CN114150691B - Hydraulic engineering is with foundation pile that prevents rocking - Google Patents

Abstract

The application relates to a foundation pile for preventing shaking, in particular to a foundation pile for preventing shaking for hydraulic engineering. The technical problems of the application are as follows: the foundation pile capable of being reinforced and supported and being convenient for people to hoist and used for hydraulic engineering to prevent shaking is provided. The utility model provides a hydraulic engineering is with foundation pile that prevents rocking, including foundation pile, first rotary rod, gyro wheel, power unit and strut mechanism, foundation pile downside rotation is equipped with three first rotary rods of group, and the quantity of the first rotary rod of every group is two, all is equipped with the gyro wheel on the first rotary rod, and the foundation pile inboard is equipped with power unit, is connected with the strut mechanism between foundation pile and the power unit. The application achieves the effects of reinforcing and supporting and facilitating the lifting by people; through rotating the third rotary block, the third rotary block can be hooked by the convenient crane, and the foundation pile can be conveniently taken.

Description

Hydraulic engineering is with foundation pile that prevents rocking

Technical Field

The application relates to a foundation pile for preventing shaking, in particular to a foundation pile for preventing shaking for hydraulic engineering.

Background

The foundation pile consists of a foundation pile and a bearing platform connected with the pile top. The anti-overturning device is used for resisting horizontal load and moment load caused by wind and earthquake, guaranteeing anti-overturning stability of a high-rise building, guaranteeing stability of the high-rise building and avoiding excessive subsidence and inclination.

The foundation pile used in the prior art is generally vertically inserted into the ground, and the whole body is not supported by other parts, so that the stability is poor, and the foundation pile is easy to shake, so that certain harm is caused to the building engineering.

Therefore, it is necessary to design a foundation pile which can strengthen the support and is convenient for people to lift and prevent shaking for hydraulic engineering.

Disclosure of Invention

In order to overcome the defects that the foundation pile vertically inserted into the ground is poor in stability and easy to shake, the application has the following technical problems: the foundation pile capable of being reinforced and supported and being convenient for people to hoist and used for hydraulic engineering to prevent shaking is provided.

The utility model provides a hydraulic engineering is with foundation pile that prevents rocking, including foundation pile, first rotary rod, gyro wheel, power unit and strut mechanism, foundation pile downside rotation is equipped with three first rotary rods of group, and the quantity of the first rotary rod of every group is two, all is equipped with the gyro wheel on the first rotary rod, and the foundation pile inboard is equipped with power unit, is connected with the strut mechanism between foundation pile and the power unit.

Further, the power mechanism comprises a first supporting block, a motor, a screw rod and a fixed sliding block, wherein the first supporting block is arranged on the upper side of the foundation pile, the motor is arranged on the first supporting block, the fixed sliding block is arranged in the middle of the foundation pile, the screw rods are rotatably arranged on the upper side and the lower side of the fixed sliding block, threads on the screw rods on the upper side and the lower side are oppositely rotated, the screw rods on the upper side and the lower side are connected, the screw rod on the upper side is connected with an output shaft of the motor through a coupling, and the screw rod on the lower side is rotatably connected with the inner bottom of the foundation pile.

Further stated, the support mechanism comprises a second support block, a first guide rod, a first sliding sleeve, a first spring, a first wedge block, a second sliding sleeve and a second spring, wherein three second support blocks are arranged at equal intervals on the inner side of the foundation pile in an up-down symmetrical mode, the first guide rods are arranged in the second support blocks, the screw rods on the upper side and the lower side are all provided with the first sliding sleeve in a threaded mode, the first guide rods are all connected with the first sliding sleeve in a sliding mode, the first springs are all sleeved on the first guide rods, three second sliding sleeves are arranged at equal intervals on the inner side of the foundation pile in an up-down symmetrical mode, the first wedge blocks are arranged on the second sliding sleeve in a sliding mode, and the second springs are connected between the first wedge blocks and the second sliding sleeves.

Further, still including firm subassembly, firm subassembly is including the diagonal bar, the third is propped up the piece, the second rotary rod, first rotary block, first torsional spring and first stopper, the inboard equal interval of first sliding sleeve is equipped with three diagonal bar, the even interval in foundation pile middle is equipped with three third and props up the piece, both sides all rotate about the third and be equipped with the second rotary rod, all be equipped with first rotary block on the second rotary rod, all be connected with two first torsional springs between the first rotary block of second rotary rod and third prop up the piece, both sides all are equipped with three first stoppers of group about the foundation pile, the quantity of the first stopper of every group is two, first rotary block is connected with adjacent first stopper sliding type of a set of respectively.

The utility model provides a foundation pile is characterized by further comprising a limiting component, limiting component is including the fourth piece, the cylinder, the second stopper, the fifth piece, the gear, the second guide arm, first connecting rod and third spring, third piece bottom all is equipped with the fourth piece, all be equipped with the cylinder on the fourth piece, all be equipped with the second stopper on the telescopic link of cylinder, the second stopper downside is equipped with first rack, foundation pile inner wall middle even interval is equipped with three fifth piece, all rotate on the fifth piece and be equipped with the gear, the symmetry is equipped with the second guide arm about in the middle of the foundation pile inner wall, all slidingtype be equipped with first connecting rod between the second guide arm of upper and lower both sides, first connecting rod downside is equipped with the second rack, first rack and gear engagement, second rack and gear engagement, all be connected with two third springs between first connecting rod and the second guide arm.

The foundation pile is characterized by further comprising an opening assembly, wherein the opening assembly comprises a third guide rod, a third limiting block, a fourth spring, a second rotating block and a fourth limiting block, three third guide rods are uniformly arranged on the inner wall of the upper side of the foundation pile at intervals, the third limiting blocks are slidably arranged between the third guide rods, connecting blocks are arranged on the lower sides of the first supporting blocks, the third limiting blocks slidably penetrate through the connecting blocks, three fourth springs are connected between the third limiting blocks and the connecting blocks, a second rotating block is movably arranged on the upper side of the foundation pile, the second rotating block is located on the upper side of the third limiting block, a motor is located on the inner side of the second rotating block, three fourth limiting blocks are uniformly arranged on the lower side of the second rotating block at intervals, and special-shaped grooves are formed in the inner side of the foundation pile and are slidably connected with the fourth limiting blocks.

Further, the device comprises a take-out assembly, the take-out assembly comprises a third rotating rod, a third rotating block and a second torsion spring, three third rotating rods are arranged on the second rotating block at equal intervals in a rotating mode, the third rotating blocks are arranged on the third rotating rods, and the second torsion springs are connected between the third rotating rods and the third rotating blocks.

Further, the third rotating block is made of alloy.

The beneficial effects of the application are as follows: 1. the application achieves the effects of reinforcing and supporting and facilitating the lifting by people;

2. according to the application, the supporting mechanism and the stabilizing component are matched, so that the components of the supporting mechanism and the stabilizing component support surrounding soil, and the foundation pile can be reinforced;

3. according to the application, the third rotating block is rotated, so that the crane can conveniently hook the third rotating block, and the foundation pile can be conveniently taken.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present application.

Fig. 2 is a schematic perspective view of a second embodiment of the present application.

Fig. 3 is a schematic perspective view of a third embodiment of the present application.

Fig. 4 is a schematic perspective view of a power mechanism according to the present application.

Fig. 5 is a schematic view of a first perspective structure of the opening mechanism of the present application.

Fig. 6 is a schematic view of a second perspective of the distracting mechanism of the present application.

Fig. 7 is a schematic perspective view of a stabilizing assembly according to the present application.

Fig. 8 is a schematic perspective view of a limiting assembly according to the present application.

Fig. 9 is a schematic perspective view of an opening assembly according to the present application.

Fig. 10 is a schematic perspective view of the extraction assembly of the present application.

The reference symbols in the drawings: 1: foundation pile, 2: first rotary rod, 3: roller, 4: power mechanism, 40: first branch, 41: motor, 42: screw, 43: fixed slider, 5: a spreader mechanism, 50: second branch, 51: first guide bar, 52: first sliding sleeve, 53: first spring, 54: first wedge, 55: second sliding sleeve, 56: second spring, 6: stabilizing assembly, 60: diagonal bar, 61: third branch, 62: second rotating lever, 63: first rotating block, 64: first torsion spring, 65: first stopper, 7: limit assembly, 70: fourth branch, 71: cylinder, 72: second stopper, 73: fifth branching block, 74: gear, 75: second guide bar, 76: first link, 77: third spring, 8: opening the assembly, 80: third guide bar, 81: third stopper, 82: fourth spring, 83: second rotating block, 84: fourth stopper, 85: a special groove, 9: extraction assembly, 90: third rotating lever, 91: third rotation block, 92: and a second torsion spring.

Detailed Description

The application will be further described with reference to specific examples, illustrative examples and illustrations of which are provided herein to illustrate the application, but are not to be construed as limiting the application.

Example 1

The utility model provides a foundation pile that hydraulic engineering was used to prevent rocking, as shown in fig. 1-10, including foundation pile 1, first rotary rod 2, gyro wheel 3, power unit 4 and strut mechanism 5, foundation pile 1 downside rotation is equipped with three first rotary rod 2 of group, and the quantity of the first rotary rod 2 of every group is two, all is equipped with gyro wheel 3 on the first rotary rod 2, and foundation pile 1 inboard is equipped with power unit 4, is connected with strut mechanism 5 between 1 and the power unit 4.

The power mechanism 4 comprises a first supporting block 40, a motor 41, a screw rod 42 and a fixed sliding block 43, wherein the first supporting block 40 is arranged on the upper side of the foundation pile 1, the motor 41 is arranged on the first supporting block 40, the fixed sliding block 43 is arranged in the middle of the foundation pile 1, the screw rods 42 are rotatably arranged on the upper side and the lower side of the fixed sliding block 43, threads on the screw rods 42 on the upper side and the lower side are oppositely rotated, the screw rods 42 on the upper side and the lower side are connected, the screw rods 42 on the upper side are connected with an output shaft of the motor 41 through a coupling, and the screw rods 42 on the lower side are rotatably connected with the inner bottom of the foundation pile 1.

The opening mechanism 5 comprises a second supporting block 50, a first guide rod 51, a first sliding sleeve 52, a first spring 53, a first wedge block 54, a second sliding sleeve 55 and a second spring 56, wherein three second supporting blocks 50 are symmetrically arranged at equal intervals on the inner side of the foundation pile 1, the first guide rod 51 is arranged in the second supporting block 50, the screw rods 42 on the upper side and the lower side are all provided with the first sliding sleeve 52 in a threaded mode, the first guide rod 51 is all connected with the first sliding sleeve 52 in a sliding mode, the first springs 53 are all connected between the first sliding sleeve 52 and the second supporting block 50, the first springs 53 are all sleeved on the first guide rod 51, three second sliding sleeves 55 are symmetrically arranged at equal intervals on the inner side of the foundation pile 1, the first wedge blocks 54 are arranged on the second sliding sleeve 55 in a sliding mode, the first wedge blocks 54 are matched with the first sliding sleeves 52, and the second springs 56 are all connected between the first wedge blocks 54 and the second sliding sleeves 55.

When the foundation pile 1 is inserted into soil, under the rolling action of the first rotating rod 2 and the idler wheels 3, the foundation pile 1 can be assisted to move downwards, after the foundation pile 1 is inserted into the soil, a user can start the motor 41, the screw rods 42 on the upper side and the lower side are driven to rotate through the output shaft of the motor 41, as the threads on the screw rods 42 on the upper side and the lower side rotate in opposite directions, the screw rods 42 rotate, the first sliding sleeves 52 on the upper side and the lower side respectively move towards the direction of the fixed sliding blocks 43 under the guiding action of the first guide rods 51, the first springs 53 are compressed, when the first sliding sleeves 52 move, the first wedge blocks 54 are pressed, the first wedge blocks 54 are all moved outwards and inserted into the soil, so that the foundation pile 1 is more stable in the soil, the second springs 56 are compressed, when the foundation pile 1 is required to be taken out, the output shaft of the motor 41 can be started, the screw rods 42 are reversely rotated, then the first sliding sleeves 52 on the upper side and lower side are reversely moved, the first sliding sleeves 52 are reset, the first wedge blocks 53 are not reset, and the first wedge blocks 54 can be reset to the soil is moved from the soil, and the first wedge blocks 54 are reset to the soil.

Still including firm subassembly 6, firm subassembly 6 is including diagonal bar 60, third piece 61, second rotary rod 62, first rotary block 63, first torsional spring 64 and first stopper 65, the inboard equal interval of first sliding sleeve 52 is equipped with three diagonal bar 60, the even interval is equipped with three third piece 61 in the middle of the foundation pile 1, both sides all rotate about the third piece 61 are equipped with second rotary rod 62, all be equipped with first rotary block 63 on the second rotary rod 62, all be connected with two first torsional springs 64 between third piece 61 and the first rotary block 63, both sides all are equipped with three first stopper 65 of group about the foundation pile 1, the quantity of the first stopper 65 of every group is two, first rotary block 63 is connected with adjacent first stopper 65 slidingtype of a set of respectively.

When the first sliding sleeve 52 on the upper side and the lower side moves inwards, the inclined rod 60 is driven to move inwards, the first rotating block 63 is pushed outwards when the inclined rod 60 moves inwards, the first limiting block 65 can guide the first rotating block 63 at the moment, the first torsion spring 64 deforms, the first rotating block 63 moves outwards to prop against soil, so that the foundation pile 1 is more stable, when the first sliding sleeve 52 drives the inclined rod 60 to move reversely, the inclined rod 60 does not prop against the first rotating block 63 any more, and the first rotating block 63 moves reversely to reset under the reset action of the first torsion spring 64.

Still including spacing subassembly 7, spacing subassembly 7 is including fourth piece 70, cylinder 71, second stopper 72, fifth piece 73, gear 74, second guide arm 75, first connecting rod 76 and third spring 77, third piece 61 bottom all is equipped with fourth piece 70, all be equipped with cylinder 71 on the fourth piece 70, all be equipped with second stopper 72 on the telescopic link of cylinder 71, second stopper 72 downside is equipped with first rack, the even interval in middle of foundation pile 1 inner wall is equipped with three fifth piece 73, all rotate on the fifth piece 73 and be equipped with gear 74, the upper and lower symmetry is equipped with second guide arm 75 in the middle of the foundation pile 1 inner wall, all be equipped with first connecting rod 76 between the second guide arm 75 of upper and lower both sides, first rack and gear 74 meshing are equipped with to first connecting rod 76 downside, all be connected with two third springs 77 between first connecting rod 76 and the second guide arm 75.

If the upper first sliding sleeve 52 drives the upper diagonal rod 60 to move upwards, when the diagonal rod 60 does not support the first rotating block 63 any more, the first rotating block 63 is loose and cannot support surrounding soil, the cylinder 71 is started, the cylinder 71 drives the second limiting block 72 and the first rack to move downwards, the second limiting block 72 and the first rack support the lower first rotating block 63, the first rack is meshed with the gear 74, the first connecting rod 76 moves upwards along the second guide rod 75 and supports the upper first rotating block 63, the third spring 77 deforms, so that the first rotating block 63 is kept in a state of supporting surrounding soil tightly, the foundation pile 1 is reinforced, when the foundation pile 1 does not need to be reinforced, the cylinder 71 is started, the cylinder 71 drives the second limiting block 72 and the first rack to move upwards, the first connecting rod 76 moves downwards along the second guide rod 75 through the first rack meshed with the gear 74, the second rack is meshed with the gear 74, the second limiting block 72 and the first rotating block 76 does not support the first rotating block 77 any more, and the third spring 77 resets.

The foundation pile comprises a foundation pile 1, a first guide rod 80, a second guide rod 80, a third limiting block 81, a fourth spring 82, a second rotating block 83 and a fourth limiting block 84, wherein the inner wall of the upper side of the foundation pile 1 is uniformly provided with three third guide rods 80 at intervals, the third limiting blocks 81 are arranged between the third guide rods 80 in a sliding mode, connecting blocks are arranged on the lower sides of the first support blocks 40, the third limiting blocks 81 pass through the connecting blocks in a sliding mode, three fourth springs 82 are connected between the third limiting blocks 81 and the connecting blocks, the upper side of the foundation pile 1 is movably provided with the second rotating block 83, the second rotating block 83 is located on the upper side of the third limiting block 81, a motor 41 is located on the inner side of the second rotating block 83, three fourth limiting blocks 84 are uniformly arranged on the lower side of the second rotating block 83 at intervals, special-shaped grooves 85 are formed in the inner side of the foundation pile 1, and the fourth limiting blocks 84 are connected with the special-shaped grooves 85 in a sliding mode.

In the initial state, the fourth spring 82 is in a compressed state, when the user needs to repair the motor 41, the second rotating block 83 can be rotated, so that the fourth limiting block 84 moves to a straight groove in the special-shaped groove 85, and under the reset action of the fourth spring 82, the third limiting block 81 jacks up the second rotating block 83, so that the user can take out the second rotating block 83 and repair the motor 41, after the repair is completed, the user can push the second rotating block 83 downwards, then rotate the second rotating block 83 and the fourth limiting block 84, the special-shaped groove 85 is clamped by the fourth limiting block 84, and the fourth spring 82 is compressed again.

Still including taking out subassembly 9, take out subassembly 9 including third rotary rod 90, third rotary block 91 and second torsional spring 92, evenly spaced rotation is equipped with three third rotary rod 90 on the second rotary block 83, all is equipped with third rotary block 91 on the third rotary rod 90, all is connected with second torsional spring 92 between third rotary rod 90 and the third rotary block 91.

The user can rotate the second rotating block 83 and the fourth limiting block 84, so that the fourth limiting block 84 moves upwards along the special-shaped groove 85, but cannot move out of the foundation pile 1, at this time, the user can rotate the third rotating block 91, the second torsion spring 92 deforms, then the user can hook the third rotating block 91 by using the crane to hoist the foundation pile 1, then the crane can be separated from the third rotating block 91, and the second torsion spring 92 is reset.

It should be understood that this example is only illustrative of the application and is not intended to limit the scope of the application. Furthermore, it should be understood that various changes and modifications can be made by one skilled in the art after reading the teachings of the present application, and such equivalents are intended to fall within the scope of the application as defined in the appended claims.

Claims (4)

1. The utility model provides a foundation pile that hydraulic engineering was used preventing rocking which characterized by: the pile foundation comprises a foundation pile (1), first rotating rods (2), rollers (3), a power mechanism (4) and a supporting mechanism (5), wherein three groups of first rotating rods (2) are rotatably arranged on the lower side of the foundation pile (1), the number of the first rotating rods (2) in each group is two, the rollers (3) are arranged on the first rotating rods (2), the power mechanism (4) is arranged on the inner side of the foundation pile (1), and the supporting mechanism (5) is connected between the foundation pile (1) and the power mechanism (4);

the power mechanism (4) comprises a first supporting block (40), a motor (41), a screw rod (42) and a fixed sliding block (43), wherein the first supporting block (40) is arranged on the upper side of the foundation pile (1), the motor (41) is arranged on the first supporting block (40), the fixed sliding block (43) is arranged in the middle of the foundation pile (1), the screw rods (42) are respectively arranged on the upper side and the lower side of the fixed sliding block (43) in a rotating mode, threads on the screw rods (42) on the upper side and the lower side are opposite in rotation direction, the screw rods (42) on the upper side and the lower side are connected, the screw rods (42) on the upper side are connected with an output shaft of the motor (41) through a coupling, and the screw rods (42) on the lower side are connected with the inner bottom of the foundation pile (1) in a rotating mode;

the supporting mechanism (5) comprises a second supporting block (50), a first guide rod (51), a first sliding sleeve (52), a first spring (53), a first wedge block (54), a second sliding sleeve (55) and a second spring (56), wherein three second supporting blocks (50) are symmetrically and uniformly arranged at intervals on the inner side of the foundation pile (1), the first guide rod (51) is arranged in each second supporting block (50), first sliding sleeves (52) are arranged on screw rods (42) on the upper side and the lower side in a threaded mode, the first guide rods (51) are connected with the first sliding sleeve (52) in a sliding mode, the first springs (53) are connected between the first sliding sleeve (52) and the second supporting blocks (50), the first springs (53) are sleeved on the first guide rods (51), three second sliding sleeves (55) are symmetrically and uniformly arranged at intervals on the inner side of the foundation pile (1), the first wedge blocks (54) are uniformly arranged on the second sliding sleeves (55), and the second springs (56) are connected between the first wedge blocks (54) and the second sliding sleeves (55);

the novel foundation pile comprises a foundation pile body and is characterized by further comprising a stabilizing component (6), wherein the stabilizing component (6) comprises an inclined rod (60), a third supporting block (61), a second rotating rod (62), a first rotating block (63), a first torsion spring (64) and a first limiting block (65), three inclined rods (60) are uniformly arranged at intervals on the inner side of the first sliding sleeve (52), three third supporting blocks (61) are uniformly arranged in the middle of the foundation pile (1), second rotating rods (62) are rotatably arranged on the upper side and the lower side of each third supporting block (61), first rotating blocks (63) are arranged on the second rotating rod (62), two first torsion springs (64) are connected between each third supporting block (61) and each first rotating block (63), three groups of first limiting blocks (65) are arranged on the upper side and the lower side of the foundation pile (1), and the number of each group of first limiting blocks (65) is two, and each first rotating block (63) is slidably connected with a group of adjacent first limiting blocks (65);

the device comprises a base pile (1), and is characterized by further comprising a limiting assembly (7), wherein the limiting assembly (7) comprises a fourth supporting block (70), an air cylinder (71), a second limiting block (72), a fifth supporting block (73), a gear (74), a second guide rod (75), a first connecting rod (76) and a third spring (77), the bottom of the third supporting block (61) is provided with the fourth supporting block (70), the air cylinder (71) is arranged on the fourth supporting block (70), the second limiting block (72) is arranged on a telescopic rod of the air cylinder (71), a first rack is arranged on the lower side of the second limiting block (72), three fifth supporting blocks (73) are uniformly arranged in the middle of the inner wall of the base pile (1) at intervals, gears (74) are rotatably arranged on the fifth supporting blocks (73), a first connecting rod (76) is arranged between the second guide rods (75) on the upper side and the lower side of the base pile, a second rack is arranged on the lower side of the first connecting rod (76), the first rack is meshed with the gears (74), and the second rack is meshed with the gears (74), and the first rack is connected with the second guide rod (75) through the third guide rod (75).

When the first sliding sleeve (52) at the upper side and the lower side moves inwards, the inclined rod (60) is driven to move inwards, and when the inclined rod (60) moves inwards, the first rotating block (63) is pushed outwards;

if the first sliding sleeve (52) at the upper side drives the inclined rod (60) at the upper side to move upwards, the inclined rod (60) does not support against the first rotating block (63) any more, at this time, the first rotating block (63) is loose and cannot support against surrounding soil tightly, the air cylinder (71) is started, the air cylinder (71) drives the second limiting block (72) and the first rack to move downwards, the second limiting block (72) and the first rack support against the first rotating block (63) at the lower side, the first rack is meshed with the gear (74) through the first rack, the second rack is meshed with the gear (74), the first connecting rod (76) moves upwards along the second guide rod (75) to support against the first rotating block (63) at the upper side, the third spring (77) deforms, so that the first rotating block (63) keeps against surrounding soil tightly, the air cylinder (71) is started when the foundation pile (1) does not need to be reinforced, the air cylinder (71) drives the second limiting block (72) and the first rack to move upwards, the first connecting rod (76) is meshed with the first rack (74) through the first rack and the first guide rod (75) and the first guide rod (76) does not move downwards, and the first connecting rod (76) is meshed with the first rack (76) to rotate downwards.

2. A foundation pile for hydraulic engineering for preventing wobble according to claim 1, characterized in that: the novel foundation pile is characterized by further comprising an opening assembly (8), wherein the opening assembly (8) comprises a third guide rod (80), a third limiting block (81), a fourth spring (82), a second rotating block (83) and a fourth limiting block (84), three third guide rods (80) are uniformly arranged on the inner wall of the upper side of the foundation pile (1) at intervals, the third limiting block (81) is slidably arranged between the third guide rods (80), connecting blocks are arranged on the lower side of the first supporting block (40), the third limiting block (81) slidably passes through the connecting blocks, three fourth springs (82) are connected between the third limiting block (81) and the connecting blocks, the upper side of the foundation pile (1) is movably provided with a second rotating block (83), the second rotating block (83) is located on the upper side of the third limiting block (81), the motor (41) is located on the inner side of the second rotating block (83), three fourth limiting blocks (84) are uniformly arranged on the lower side of the second rotating block (83) at intervals, the inner side of the foundation pile (1) is provided with special-shaped grooves (85), and the fourth limiting blocks (84) are slidably connected with the special-shaped grooves (85).

3. A foundation pile for hydraulic engineering according to claim 2, wherein the foundation pile is sway-preventing, characterized in that: the novel rotary rack is characterized by further comprising a take-out assembly (9), wherein the take-out assembly (9) comprises a third rotary rod (90), a third rotary block (91) and a second torsion spring (92), three third rotary rods (90) are uniformly arranged on the second rotary block (83) in a rotary mode at intervals, the third rotary blocks (91) are all arranged on the third rotary rods (90), and the second torsion springs (92) are connected between the third rotary rods (90) and the third rotary blocks (91).

4. A foundation pile for hydraulic engineering according to claim 3, wherein the foundation pile is formed by: the third rotating block (91) is made of alloy.