CN116537275A - Static and dynamic method test device for water steel pipe pile - Google Patents

Abstract

The invention discloses a static and dynamic method test device for a water steel pipe pile, which comprises the following steps: the movable mechanism comprises a floating frame, a plurality of inflatable floating blocks are fixedly connected to the inside of the floating frame at equal intervals, guide rods are inserted into the two sides of the floating frame in a sliding mode relative to the inner surface wall, the supporting mechanism comprises a carrier plate and a limiting part, and a plurality of mounting grooves are formed in the top of the carrier plate at equal intervals along the edge direction. When the support device is used, under the support of the inflatable floating block, the floating frame can be matched with the guide rod to effectively bear the supporting mechanism and the functional mechanism to move on the water surface, when the block is moved to the top of the appointed foundation pile body, the support device further slowly releases the gas in the inflatable floating block through control, and then the support plate can slowly descend under the support of the floating frame, so that the top ends of the block and the foundation pile body are gradually close to and attached to each other, and when the block is completely attached to the top of the foundation pile body, the first worm is adjusted through rotation, and then can be matched with the first worm gear to effectively drive the linkage shaft to rotate.

Description

Static and dynamic method test device for water steel pipe pile

Technical Field

The invention belongs to the technical field of bridge construction detection equipment, and particularly relates to a static and dynamic test device for a water steel pipe pile.

Background

Pile foundations are supporting members that transfer the superstructure load into the geotechnical foundation, playing a vital role in the safety of the engineering structure. In order to ensure engineering safety, a load test is usually required to be carried out to determine whether the bearing capacity of the pile foundation meets the design requirement, the loading method of the load test mainly comprises a weighting method, an anchor pile method and an anchor pile weighting method, the load is applied to the top of the pile foundation by adopting the method during the test, the loading and pile top settlement of each stage is measured, and the bearing capacity of the pile foundation is determined by analyzing a relation curve of the load and pile top settlement.

However, in the prior art, foundation piles need to be placed in water in the bridge construction process, and the foundation piles are further caused to be subjected to dynamic and static test on water due to the influence of water, stable support during land test cannot be provided in the actual test process, and excessive impact force generated in the dynamic and static test process is further adopted, so that the test device is prone to tilting and damage, accuracy of an actual detection result is affected, meanwhile, larger threat is brought to safety of test personnel, meanwhile, the existing dynamic and static test device can only detect foundation piles of specific specifications at the end of the heart, further, the actual use universality of equipment is poor, and the actual use effect of the existing dynamic and static test device is poor.

Disclosure of Invention

The invention aims at: the utility model provides a can install convenient use, the impact force that can prevent effectively that test process from producing simultaneously causes harmful effects to equipment, ensures the accuracy nature of actual testing result, can ensure test constructor's security simultaneously, and can conveniently carry out the regulation of self structure according to the actual use condition, make equipment can satisfy the use of different specification foundation pile bodies, effectively improve equipment in-service use widely a quiet dynamic method test device of steel-pipe pile on water.

The technical scheme adopted by the invention is as follows: a static and dynamic method test device for a water steel pipe pile comprises: the moving mechanism comprises a floating frame, a plurality of inflatable floating blocks are fixedly connected in the floating frame at equal intervals, and guide rods are inserted into two sides of the floating frame in a sliding manner relative to the inner surface wall;

the support mechanism comprises a carrier plate and limiting parts, a plurality of mounting grooves are formed in the top of the carrier plate at equal intervals along the edge direction, limiting frames are fixedly connected to one sides of the top of the carrier plate, which correspond to the mounting grooves, each limiting frame is rotatably connected with a connecting shaft, the bottom end of each connecting shaft extends to the lower part of the corresponding limiting frame, a first conical gear and a connecting gear are sleeved on the outer surface of each connecting shaft, and the limiting parts are arranged on the carrier plate; and

the functional mechanism is arranged on the supporting mechanism and comprises a bottom frame, a supporting ring is inserted in the bottom frame, a sticking block is inserted in the bottom surface of the bottom frame in a sliding mode, a pressure sensor body is arranged on the bottom surface of the sticking block, a combustion frame is inserted in the sticking block, a pressure reducing cover is arranged on the top of the combustion frame in a communicating mode, a supporting frame is arranged on the outer surface of the combustion frame in a sliding mode in a sleeving mode, the inside of the supporting frame is communicated with the inside of the combustion frame in a sliding mode, and a silencing frame is arranged on the outer surface of the supporting frame in a sleeving mode.

One of them the cover of connecting axle surface is equipped with first worm wheel, support plate top fixedly connected with mounting bracket, mounting bracket one side surface rotates and is connected with first worm, first worm and first worm wheel meshing.

The top of the carrier plate is rotationally connected with a linkage gear ring, and the linkage gear ring is meshed with a plurality of linkage gears.

The support frame comprises a support frame, a plurality of support frames, a support ring, a bottom frame sleeve and two guide rods, wherein the support frames are fixedly connected to the top of the support frame, one of the support frames is fixedly connected with a reflecting plate on one side of the outer surface of the support frame, the support ring is communicated with the top of the support frame, the bottom frame sleeve is arranged on the outer surface of the support ring, and the top of the support frame is fixedly connected with the top of the two guide rods.

The limiting component comprises a plurality of movable threaded rods and a plurality of groups of sliding plates, each movable threaded rod is respectively connected between the opposite inner surface walls on two sides of the corresponding mounting groove in a rotating mode, the sliding plates are fixedly connected to the bottom of the carrier plate, two sliding plates are arranged in each group, and two sliding plates are located on two sides of the corresponding mounting groove.

Wherein, every two slide of group all slides and inlays and be equipped with the removal frame, every remove the inside bottom surface of frame and all fixedly connected with accommodate motor, every accommodate motor's output all overlaps and is equipped with third bevel gear, every remove the inside bottom surface of frame and all rotate and be connected with the second worm, every the equal fixedly connected with fourth bevel gear of second worm one end, every fourth bevel gear and corresponding third bevel gear all mesh.

Wherein the inner surface wall of one side of each movable frame is rotationally connected with an adjusting threaded rod, the outer surface of each adjusting threaded rod is sleeved with a second worm wheel, each second worm wheel is meshed with a corresponding second worm, every equal threaded connection of regulation threaded rod surface is supported the piece, every the equal fixedly connected with rack of removal frame one side surface, every all rotate between the relative interior table wall in rack both sides and be connected with two spacing wheels.

Wherein, every the equal cover of removal threaded rod surface is equipped with second bevel gear, every second bevel gear all meshes with corresponding first bevel gear, every the equal threaded connection of removal threaded rod surface has the movable plate, every the movable plate bottom all runs through corresponding movable frame top.

Wherein, amortization frame surface slip cap is equipped with a plurality of balancing weights.

Wherein, the storage frame is inserted in the abutting ring.

In summary, due to the adoption of the technical scheme, the beneficial effects of the invention are as follows:

in the invention, when in use, under the support of the inflatable floating block, the floating frame can be matched with the guide rod to effectively bear the supporting mechanism and the functional mechanism to move on the water surface, when the block is moved to the top of the appointed foundation pile body, the air in the inflatable floating block is further slowly released by control, the carrier plate can slowly descend under the support of the floating frame, the top end of the block and the foundation pile body are gradually close to and attached to each other, when the block is completely attached to the top of the foundation pile body, the first worm is adjusted by rotating, the first worm can be matched with the first worm wheel to effectively drive the linkage shaft to rotate, the linkage shaft can drive the corresponding linkage gears to rotate, and simultaneously under the action of the linkage gear ring, the linkage gears can synchronously rotate, the linkage shafts can be matched with the second bevel gears to effectively drive the corresponding moving threaded rod to rotate, the rotating moving threaded rod can effectively move and adjust the using position of the moving plate, the moving plate can effectively move and adjust the using position of the moving frame, the moving frame can effectively move the position of the limiting wheel through the placing frame, the limiting wheel can fully fit the outer surface of the foundation pile body, the adjusting motor is started through control, the adjusting motor can effectively drive the second worm to rotate through the third bevel gear and the fourth bevel gear, the second worm can effectively drive the adjusting threaded rod to rotate through matching with the second worm wheel, the rotating adjusting threaded rod can effectively move and adjust the using position of the abutting block, the abutting block can effectively perform the position fixing limitation of the corresponding limiting wheel, the supporting mechanism can be stably placed on the foundation pile body, the utility model discloses a foundation pile is installed to the foundation pile body, the foundation pile is installed to the foundation pile body, and then makes equipment can satisfy the use of different specifications foundation pile body, effectively improves equipment in-service use's universality, and then pours into right amount of gravel into between storing frame and the foundation frame inside and packs, and the rethread control ignites the inside fuel of burning frame, and then makes the inside high pressure that produces of burning frame effectively strike the frame, and can effectively ensure under the extrusion restriction of gravel and balancing weight to support the position removal of frame and amortization frame, and then ensures to support frame and amortization frame and can carry out the position removal along foundation pile body axle center direction, and then can effectively prevent equipment use process from taking place the slope to damage, and then effectively improves the safety of construction inspector, makes equipment can carry out the realization of due function with high efficiency.

Drawings

FIG. 1 is a front perspective view of the present invention in use;

FIG. 2 is a bottom perspective view of the present invention;

FIG. 3 is a front cross-sectional perspective view of the present invention;

FIG. 4 is an expanded front perspective view of the movement mechanism of the present invention;

FIG. 5 is an expanded perspective view in elevation and in cross-section of the support mechanism of the present invention;

FIG. 6 is an enlarged view of portion A of FIG. 5 in accordance with the present invention;

FIG. 7 is an expanded perspective view in elevation and cross-section of the functional mechanism of the present invention;

fig. 8 is an enlarged view of portion B of fig. 7 in accordance with the present invention.

The marks in the figure: 1. a moving mechanism; 101. a floating frame; 102. a guide rod; 103. inflating the floating blocks; 2. a support mechanism; 201. a carrier plate; 202. a support frame; 203. a linkage gear ring; 204. a linkage gear; 205. a first worm wheel; 206. a first worm; 207. moving the threaded rod; 208. a slide plate; 209. a moving plate; 210. a moving rack; 211. adjusting a motor; 212. a second worm; 213. adjusting a threaded rod; 214. abutting blocks; 215. a support ring; 3. a functional mechanism; 301. a bottom frame; 302. abutting the ring; 303. a storage frame; 304. sticking blocks; 305. a pressure sensor body; 306. a combustion frame; 307. a pressure reducing cover; 308. a support frame; 309. a sound attenuation frame; 310. balancing weight; 4. and a foundation pile body.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

Example 1

Referring to fig. 1-8: a static and dynamic method test device for a water steel pipe pile comprises: the moving mechanism 1, the supporting mechanism 2 and the functional mechanism 3, the moving mechanism 1 comprises a floating frame 101, the setting up of the floating frame 101 provides the installation foundation for the other functional components of the equipment, a plurality of inflatable floating blocks 103 are fixedly connected inside the floating frame 101 at equal intervals, the inflatable floating blocks 103 are set up to enable the floating frame 101 to move in position on the water surface, guide rods 102 are slidably inserted on two sides of the floating frame 101 relative to the inner surface wall, the setting up of the guide rods 102 can effectively limit the position movement of the floating frame 101, meanwhile, the floating frame 101 is not easy to be influenced by a carrier 201, the supporting mechanism 2 comprises a carrier 201 and a limiting component, the setting up of the carrier 201 is convenient for the installation of the other functional components of the equipment, a plurality of installation grooves are formed at the top of the carrier 201 at equal intervals along the edge direction, the setting up of the installation grooves is convenient for the installation setting up of moving threaded rods 207, the top of the carrier 201 is fixedly connected with the limiting frame on one side of the corresponding installation groove, the setting of the limiting frames is convenient for the installation setting of the linkage shafts, the top of each limiting frame is rotationally connected with the linkage shaft, the setting of the linkage shafts is convenient for the installation setting of the linkage gears 204, the bottom end of each linkage shaft extends to the lower part of the corresponding limiting frame, the outer surface of each linkage shaft is sleeved with a first conical gear and the linkage gears 204, the setting of the linkage gears 204 is matched with the linkage gear ring 203 to ensure that the plurality of linkage shafts can synchronously rotate, the limiting components are arranged on the carrier plate 201, the functional mechanism 3 is arranged on the supporting mechanism 2, the functional mechanism 3 comprises a bottom frame 301, the setting of the bottom frame 301 is convenient for the installation setting of other functional components of equipment, a supporting ring 302 is inserted in the bottom frame 301, the setting of the supporting ring 302 is convenient for the installation setting of the storage frame 303, and meanwhile, the temporary storage of gravel is matched with the storage frame 303, the inside bottom surface slip of underframe 301 inserts and is equipped with subsides piece 304, the setting up of subsides piece 304 is convenient to carry out the installation setting of other functional parts of equipment, the inside bottom surface of subsides piece 304 is provided with pressure sensor body 305, the setting up of pressure sensor body 305 can effectively carry out the detection of the bearing capacity of foundation pile body 4, the inside combustion frame 306 that has been inserted of subsides piece 304, the setting up of combustion frame 306 cooperates the decompression lid 307 can form effectual combustion space, combustion frame 306 top intercommunication is provided with the decompression lid 307, combustion frame 306 and decompression lid 307 surface slip cap are equipped with support frame 308, the setting up of support frame 308 conveniently carries out the installation setting of other functional parts of equipment, support frame 308 inside and the inside intercommunication of combustion frame 306, support frame 308 surface cover is equipped with amortization frame 309, the setting up of amortization frame 309 conveniently carries out the installation setting of balancing weight 310, simultaneously can effectively reduce the noise that produces in the actual test.

Referring to fig. 3-8: one of them is equipped with first worm wheel 205 in the cover of the axis of linkage surface, the establishment of first worm wheel 205 cooperates with first worm 206 and then facilitates the rotation regulation of corresponding axis of linkage, carrier 201 top fixedly connected with mounting bracket, the establishment of mounting bracket facilitates the installation setting of first worm 206, one side of the outer surface of mounting bracket rotates and is connected with first worm 206, first worm 206 and first worm wheel 205 mesh, carrier 201 top rotates and is connected with interlock ring gear 203, interlock ring gear 203 and a plurality of interlock gears 204 are all meshed, carrier 201 top fixedly connected with a plurality of support frames 202, the establishment of support frames 202 provides the steady support of underframe 301, one side of outer surface fixedly connected with reflecting plate of support frames 202, the establishment of reflecting plate cooperates with the current laser displacement sensor and can effectively carry out the slope condition's of equipment monitoring, carrier 201 top intercommunication is provided with holding ring 215, the support ring 215 is convenient for installing the bottom frame 301, the bottom frame 301 is sleeved on the outer surface of the support ring 215, the top of the carrier plate 201 is fixedly connected with the top ends of the two guide rods 102, the limiting component comprises a moving threaded rod 207 and a plurality of groups of sliding plates 208, the use position of the moving plate 209 can be effectively moved by the setting of the moving threaded rod 207, the setting of the sliding plates 208 is convenient for the installation of the remembering moving rack 210, the moving threaded rods 207 are provided with a plurality of moving threaded rods 207, each moving threaded rod 207 is respectively connected between the opposite inner surface walls on the two sides of the corresponding installation groove, the groups of sliding plates 208 are fixedly connected to the bottom of the carrier plate 201, each group of sliding plates 208 is provided with two sliding plates 208, each group of two sliding plates 208 are positioned on the two sides of the corresponding installation groove, the corresponding outer surface of each group of two sliding plates 208 is provided with the moving rack 210 in a sliding embedding manner, the setting of the moving rack 210 is convenient for installing other functional components of equipment, an adjusting motor 211 is fixedly connected to the inner bottom surface of each movable frame 210, the adjusting motor 211 is set up to provide power required by the rotation of an adjusting threaded rod 213, a third conical gear is sleeved at the output end of each adjusting motor 211, the setting up of the third conical gear is matched with the fourth conical gear adjusting motor 211 to drive a second worm 212 to rotate, the inner bottom surface of each movable frame 210 is rotatably connected with the second worm 212, the setting up of the second worm 212 is matched with a second worm wheel to drive the adjusting threaded rod 213 to rotate, one end of each second worm 212 is fixedly connected with a fourth conical gear, each fourth conical gear is meshed with the corresponding third conical gear, an adjusting threaded rod 213 is rotatably connected to the inner surface wall of one side of each movable frame 210, the setting up of the adjusting threaded rod 213 can effectively move the using position of an adjusting abutment 214, the outer surface of each adjusting threaded rod 213 is sleeved with a second worm wheel, each second worm wheel is meshed with a corresponding second worm 212, the outer surface of each adjusting threaded rod 213 is in threaded connection with a supporting block 214, the supporting block 214 is arranged to effectively support the use position of the limiting wheels, further, the supporting mechanism 2 can be stably arranged on the foundation pile body 4, the equipment can efficiently realize functions, the outer surface of one side of each moving frame 210 is fixedly connected with a placing frame, the placing frame is conveniently arranged to install the limiting wheels, two limiting wheels are rotatably connected between the opposite inner surfaces of two sides of each placing frame, the limiting wheels can effectively limit the position of the carrier 201 to move, the outer surface of each moving threaded rod 207 is sleeved with a second conical gear, each second conical gear is meshed with a corresponding first conical gear, the outer surface of each moving threaded rod 207 is in threaded connection with a moving plate 209, the movable plates 209 can effectively move and adjust the use positions of the movable frames 210, the bottom ends of the movable plates 209 penetrate through the tops of the corresponding movable frames 210, a plurality of balancing weights 310 are sleeved on the outer surfaces of the silencing frames 309 in a sliding manner, and a storage frame 303 is inserted into the abutting rings 302.

When in use, under the support of the air-filled floating block 103, the floating frame 101 can be matched with the guide rod 102 to effectively bear the supporting mechanism 2 and the functional mechanism 3 to move on the water surface, when the block 304 moves to the top of the appointed foundation pile body 4, the air in the air-filled floating block 103 is slowly released by control, the carrier 201 can slowly descend under the support of the floating frame 101, the top ends of the block 304 and the foundation pile body 4 are gradually close to each other, when the block 304 is completely attached to the top of the foundation pile body 4, the first worm 206 is adjusted by rotation, the first worm 206 can be matched with the first worm wheel 205 to effectively drive the linkage shaft to rotate, the linkage shaft can drive the corresponding linkage gear 204 to rotate, and simultaneously under the action of the linkage gear ring 203, the plurality of linkage gears 204 can synchronously rotate, the plurality of connecting shafts can effectively drive the corresponding movable threaded rod 207 to rotate through the first conical gear and the second conical gear, the movable threaded rod 207 can effectively move to adjust the using position of the movable plate 209, the movable plate 209 can effectively move to adjust the using position of the movable frame 210, the movable frame 210 can effectively move to the position of the limiting wheel through the placing frame, the limiting wheel can fully fit with the outer surface of the foundation pile body 4, the adjusting motor 211 is further controlled to start, the adjusting motor 211 can effectively drive the second worm 212 to rotate through the third conical gear and the fourth conical gear, the second worm 212 can effectively drive the adjusting threaded rod 213 to rotate through the second worm gear, the rotating adjusting threaded rod 213 can effectively move to adjust the using position of the abutting block 214, the supporting block 214 can effectively conduct position fixing limiting of the corresponding limiting wheel, the supporting mechanism 2 can be stably placed on the foundation pile body 4, the equipment can meet the use requirements of foundation pile bodies 4 of different specifications, the practical use universality of the equipment is effectively improved, a proper amount of gravel is injected between the storage frame 303 and the inside of the bottom frame 301 to fill, the fuel inside the combustion frame 306 is ignited through control, the high pressure generated inside the combustion frame 306 can effectively impact the supporting frame 308, the position movement of the supporting frame 308 and the silencing frame 309 can be effectively ensured under the extrusion limiting of the gravel and the balancing weight 310, the supporting frame 308 and the silencing frame 309 can be further ensured to be moved along the axis direction of the foundation pile body 4, the inclined damage of the equipment in the use process can be effectively prevented, the safety of construction detection personnel is effectively improved, and the equipment can be effectively enabled to conduct functional realization.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the invention.

Claims (10)

1. The utility model provides a water steel-pipe pile static and dynamic method test device which characterized in that includes:

the movable mechanism (1), the movable mechanism (1) comprises a floating frame (101), a plurality of inflatable floating blocks (103) are fixedly connected in the floating frame (101) at equal intervals, and guide rods (102) are inserted into two sides of the floating frame (101) in a sliding manner relative to the inner surface wall;

the support mechanism (2), the support mechanism (2) comprises a carrier plate (201) and limiting parts, a plurality of mounting grooves are formed in the top of the carrier plate (201) at equal intervals along the edge direction, limiting frames are fixedly connected to the sides of the carrier plate (201) on the sides corresponding to the mounting grooves, each limiting frame is rotationally connected with a connecting shaft, the bottom ends of the connecting shafts extend to the lower parts of the corresponding limiting frames, a first conical gear and a connecting gear (204) are sleeved on the outer surface of each connecting shaft, and the limiting parts are arranged on the carrier plate (201); and

functional mechanism (3), functional mechanism (3) set up on supporting mechanism (2), functional mechanism (3) include underframe (301), underframe (301) inside is inserted and is equipped with to support circle (302), underframe (301) inside bottom surface slip is inserted and is equipped with subsides piece (304), subsides piece (304) inside bottom surface is provided with pressure sensor body (305), subsides piece (304) inside is inserted and is equipped with burning frame (306), burning frame (306) top intercommunication is provided with decompression lid (307), burning frame (306) and decompression lid (307) surface slip cap are equipped with to support frame (308), support frame (308) inside and burning frame (306) inside intercommunication, support frame (308) surface cover is equipped with amortization frame (309).

2. The static and dynamic test device for the water steel pipe pile according to claim 1, wherein: one of them the linkage shaft surface cover is equipped with first worm wheel (205), carrier plate (201) top fixedly connected with mounting bracket, mounting bracket one side surface rotates and is connected with first worm (206), first worm (206) and first worm wheel (205) meshing.

3. The static and dynamic test device for the water steel pipe pile according to claim 2, wherein: the top of the carrier plate (201) is rotationally connected with a linkage gear ring (203), and the linkage gear ring (203) is meshed with a plurality of linkage gears (204).

4. A static and dynamic test device for a water steel pipe pile as claimed in claim 3, wherein: the support comprises a support plate (201), a plurality of support frames (202) are fixedly connected to the top of the support plate (201), a reflecting plate is fixedly connected to one side of the support frames (202), a support ring (215) is arranged on the top of the support plate (201) in a communicating mode, a bottom frame (301) is sleeved on the outer surface of the support ring (215), and the top of the support plate (201) is fixedly connected with the top ends of the two guide rods (102).

5. The static and dynamic test device for the water steel pipe pile according to claim 4, wherein: limiting part is including removing threaded rod (207) and multiunit slide (208), it is provided with a plurality ofly altogether to remove threaded rod (207), every remove threaded rod (207) rotate respectively and connect between the relative interior table wall in corresponding mounting groove both sides, multiunit slide (208) all fixed connection in carrier plate (201) bottom, every group slide (208) are provided with two altogether, every group is two slide (208) all are located corresponding mounting groove both sides.

6. The static and dynamic test device for the water steel pipe pile according to claim 5, wherein: every two slide (208) are relative surface all slides and inlay and are equipped with and remove frame (210), every remove the equal fixedly connected with accommodate motor (211) of the inside bottom surface of frame (210), every accommodate motor (211) the output all overlaps and is equipped with third bevel gear, every remove the inside bottom surface of frame (210) all rotate and be connected with second worm (212), every second worm (212) one end all fixedly connected with fourth bevel gear, every fourth bevel gear and corresponding third bevel gear all mesh.

7. The static and dynamic test device for the water steel pipe pile according to claim 6, wherein: every table wall all rotates in movable frame (210) one side is connected with adjusting threaded rod (213), every adjusting threaded rod (213) surface all overlaps and is equipped with the second worm wheel, every second worm wheel and corresponding second worm (212) all mesh, every adjusting threaded rod (213) surface all threaded connection has support piece (214), every movable frame (210) one side surface all fixedly connected with rack, every all rotate between the relative interior table wall in rack both sides and be connected with two spacing wheels.

8. The static and dynamic test device for the water steel pipe pile according to claim 7, wherein: every the equal cover of removal threaded rod (207) surface is equipped with second bevel gear, every second bevel gear and corresponding first bevel gear all mesh, every the equal threaded connection of removal threaded rod (207) surface has movable plate (209), every movable plate (209) bottom all runs through corresponding movable frame (210) top.

9. The static and dynamic test device for the water steel pipe pile according to claim 8, wherein: the outer surface of the silencing frame (309) is sleeved with a plurality of balancing weights (310) in a sliding mode.

10. The static and dynamic test device for the water steel pipe pile according to claim 9, wherein: a storage frame (303) is inserted into the abutting ring (302).