spring 303 is stretched to a compression state, the drilling equipment penetrates through a hollow position, then the movable stretching bolt 304 is loosened to enable the movable compression spring 303 to be bounced, the clamping pieces 301 on four sides are linked by the clamping linkage pieces 302, and tightly press and attach the drilling equipment to complete clamping, after the chucking is accomplished, penetrate chucking spacer pin 305 and carry out further reinforcement spacing can to fine reaching carries out the fixed effect of adaptation regulation to not unidimensional drilling equipment, thereby fine embodiment the fixed controllability of this equipment.

The working principle is as follows: firstly, by arranging the reinforcing grounding device 12, the reinforcing grounding device 12 is a weighted bolt grounding block arranged at the bottom end of the lifting mechanism 6, the contact and biting force of the supporting and blocking mechanism and the underlying surface can be well increased, the supporting and blocking structure is well prevented from vibrating and sliding during operation, and the reinforcing stability of the supporting and blocking mechanism is well embodied;

then, the integrated brightening and light supplementing lamp 13 is arranged, the integrated brightening and light supplementing lamp 13 is designed for lighting and light supplementing integrated with the device, the brightening can be well and automatically carried out, independent power supply is achieved through a self-contained power supply, additional lighting equipment is not needed, and therefore the lighting and light supplementing convenience of the device is well embodied;

then, through setting up the movable mechanism of the supporting stop, the staff can control the horizontal driving motor 4 to make the mechanism carry on the horizontal movement of certain extent on the horizontal telescopic screw 5 through the motor control mechanism 8, can also carry on the lifting movement through lifter and lifting sleeve of the lifting gearing 6 at the same time, after lifting and adjusting to the appropriate position, penetrate the stop bolt 7 of the lift and can get up to get fine height limit control, in conclusion, the apparatus has improved the adjustability and activity of the supporting stop structure well;

next, by arranging the adjustable supporting mechanism, the adjustable supporting column 14 arranged on the adjustable supporting mechanism and the cast-in-place pile mouth 2 are in ground connection supporting, during supporting, the adjustable supporting column 14 can transversely revolve through the supporting movable gear 15, after revolving to a proper position, the gear revolving clamping piece 16 is nested into the clamping tooth at the corresponding position of the supporting movable gear 15, so that the fixed adjustment of the supporting angle can be completed, and meanwhile, the gear revolving clamping piece can also transversely move along the movable guide rail 18 through the supporting movable mechanism 17, so that the effect of changing the supporting position of the adjustable supporting column 14 is well achieved, and the supporting and adjusting flexibility of the mechanism is greatly embodied;

finally, through setting up drilling activity chucking mechanism 3, when fixing drilling equipment, through pulling the tensile bolt 304 of activity and stretching movable pressure spring 303 to the shrink state, after stretching to the compact state, pass drilling equipment hollow position, loosen the tensile bolt 304 of activity and make movable pressure spring 303 bounce off after that, through chucking interlock piece 302 interlock, chucking spare 301 of four sides tightly presses and attaches drilling equipment and accomplishes the chucking, after the chucking is accomplished, penetrate chucking spacer pin 305 and carry out further reinforcement spacing can, thereby fine reaching carries out adaptation to different size drilling equipment and adjusts fixed effect, thereby fine reflection the fixed controllability of this equipment, this is exactly the theory of operation of this kind of anchor drilling bored concrete pile combination retaining structure.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (8)

1. The utility model provides an anchor rope drilling bored concrete pile combination retaining structure, includes retaining structure subject (1), bored concrete pile mouth (2) and drilling activity chucking mechanism (3), its characterized in that: the bottom of the supporting and retaining structure main body (1) is fixedly connected with a cast-in-place pile opening (2), and the middle part of the cast-in-place pile opening (2) is movably connected with a drilling movable clamping mechanism (3);

the supporting and blocking structure comprises a supporting and blocking structure main body (1), wherein two sides in the supporting and blocking structure main body (1) are movably connected with transverse driving motors (4), one end of each transverse driving motor (4) is movably connected with a transverse telescopic screw (5), one end of each transverse telescopic screw (5) is fixedly connected with a lifting mechanism (6), the inner side of each lifting mechanism (6) is connected with a lifting limiting bolt (7) in a penetrating mode, and the top of each transverse driving motor (4) is connected with a motor control mechanism (8) in a lap joint mode;

two sides of the interior of the cast-in-place pile opening (2) are fixedly connected with adjustable supporting columns (14), the top ends of the adjustable supporting columns (14) are movably connected with supporting movable gears (15), the tops of the supporting movable gears (15) are connected with gear revolving clamping pieces (16) in an embedded mode, the tops of the gear revolving clamping pieces (16) are connected with supporting movable mechanisms (17) in an overlapping mode, and movable guide rails (18) are fixedly connected to the peripheries of the supporting movable mechanisms (17);

the inside inboard swing joint of drilling activity chucking mechanism (3) has chucking spare (301), the both ends swing joint of chucking spare (301) has chucking interlock piece (302), one side swing joint of chucking spare (301) has activity pressure spring (303), the one end fixedly connected with activity of activity pressure spring (303) is stretched and is tied (304), the inboard through connection that stretches in the activity and tie (304) has chucking spacer pin (305).

2. The anchor rope cast-in-situ pile combined retaining structure as claimed in claim 1, wherein: the inner side of the transverse telescopic screw rod (5) is fixedly connected with a transverse adjusting control scale (9).

3. The anchor rope cast-in-situ pile combined retaining structure as claimed in claim 1, wherein: the top end of the lifting mechanism (6) is fixedly connected with a pipeline bundling column (10).

4. The anchor rope cast-in-situ pile combined retaining structure as claimed in claim 3, wherein: the top end of the pipeline converging column (10) is fixedly connected with a stressed pull ring (11).

5. The anchor rope cast-in-situ pile combined retaining structure as claimed in claim 1, wherein: the bottom end of the lifting mechanism (6) is fixedly connected with a reinforcing grounding device (12).

6. The anchor rope cast-in-situ pile combined retaining structure as claimed in claim 1, wherein: one side of the top end of the supporting structure body (1) is fixedly connected with an integrated brightening and light supplementing lamp (13).

7. The anchor rope cast-in-situ pile combined retaining structure as claimed in claim 1, wherein: the supporting and blocking structure is characterized in that a supporting and blocking moving mechanism is formed by transverse driving motors (4) on two sides inside a supporting and blocking structure body (1), a transverse telescopic screw rod (5) at one end of each transverse driving motor (4), a lifting mechanism (6) at one end of each transverse telescopic screw rod (5), a lifting limiting bolt (7) on the inner side of each lifting mechanism (6) and a motor control mechanism (8) at the top of each transverse driving motor (4) together.

8. The anchor rope cast-in-situ pile combined retaining structure as claimed in claim 1, wherein: the adjustable support mechanism is characterized in that adjustable support columns (14) on two sides of the interior of the cast-in-place pile opening (2), a support movable gear (15) on the top end of each adjustable support column (14), a gear revolving clamping piece (16) at the top of each support movable gear (15), a support movable mechanism (17) at the top of each revolving clamping piece (16) of the gear, and movable guide rails (18) on the periphery of each support movable mechanism (17) jointly form the adjustable support mechanism.

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