CN112211232A

CN112211232A - Pile foundation detection equipment

Info

Publication number: CN112211232A
Application number: CN202010924812.0A
Authority: CN
Inventors: 陈建荣; 杨斌; 章卫彬
Original assignee: Ningbo Construction Test Co ltd
Current assignee: Ningbo Construction Test Co ltd
Priority date: 2020-09-05
Filing date: 2020-09-05
Publication date: 2021-01-12
Anticipated expiration: 2040-09-05
Also published as: CN112211232B

Abstract

The utility model relates to a pile foundation check out test set relates to the experimental field of foundation structure, has solved when the operation, and the operator need measure repeatedly and carry out the test point and draw, just can confirm the concrete position of test point, and complex operation leads to the lower problem of efficiency that the pile foundation detected, and it includes nonmetal ultrasonic detector, including butt chassis on the pile foundation terminal surface, locate on the chassis with the centre gripping subassembly of centre gripping pile foundation lateral wall and two lift subassemblies that evenly set up along the circumference on chassis, two lift subassembly respectively with the transmitting transducer and the receiving transducer one-to-one of nonmetal ultrasonic detector, transmitting transducer is relative setting with receiving transducer. This application has the effect that improves the efficiency that the pile foundation detected.

Description

Pile foundation detection equipment

Technical Field

The application relates to the field of foundation structure tests, in particular to pile foundation detection equipment.

Background

According to the technical specification for detecting the building pile foundation (JGJ 106-2014), the main methods for detecting the pile foundation comprise a static load test, a core drilling method, a low strain method, a high strain method, a sound wave transmission method and the like. The sound wave transmission method is characterized in that a nonmetal ultrasonic detector is used for detecting concrete strength, detecting and positioning internal defects of concrete, detecting concrete crack depth (adopting an optimized cross-crack detection mode), automatically detecting the width of a concrete crack, automatically reading and photographing by an ultrasonic transmission method, and judging the integrity of a pile foundation (having a one-sending and two-receiving function).

In the process of detecting the pile foundation by the nonmetal ultrasonic detector, the detection head of the nonmetal ultrasonic detector needs to be aligned on two sides of the pile foundation, so that the detection of the pile foundation can be realized, the alignment degree is higher, and the detection effect is better.

In view of the above related technologies, the inventor thinks that during operation, an operator needs to repeatedly measure and draw test points to confirm specific positions of the test points, which results in complex operation, and therefore, the efficiency of pile foundation detection is low, and there is still room for improvement.

Disclosure of Invention

In order to improve the efficiency that the pile foundation detected, this application provides a pile foundation check out test set.

The application provides a pile foundation check out test set adopts following technical scheme:

the utility model provides a pile foundation check out test set, includes nonmetal ultrasonic detector, includes the butt on the chassis of pile foundation terminal surface, locate on the chassis with the centre gripping subassembly of centre gripping pile foundation lateral wall and two along the even lifting unit that sets up of circumference on chassis, two lifting unit respectively with nonmetal ultrasonic detector's transmitting transducer and receiving transducer one-to-one, transmitting transducer is relative setting with receiving transducer.

Through adopting above-mentioned technical scheme, after centre gripping subassembly centre gripping is on the pile foundation, transmitting transducer is relative setting with receiving transducer, transmitting transducer and receiving transducer's line partition pile foundation can test the pile foundation for need not to measure repeatedly when the pile foundation is measured and carry out the test point and draw, improved the efficiency that the pile foundation detected.

Optionally, the centre gripping subassembly includes that at least two slide connect in the chassis be close to the centre gripping piece of pile foundation one side, be fixed in the centre gripping piece and be close to chassis one side and run through the sliding block on chassis, one end and sliding block keep away from the first connecting rod of one side articulated of centre gripping piece, rotate the piece with the other end articulated of first connecting rod and be fixed in order about on the chassis and rotate a pivoted driving motor, at least two the centre gripping piece evenly sets up along the circumference on chassis, the other end of first connecting rod articulates and keeps away from centre of a circle department in rotating, be equipped with on the chassis and supply the sliding block to wear to establish the groove that.

Through adopting above-mentioned technical scheme, driving motor work orders about a rotation, rotates the piece and drives all sliding blocks through first connecting rod and slide and be close to a rotation piece, and then orders about all holding piece centre gripping on the pile foundation, has realized that automatic positioning and centre gripping on chassis and the pile foundation are fixed.

Optionally, at least one of the first connecting rods is bent to form an avoiding groove.

By adopting the technical scheme, the arrangement of the avoiding groove increases the structural strength of the first connecting rod, so that the first connecting rod is not easy to deform and break when in use, and the service life of the first connecting rod is prolonged; meanwhile, the first connecting rod is not easy to interfere with the transmission gear, and the sliding stroke of the sliding block is increased.

Optionally, one side of the sliding block, which is far away from the clamping piece, is fixed with at least one abutting block, and at least one abutting block abuts against the upper side of the chassis and is connected with the chassis in a sliding manner.

Through adopting above-mentioned technical scheme, the setting of butt piece carries on spacingly to the sliding block, is difficult for slipping away from the groove of sliding when making the sliding block slide, and then makes the clamping piece be difficult for separating with the chassis, has improved the stability when clamping piece slides.

Optionally, the lifting assembly is connected to the two ends of the supporting plate and mutually parallel to the supporting plate in a one-to-one correspondence manner respectively including the supporting plate which is arranged on the outer side wall of the chassis and is vertically arranged, the two ends of the lifting assembly are respectively connected to the lifting screw rod in a rotating manner, the lifting screw rod is sleeved on the lifting screw rod and is in threaded connection with the lifting screw rod, and the lifting motor is fixed at one end of the supporting plate to drive the lifting screw rod to rotate, and the transmitting transducer and the receiving transducer of the non-metal ultrasonic detector.

Through adopting above-mentioned technical scheme, elevator motor work orders about the lift lead screw and rotates, and the lift lead screw orders about the elevator and drives transmitting transducer and receiving transducer and can go up and down to the not co-altitude position of pile foundation is examined, has improved the detection range and the detection precision of pile foundation.

Optionally, the lifting block further comprises a horizontal adjusting assembly arranged on the lifting block and used for driving the transmitting transducer and the receiving transducer to be close to or far away from the pile foundation.

Through adopting above-mentioned technical scheme for transmitting transducer and receiving transducer can adjust through the horizontal adjustment subassembly in the position of horizontal direction, with the distance of convenient size regulation transmitting transducer and receiving transducer according to the pile foundation, detect the pile foundation, have improved the detection precision of pile foundation.

Optionally, the horizontal adjustment assembly includes at least one first sliding rod and at least two adjusting nuts, wherein one end of the first sliding rod is fixedly connected with the transmitting transducer or the receiving transducer and penetrates through the lifting block to be connected with the lifting block in a sliding manner, the adjusting nuts are connected to the first sliding rod in a threaded manner, and the at least two adjusting nuts are respectively abutted against two sides of the lifting block.

Through adopting above-mentioned technical scheme, can adjust the distance of transmitting transducer and receiving transducer and pile foundation through rotating adjusting nut to the convenience detects the pile foundation, has improved the detection precision of pile foundation.

Optionally, the horizontal adjustment assembly includes at least one second sliding rod, one end of which is fixedly connected with the transmitting transducer or the receiving transducer and penetrates through the lifting block to be connected with the lifting block in a sliding manner, a second connecting rod, one end of which is hinged with the transmitting transducer or the receiving transducer, a third connecting rod, one end of which is hinged with the other end of the second connecting rod, and a power motor, one end of which is fixed on the lifting block and drives the third connecting rod to rotate, wherein an output shaft of the power motor is fixed with the other end of the third connecting rod.

Through adopting above-mentioned technical scheme, power motor work orders about the third connecting rod and rotates, and the third connecting rod orders about transmitting transducer and receiving transducer through the articulated of with the second connecting rod and is close to or keeps away from the pile foundation along the horizontal direction to conveniently detect the pile foundation, improved the detection precision of pile foundation.

Optionally, still order about the lifting unit around the circumferential direction's on the chassis runner assembly on locating the chassis, the runner assembly is located the chassis and is rotated the swivel becket of being connected with the chassis including the cover, an organic whole locate on the inside wall of swivel becket and along the even meshing tooth that sets up of chassis circumference, rotate connect in the chassis upside and with the driving gear of meshing tooth intermeshing and be fixed in the chassis upside and order about driving gear pivoted rotation motor.

Through adopting above-mentioned technical scheme, rotate the motor and order about the driving gear and rotate, the driving gear orders about through the meshing with the meshing tooth and rotates around the chassis and rotate to order about transmitting transducer and receiving transducer around the circumferential direction of pile foundation, in order to carry out the multi-angle measurement to the pile foundation, improved the detection precision of pile foundation.

In summary, the present application includes at least one of the following beneficial technical effects:

1. after the clamping assembly is clamped on the pile foundation, the connection line of the transmitting transducer and the receiving transducer is equally divided into the pile foundation, so that the pile foundation can be tested, the test point drawing is performed without repeated measurement during pile foundation measurement, and the efficiency of pile foundation detection is improved;

2. the positions of the transmitting transducer and the receiving transducer in the horizontal direction can be adjusted through the horizontal adjusting assembly, so that the pile foundation can be conveniently detected, and the detection precision of the pile foundation is improved;

3. the rotating assembly drives the transmitting transducer and the receiving transducer to rotate around the pile foundation in the circumferential direction, so that the multi-angle measurement is performed on the pile foundation, and the detection precision of the pile foundation is improved.

Drawings

Fig. 1 is a schematic structural diagram of pile foundation detection equipment in embodiment 1 of the present application.

Fig. 2 is a schematic structural diagram of a chassis and a clamping assembly according to embodiment 1 of the present application.

Fig. 3 is a schematic structural diagram of a chassis and a rotating assembly according to embodiment 1 of the present application.

Fig. 4 is a schematic structural diagram of the lifting assembly and the horizontal adjustment assembly in embodiment 1 of the present application.

Fig. 5 is a schematic structural diagram of the lifting assembly and the horizontal adjustment assembly in embodiment 2 of the present application.

Description of reference numerals: 11. a transmitting transducer; 12. a receiving transducer; 13. a substrate; 2. a chassis; 21. a sliding groove; 22. a first fixing plate; 23. a second fixing plate; 24. lifting lugs; 3. a clamping assembly; 31. a clamping piece; 32. a sliding block; 321. a butting block; 33. a first link; 331. an avoidance groove; 34. a rotating member; 35. a drive motor; 36. a transmission gear; 4. a lifting assembly; 41. a support plate; 411. a connecting plate; 42. a lifting screw rod; 43. a lifting block; 431. an overhanging block; 432. a third fixing plate; 44. a lifting motor; 5. a level adjustment assembly; 51. a first slide bar; 52. adjusting the nut; 53. a second slide bar; 54. a second link; 55. a third link; 56. a power motor; 6. a rotating assembly; 61. a rotating ring; 62. meshing teeth; 63. a driving gear; 64. the motor is rotated.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses pile foundation check out test set.

Example 1

Referring to fig. 1, pile foundation check out test set includes non-metallic ultrasonic detector, including chassis 2, centre gripping subassembly 3, runner assembly 6 and lifting unit 4, centre gripping subassembly 3 locates the downside on chassis 2, chassis 2 is fixed in on the pile foundation through 3 centre gripping of centre gripping subassembly, the quantity of lifting unit 4 is two, two lifting unit 4 locate on chassis 2's the lateral wall and circumference evenly set up, non-metallic ultrasonic detector's transmitting transducer 11 and receiving transducer 12 go up and down under two lifting unit 4's the driving about respectively, in order to carry out the multiple height measurement to the pile foundation, runner assembly 6 locates and drives about two lifting unit 4 on chassis 2 and rotate around chassis 2, in order to carry out the multi-angle measurement to the pile foundation.

Referring to fig. 1 and 2, the clamping assembly 3 includes a clamping piece 31, a sliding block 32, a first connecting rod 33, a rotating member 34 and a driving motor 35; the clamping pieces 31 are arranged on the lower side of the chassis 2, the clamping pieces 31 can be arranged in a plate shape or an arc shape, the number of the clamping pieces 31 is at least two, the clamping pieces 31 are uniformly arranged along the circumferential direction of the chassis 2, the shape and the number of the clamping pieces 31 can be arranged according to the shape of a pile foundation, when the pile foundation is cylindrical, the clamping pieces 31 are arranged in an arc shape, and the number of the clamping pieces 31 is preferably three; when the pile foundation is in a square column shape, the clamping pieces 31 are arranged in a plate shape, the number of the clamping pieces 31 is preferably four, and the description is given by taking the pile foundation as a column shape; the sliding blocks 32 correspond to the clamping pieces 31 one by one, the sliding blocks 32 are fixed on the upper sides of the clamping pieces 31, the sliding blocks 32 are arranged in a rectangular column shape, the chassis 2 is provided with sliding grooves 21 one by one corresponding to the sliding blocks 32, the sliding grooves 21 penetrate through the chassis 2 up and down, the extension lines of the sliding grooves 21 pass through the circle center of the chassis 2, the sliding blocks 32 extend out of the chassis 2 upwards through the sliding grooves 21, and the sliding blocks 32 are connected in the sliding grooves 21 in a sliding mode; one end of the first connecting rod 33 is hinged to the upper side of the sliding block 32, the other end of the first connecting rod 33 is hinged to the position, away from the center of the circle, of the rotating part 34, the rotating part 34 is rotatably connected to the upper side of the chassis 2 and is concentrically arranged with the chassis 2, the rotating part 34 can be a disc or a gear, the first fixing plate 22 is fixed on the upper side of the chassis 2, and the driving motor 35 is fixed on the first fixing plate 22; when the rotating part 34 is a disc, the driving motor 35 directly drives the rotating part 34 to rotate; when the rotating member 34 is a gear, a transmission gear 36 is fixedly connected to an output shaft of the driving motor 35, and the transmission gear 36 is engaged with the rotating member 34 to drive the rotating member 34 to rotate.

The first link 33 is bent to form an escape groove 331 to increase the structural strength of the first link 33, and the first link 33 is not easily interfered with the transmission gear 36 when the rotating member 34 rotates.

Two lugs 24 are further welded on the upper side of the chassis 2, and the two lugs 24 are evenly arranged along the circumferential direction of the chassis 2 so as to be convenient for hoisting the pile foundation detection equipment and placing the pile foundation on the pile foundation.

Referring to fig. 1 and 3, the rotating assembly 6 includes a rotating ring 61, a meshing gear 62, a driving gear 63 and a rotating motor 64; the rotating ring 61 is sleeved on the chassis 2 and is rotationally connected with the chassis 2, the inner side wall of the rotating ring 61 is abutted and slid with the outer side wall of the chassis 2, the meshing teeth 62 are integrally arranged on the inner side wall of the rotating ring 61 and are uniformly arranged along the circumferential direction of the rotating ring 61, the second fixing plate 23 is fixed on the upper side of the chassis 2, the rotating motor 64 is fixed on the second fixing plate 23, the driving gear 63 is fixedly connected on the output shaft of the rotating motor 64, and the driving gear 63 is meshed with the meshing teeth 62; the rotation motor 64 is operated to rotate the driving gear 63, and the driving gear 63 rotates the rotation ring 61 by engaging with the engaging teeth 62.

Referring to fig. 3 and 4, the lifting assembly 4 includes a support plate 41, a lifting screw 42, a lifting block 43 and a lifting motor 44; the backup pad 41 is vertical setting, the upper and lower both ends of backup pad 41 all are fixed with the connecting plate 411 that sets up towards the pile foundation, the connecting plate 411 of backup pad 41 upper end is fixed in on the lateral wall of swivel 61, lift lead screw 42's both ends are passed through the bearing and are rotated respectively and connect on two connecting plates 411, the one side that backup pad 41 is close to the pile foundation is located to elevator 43, elevator 43 cover locate on lift lead screw 42 and with lift lead screw 42 threaded connection, elevator 43 and backup pad 41 butt, non-metallic ultrasonic detector's transmitting transducer 11 is fixed in respectively on two elevating module 4's elevator 43 with receiving transducer 12.

The horizontal adjusting assembly 5 is arranged on the lifting block 43, the horizontal adjusting assembly 5 is used for driving the transmitting transducer 11 and the receiving transducer 12 to be close to or far away from the pile foundation, and the horizontal adjusting assembly 5 comprises a second sliding rod 53, a second connecting rod 54, a third connecting rod 55 and a power motor 56; a base plate 13 is fixed on one side of each of the transmitting transducer 11 and the receiving transducer 12 close to the lifting block 43, at least one second sliding rod 53 is fixed on one side of the base plate 13 close to the lifting block 43, the number of the second sliding rods 53 is preferably two, an extending block 431 is fixed on each of two sides of the lifting block 43, the two second sliding rods 53 are respectively arranged on the two extending blocks 431 in a penetrating manner, and the second sliding rods 53 are connected with the extending blocks 431 in a sliding manner; one end of the second connecting rod 54 is hinged with the base plate 13, the other end of the second connecting rod 54 is hinged with one end of the third connecting rod 55, a third fixing plate 432 is fixed on one side of the lifting block 43, the power motor 56 is fixed on the third fixing plate 432, and the output shaft of the power motor 56 is fixedly connected with the other end of the third connecting rod 55; the power motor 56 works to drive the third link 55 to rotate, and the third link 55 drives the second link 54 to drive the base plate 13 to slide along the second sliding rod 53, so as to adjust the distance between the transmitting transducer 11 and the receiving transducer 12 and the pile foundation.

The implementation principle of the pile foundation detection equipment in the embodiment of the application is as follows: the pile foundation detection equipment is placed on the pile foundation through a manual work or a hoisting device, one side, close to the clamping pieces 31, of the chassis 2 is abutted to the end face of the pile foundation, the clamping pieces 31 are located on the outer side of the pile foundation, the driving motor 35 drives the rotating pieces 34 to rotate, the rotating pieces 34 drive the first connecting rods 33 to swing, and then the three clamping pieces 31 are driven to be synchronously clamped on the pile foundation; the lifting assembly 4 drives the transmitting transducer 11 and the receiving transducer 12 to be lifted synchronously, multi-height detection is carried out on the pile foundation, the rotating assembly 6 drives the lifting assembly 4 to rotate around the chassis 2, multi-angle detection is carried out on the pile foundation, and the pile foundation detection precision is improved; the distance between the transmitting transducer 11 and the receiving transducer 12 and the pile foundation can be adjusted through the horizontal adjusting assembly 5, so that the transmitting transducer 11 and the receiving transducer 12 are close to the pile foundation, and the accuracy of pile foundation detection is improved.

Example 2

Referring to fig. 5, the present embodiment is different from embodiment 1 in that the horizontal adjustment assembly 5 includes a first slide lever 51 and an adjustment nut 52; the number of the first sliding rods 51 is two, the two first sliding rods 51 penetrate through the outward extending block 431 and are connected with the outward extending block 431 in a sliding manner, the adjusting nuts 52 are connected to the first sliding rods 51 in a threaded manner, at least two adjusting nuts 52 are connected to one first sliding rod 51 in a threaded manner, and the at least two adjusting nuts 52 are respectively abutted to two sides of the outward extending block 431; in use, the distance between the transmitting transducer 11 and the receiving transducer 12 and the pile foundation is adjusted by turning the adjusting nuts 52 on both sides of the overhanging block 431.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. The utility model provides a pile foundation check out test set, includes nonmetal ultrasonic detector, its characterized in that: including butt chassis (2) on the pile foundation terminal surface, locate on chassis (2) with centre gripping pile foundation lateral wall centre gripping subassembly (3) and two along the even lifting unit (4) that set up of circumference on chassis (2), two lifting unit (4) respectively with transmitting transducer (11) and receiving transducer (12) one-to-one of nonmetal ultrasonic detector, transmitting transducer (11) are relative setting with receiving transducer (12).

2. The pile foundation detection device of claim 1, wherein: centre gripping subassembly (3) including at least two slide connect in chassis (2) be close to clamping piece (31) of pile foundation one side, be fixed in that clamping piece (31) are close to chassis (2) one side and run through sliding block (32) of chassis (2), one end and sliding block (32) keep away from one side articulated first connecting rod (33) of clamping piece (31), rotate piece (34) with the other end articulated of first connecting rod (33) and be fixed in order about on chassis (2) and rotate piece (34) pivoted driving motor (35), at least two clamping piece (31) evenly set up along the circumference of chassis (2), the other end of first connecting rod (33) articulates and rotates piece (34) and keeps away from centre of a circle department, be equipped with on chassis (2) and supply sliding block (32) to wear to establish the groove (21) that slides.

3. The pile foundation detection device of claim 2, wherein: at least one first connecting rod (33) is bent to form an avoiding groove (331).

4. The pile foundation detection device of claim 2, wherein: one side of the sliding block (32) far away from the clamping piece (31) is fixedly provided with at least one abutting block (321), and at least one abutting block (321) abuts against the upper side of the chassis (2) and is connected with the chassis (2) in a sliding mode.

5. The pile foundation detection device of claim 2, wherein: lifting unit (4) including locate on the lateral wall of chassis (2) and be backup pad (41) of vertical setting, both ends respectively one-to-one rotate connect in the both ends of backup pad (41) and with backup pad (41) lift lead screw (42) that are parallel to each other, the cover locate on lift lead screw (42) and with lift lead screw (42) threaded connection elevator (43) with be fixed in backup pad (41) one end and order about lift lead screw (42) pivoted elevator motor (44), non-metallic ultrasonic detector's transmitting transducer (11) and receiving transducer (12) are located respectively on two elevator (43).

6. The pile foundation detection equipment of claim 4, wherein: the horizontal adjusting assembly (5) is arranged on the lifting block (43) and drives the transmitting transducer (11) and the receiving transducer (12) to be close to or far away from the pile foundation.

7. The pile foundation detection equipment of claim 6, wherein: the horizontal adjusting component (5) comprises at least one first sliding rod (51) and at least two adjusting nuts (52), wherein one end of the first sliding rod is fixedly connected with the transmitting transducer (11) or the receiving transducer (12) and penetrates through the lifting block (43) to be connected with the lifting block (43) in a sliding mode, the adjusting nuts (52) are connected to the first sliding rod (51) in a threaded mode, and the adjusting nuts (52) are respectively abutted to two sides of the lifting block (43).

8. The pile foundation detection equipment of claim 6, wherein: the horizontal adjusting assembly (5) comprises at least one second sliding rod (53) with one end fixedly connected with the transmitting transducer (11) or the receiving transducer (12) and penetrating through the lifting block (43) to be connected with the lifting block (43) in a sliding mode, a second connecting rod (54) with one end hinged with the transmitting transducer (11) or the receiving transducer (12), a third connecting rod (55) with one end hinged with the other end of the second connecting rod (54) and a power motor (56) fixed on the lifting block (43) and driving the third connecting rod (55) to rotate, wherein the output shaft of the power motor (56) is fixed with the other end of the third connecting rod (55).

9. The pile foundation detection device of claim 1, wherein: still order about lifting unit (4) around the circumferential direction's on chassis (2) rotating assembly (6) on locating chassis (2), rotating assembly (6) locate chassis (2) and rotate swivel becket (61) of being connected with chassis (2) including the cover, an organic whole locate on the inside wall of swivel becket (61) and along chassis (2) circumference even meshing tooth (62) that set up, rotate connect in chassis (2) upside and with meshing tooth (62) intermeshing driving gear (63) and be fixed in chassis (2) upside and order about driving gear (63) pivoted rotation motor (64).