CN220747034U - Traffic engineering pile foundation detects static load test device - Google Patents

Abstract

The utility model relates to the technical field of traffic engineering pile foundation detection, in particular to a traffic engineering pile foundation detection static load test device, which comprises: backup pad, supporting leg, loading board and balancing weight, the backup pad top is connected with the supporting leg, the supporting leg top is connected with the loading board, the loading board top is connected with the balancing weight, the loading board below is connected with the connecting block, the connecting block below is provided with hydraulic jack, and hydraulic jack is as experimental basis, this traffic engineering pile foundation detects static load test device, the accessible is stably put the inside nut of structure and is driven the bull stick rotation and drive the threaded rod through the screw hole and remove, make the threaded rod insert ground through the second through-hole, realize the quick arrangement of the equipment of being convenient for, and accessible dismantlement structure inside fixed block breaks away from the fixed orifices in, the rethread rotary drum makes logical groove and extrusion piece parallel and level, make hydraulic jack break away from in the connecting cylinder, realize the dismantlement maintenance of being convenient for hydraulic jack.

Description

Traffic engineering pile foundation detects static load test device

Technical Field

The utility model relates to the technical field of traffic engineering pile foundation detection, in particular to a static load test device for traffic engineering pile foundation detection.

Background

Along with the continuous development of society, the continuous improvement of economic level, people's living standard has also been showing development, along with the gradual increase of economic level, people's building level has also been showing development, wherein in the course of engineering construction, need carry out certain pile foundation detection work, and static load test is to carry out the definite experiment to the ultimate bearing capacity of its single pile, this kind of mode is comparatively accurate and reliable, pile foundation static load test's achievement data, like single pile bearing capacity, settlement volume etc. are regarded as accurate, reliable, therefore by people's wide use in many engineering experiments of construction, as the experiment that application number "CN202220148882.6" publicized "a static load test device for pile foundation detection" has already been very mature technology, it carries out certain installation treatment through setting up the solid ring first, and accomplish the installation work in its connecting block position under the setting up of its elastic chamber, in the course of positioning and installing bolt, make it finish certain spacing protection work under the mutual cooperation of elastic ring and fastening block, simultaneously, carry out certain card position under the setting up of its clamp spring clip and fix, thus the good stability of the whole experiment has been very good, thus the defect that the whole experiment has been very finished in the course of carrying out very good overall experiment is very well;

in the use process of the conventional traffic engineering pile foundation static load test device, equipment is required to be integrally fixed on the ground, so that the equipment is prevented from being integrally jacked up when the equipment is used for pressurizing the ground, but the conventional fixing mode mostly adopts manual fixing of bolts at four corners of the equipment, the mode obviously cannot meet the requirement of quick arrangement of the equipment, and the hydraulic jack below the conventional equipment is an important component part for equipment testing, so that the hydraulic jack needs to be regularly maintained, but the jack above the equipment is connected as a whole, so that the jack is inconvenient to quickly detach, maintain and repair.

Disclosure of Invention

The utility model provides the following technical scheme: the utility model aims to provide a traffic engineering pile foundation detection static load test device, which aims to solve the problems that the traffic engineering pile foundation static load test device in the market is inconvenient for the quick arrangement of the whole equipment and the quick disassembly, maintenance and repair of a hydraulic jack in the prior art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: a traffic engineering pile foundation detection static load test device, comprising: the device comprises a supporting plate, supporting legs, a bearing plate and a balancing weight;

the supporting plate is characterized in that supporting legs are connected above the supporting plates, supporting plates are connected above the supporting legs, balancing weights are connected above the supporting plates, connecting blocks are connected below the supporting plates, hydraulic jacks are arranged below the connecting blocks, stable placing structures are arranged above the supporting plates, dismounting structures are arranged below the connecting blocks, and the hydraulic jacks serve as test bases.

Preferably, the stable arrangement structure includes: first through-hole, bull stick, nut, ring channel, first stopper, solid fixed ring, screw hole, threaded rod, guiding hole, guide block, guide way, deflector and second through-hole, first through-hole has been seted up to loading board top one side, the through-connection has the bull stick in the first through-hole, bull stick one end is connected with the nut, the nut sets up in the loading board top.

Preferably, an annular groove is formed in the inner side wall of the first through hole, a first limiting block is connected in the annular groove in a clamping mode, the first limiting block is connected to one side of the rotating rod, the rotating rod is connected to the fixing ring in a penetrating mode, and the fixing ring is connected to one side of the supporting leg.

Preferably, the screw hole has been seted up to bull stick one end, threaded hole threaded connection has the threaded rod, threaded rod through connection is in the guiding hole, the guiding hole is seted up in the guide block, the guide block is connected in supporting leg one side.

Preferably, the guide groove is formed in the inner side wall of the guide hole, the guide plate is connected in the guide groove in a clamping mode, the guide plate is connected to one side of the threaded rod, the threaded rod is connected in the second through hole in a penetrating mode, and the second through hole is formed in the supporting plate.

Preferably, the dismounting structure comprises: the hydraulic jack comprises a connecting barrel, a limiting groove, a second limiting block, a rotary barrel, a clamping groove, a torsion spring, a penetrating groove, a through groove, a fixing hole, a fixing block and an extrusion block, wherein the connecting barrel is connected below the connecting block, and one end of the hydraulic jack is connected in the connecting barrel.

Preferably, the limiting groove has been seted up to connecting cylinder one side, the block of limiting inslot joint has the second stopper, the second stopper is connected on the rotary drum inside wall, the draw-in groove has been seted up on the rotary drum inside wall, the block is connected with the torsional spring in the draw-in groove, through-connection has the connecting cylinder in the torsional spring.

Preferably, the through groove is formed in the lower portion of the inner side wall of the rotary drum, the through groove is formed in the inner side wall of the through groove, a hydraulic jack is connected in the through groove in a penetrating manner, a fixing hole is formed in the lower portion of the inner side wall of the rotary drum, a fixing block is connected in a clamping manner in the fixing hole, the fixing block is connected to one side of the extrusion block, and the extrusion block is arranged in the rotary drum.

Compared with the prior art, the utility model has the beneficial effects that: this traffic engineering pile foundation detects static load test device, the accessible is stably put the inside nut of structure and is driven the bull stick rotation and drive the threaded rod through the screw hole and remove, makes the threaded rod insert ground through the second through-hole, realizes the quick arrangement of the equipment of being convenient for, and the fixed block of accessible dismantlement structure inside breaks away from in the fixed orifices, and rethread rotary drum makes logical groove and extrusion piece parallel and level, makes hydraulic jack break away from in can following the connecting cylinder, realizes being convenient for hydraulic jack's dismantlement maintenance, and concrete content is as follows:

1. the nut can be rotated to drive the rotating rod to rotate, the rotating rod drives the threaded hole to rotate, meanwhile, the first limiting block rotates along the annular groove, the threaded hole drives the threaded rod to move, the threaded rod moves along the guide hole, meanwhile, the guide plate moves along the guide groove, and one end of the threaded rod is inserted into the ground along the second through hole, so that rapid arrangement of equipment is facilitated;

2. the hydraulic jack can be pushed by a wire, the hydraulic jack drives the extrusion block to move, the fixing block is separated from the fixing hole, the rotary drum is rotated again, the rotary drum drives the through groove to rotate, meanwhile, the second limiting block moves along the limiting groove, the through groove moves to the position flush with the extrusion block, the hydraulic jack can be separated from the connecting cylinder, and meanwhile, the extrusion block slides along the through groove to be separated, so that the hydraulic jack can be conveniently disassembled, maintained and maintained.

Drawings

FIG. 1 is a schematic view of a carrier plate according to the present utility model;

FIG. 2 is a schematic view of a through slot of the present utility model;

FIG. 3 is a schematic view of a guide slot of the present utility model;

FIG. 4 is an enlarged schematic view of the portion A of the present utility model;

FIG. 5 is an enlarged schematic view of portion B of the present utility model;

FIG. 6 is an enlarged schematic view of the portion C of the present utility model;

fig. 7 is an enlarged schematic view of the portion D of the present utility model.

In the figure: 1. a support plate; 2. support legs; 3. a carrying plate; 4. balancing weight; 5. a connecting block; 6. a hydraulic jack; 7. stabilizing the placement structure; 701. a first through hole; 702. a rotating rod; 703. a nut; 704. an annular groove; 705. a first limiting block; 706. a fixing ring; 707. a threaded hole; 708. a threaded rod; 709. a guide hole; 710. a guide block; 711. a guide groove; 712. a guide plate; 713. a second through hole; 8. disassembling the structure; 801. a connecting cylinder; 802. a limit groove; 803. a second limiting block; 804. a rotating drum; 805. a clamping groove; 806. a torsion spring; 807. a through groove; 808. a through groove; 809. a fixing hole; 810. a fixed block; 811. extruding the blocks.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-7, the present utility model provides a technical solution: a traffic engineering pile foundation detection static load test device, comprising: the support plate 1, the support legs 2, the bearing plate 3 and the balancing weight 4;

the backup pad 1 top is connected with supporting leg 2, and the supporting leg 2 top is connected with loading board 3, and the loading board 3 top is connected with balancing weight 4, and the loading board 3 below is connected with connecting block 5, and connecting block 5 below is provided with hydraulic jack 6, and backup pad 1 top is provided with stably puts structure 7, and connecting block 5 below is provided with dismantles structure 8, and hydraulic jack 6 is as experimental basis.

The stable arrangement 7 includes: the first through hole 701, the rotating rod 702, the nut 703, the annular groove 704, the first limiting block 705, the fixed ring 706, the threaded hole 707, the threaded rod 708, the guide hole 709, the guide block 710, the guide groove 711, the guide plate 712 and the second through hole 713, the first through hole 701 is arranged on one side above the bearing plate 3, the rotating rod 702 is connected in the first through hole 701 in a penetrating way, one end of the rotating rod 702 is connected with the nut 703, the nut 703 is arranged above the bearing plate 3, the annular groove 704 is arranged on the inner side wall of the first through hole 701, the first limiting block 705 is connected on one side of the rotating rod 702 in a clamping way in the annular groove 704, the rotating rod 702 is connected in the fixed ring 706 in a penetrating way, the fixed ring 706 is connected on one side of the supporting leg 2, the threaded hole 707 is arranged on one end of the rotating rod 702, threaded hole 707 internal thread connection has threaded rod 708, threaded rod 708 through-connection is in guiding hole 709, guiding hole 709 is seted up in guide block 710, guide block 710 connects in supporting leg 2 one side, guide slot 711 has been seted up on the guiding hole 709 inside wall, the block is connected with deflector 712 in the guide slot 711, deflector 712 connects in threaded rod 708 one side, threaded rod 708 through-connection is in second through-hole 713, the second through-hole 713 is seted up in backup pad 1, realize the steady of equipment and put, be convenient for arrange fast, the nut 703 that the inside of structure 7 is put in the accessible is stabilized and is driven the bull stick 702 rotatory and drive threaded rod 708 through threaded hole 707 and remove, make threaded rod 708 insert ground through the second through-hole 713, realize the quick arrangement of equipment of being convenient for.

The dismounting structure 8 comprises: connecting cylinder 801, spacing groove 802, second stopper 803, rotary drum 804, draw-in groove 805, torsion spring 806, run-through groove 807, lead to groove 808, fixed orifices 809, fixed block 810 and extrusion piece 811, connecting cylinder 801 is connected with to connecting block 5 below, connecting cylinder 801 internal connection has hydraulic jack 6 one end, spacing groove 802 has been seted up to connecting cylinder 801 one side, the block connection has second stopper 803 in the spacing groove 802, second stopper 803 is connected on rotary drum 804 inside wall, set up draw-in groove 805 on the rotary drum 804 inside wall, the block connection has torsion spring 806 in the draw-in groove 805, run-in connection has connecting cylinder 801 in the torsion spring 806, the run-in groove 807 has been seted up to rotary drum 804 inside wall below, the run-in groove 808 has been set up on the run-in groove 807 inside wall, run-in connection has hydraulic jack 6 in the run-through groove 807, fixed block 810 is connected on one side of extrusion piece 811, extrusion piece 811 sets up in rotary drum 804, the dismantlement maintenance of hydraulic jack 6 is realized being convenient for, the maintenance of dismantling structure 8 inside fixed block is broken away from fixed block 809 from inside fixed block 809, make hydraulic jack 808 rotate, make hydraulic jack 6 break away from in the parallel and level with extrusion jack 811 can be realized through the parallel and level, hydraulic jack 6 is convenient for maintenance is broken away from in connection with extrusion jack 811.

To sum up: as shown in fig. 1-7, when the traffic engineering pile foundation detection static load test device is used, the rotating nut 703 can be used to drive the rotating rod 702 to rotate and drive the threaded hole 707 to rotate, meanwhile, the first limiting block 705 rotates along the annular groove 704, the threaded hole 707 drives the threaded rod 708 to move, the threaded rod 708 moves along the guide hole 709, meanwhile, the guide plate 712 moves along the guide groove 711, one end of the threaded rod 708 is inserted into the ground along the second through hole 713, thereby realizing quick arrangement of equipment, then the hydraulic jack 6 can be pushed by a wire to drive the extrusion block 811 to move, the fixing block 810 is separated from the fixing hole 809, the rotating drum 804 drives the through groove 808 to rotate, meanwhile, the second limiting block 803 moves along the limiting groove 802, the through groove 808 moves to a position flush with the extrusion block 811, the hydraulic jack 6 can be separated from the connecting cylinder 801, and meanwhile, the extrusion block 811 slides along the through groove 808, so that the hydraulic jack 6 is convenient to disassemble and maintain, and the hydraulic jack 6 is convenient to disassemble and maintain.

Although the present utility model has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present utility model.

Claims (8)

1. A traffic engineering pile foundation detection static load test device, comprising: the device is characterized by comprising a supporting plate (1), supporting legs (2), a bearing plate (3) and a balancing weight (4);

the utility model discloses a hydraulic lifting device for a car, including backup pad (1), backup pad (1) top is connected with supporting leg (2), supporting leg (2) top is connected with loading board (3), loading board (3) top is connected with balancing weight (4), loading board (3) below is connected with connecting block (5), connecting block (5) below is provided with hydraulic jack (6), backup pad (1) top is provided with stably puts structure (7), connecting block (5) below is provided with dismantles structure (8).

2. The traffic engineering pile foundation detection static load test device according to claim 1, wherein: the stable placing structure (7) comprises: first through-hole (701), bull stick (702), nut (703), ring channel (704), first stopper (705), solid fixed ring (706), screw hole (707), threaded rod (708), guiding hole (709), guide block (710), guide slot (711), deflector (712) and second through-hole (713), first through-hole (701) have been seted up to loading board (3) top one side, through-connection has bull stick (702) in first through-hole (701), bull stick (702) one end is connected with nut (703), nut (703) set up in loading board (3) top.

3. The traffic engineering pile foundation detection static load test device according to claim 2, wherein: an annular groove (704) is formed in the inner side wall of the first through hole (701), a first limiting block (705) is connected in the annular groove (704) in a clamping mode, the first limiting block (705) is connected to one side of the rotating rod (702), the rotating rod (702) is connected in a fixed ring (706) in a penetrating mode, and the fixed ring (706) is connected to one side of the supporting leg (2).

4. A traffic engineering pile foundation detection static load test device according to claim 3, wherein: threaded holes (707) are formed in one end of the rotating rod (702), threaded rods (708) are connected with the threaded holes (707) in an internal threaded mode, the threaded rods (708) are connected in the guide holes (709) in a penetrating mode, the guide holes (709) are formed in the guide blocks (710), and the guide blocks (710) are connected to one side of the supporting legs (2).

5. The traffic engineering pile foundation detection static load test device according to claim 4, wherein: the guide groove (711) is formed in the inner side wall of the guide hole (709), the guide plate (712) is connected in the guide groove (711) in a clamping mode, the guide plate (712) is connected to one side of the threaded rod (708), the threaded rod (708) is connected in the second through hole (713) in a penetrating mode, and the second through hole (713) is formed in the supporting plate (1).

6. The traffic engineering pile foundation detection static load test device according to claim 1, wherein: the dismounting structure (8) comprises: connecting cylinder (801), spacing groove (802), second stopper (803), rotary drum (804), draw-in groove (805), torsional spring (806), run through groove (807), logical groove (808), fixed orifices (809), fixed block (810) and extrusion piece (811), connecting cylinder (801) are connected with to connecting block (5) below, connecting cylinder (801) in-connection has hydraulic jack (6) one end.

7. The traffic engineering pile foundation detection static load test device according to claim 6, wherein: limiting grooves (802) are formed in one side of the connecting cylinder (801), second limiting blocks (803) are connected in the limiting grooves (802) in a clamping mode, the second limiting blocks (803) are connected to the inner side wall of the rotating cylinder (804), clamping grooves (805) are formed in the inner side wall of the rotating cylinder (804), torsion springs (806) are connected in the clamping grooves (805) in a clamping mode, and the connecting cylinder (801) is connected in a penetrating mode in the torsion springs (806).

8. The traffic engineering pile foundation detection static load test device according to claim 7, wherein: the utility model discloses a hydraulic jack, including rotary drum (804), fixed block (810), extrusion piece (811) and fixed block (810), run through groove (807) have been seted up to rotary drum (804) inside wall below, run through on groove (807) inside wall and have set up logical groove (808), fixed hole (809) have been seted up to rotary drum (804) inside wall below, block (810) are connected with fixed block (810) in fixed hole (809), extrusion piece (811) set up in rotary drum (804).