CN220486566U - Static load detection equipment for foundation bearing capacity - Google Patents

Abstract

The utility model discloses a foundation bearing capacity static load detection device, which comprises a base, wherein a detection mechanism is arranged above the base; the utility model relates to a device for detecting the bearing capacity of a foundation, which comprises a base, a guide mechanism, a detection mechanism, a connecting piece, a unidirectional tooth, a torsion spring, a baffle plate, a detection mechanism, a unidirectional tooth component and a baffle plate component, wherein the guide mechanism is arranged on the upper end face of the base, the connecting piece comprises a sliding block, the sliding block is arranged on the guide mechanism, the unidirectional tooth is rotatably arranged on the sliding block, the torsion spring is arranged between the unidirectional tooth and the sliding block, the baffle plate is arranged on one side of the unidirectional tooth, and the baffle plate is spliced with the sliding block.

Description

Static load detection equipment for foundation bearing capacity

Technical Field

The utility model relates to the technical field of static load detection of foundation bearing capacity, in particular to static load detection equipment of foundation bearing capacity.

Background

The foundation bearing capacity refers to the capacity of the foundation to bear load, the foundation is required to deform under the action of the load, the foundation deformation gradually increases along with the increase of the load, the stress in the foundation soil at the initial stage is in an elastic balance state, the foundation bearing capacity is safe, and the foundation bearing capacity is usually detected by a bearing capacity detector.

Through retrieving, a foundation bearing capacity static load detection device disclosed in China patent with publication number of CN218060245U is technically characterized in that: including fixing base and foundation bearing capacity static load check out test set body, the perforation has been seted up along vertical direction to the fixing base, and the top of fixing base is provided with two spinal branch vaulting poles, and sliding connection has the sliding seat on the vaulting pole, and foundation bearing capacity static load check out test set body is fixed to be set up between two sliding seats, and foundation bearing capacity static load check out test set body is along vertical direction sliding connection in the perforation, is provided with the bolt on the sliding seat, and the bolt passes the fixing base and wears to establish in the sliding seat. The staff has seted up the measuring aperture in advance subaerial, then moves the fixing base subaerial messenger perforation and measuring aperture intercommunication, then the staff removes the sliding seat along vertical direction, makes the static load check out test set body of foundation bearing capacity insert in the measuring aperture monitor, then uses the bolt to pass the perforation and wears to establish in the jack, fixes the sliding seat, effectively ensures the monitoring data of foundation bearing capacity.

According to the scheme, the problem that the foundation bearing capacity monitoring data is greatly influenced due to the fact that the inclination of the inserted angle is easy to occur when a worker inserts the foundation bearing capacity on-site detector into the detection hole is solved, but the sliding seat is fixed through the bolt, so that repeated insertion and extraction of the bolt are needed for each test and data recording.

Disclosure of Invention

The utility model aims to provide a foundation bearing capacity static load detection device which has the characteristic that a detection device is not required to be fixed manually for each test and data recording.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the static load detection equipment for the bearing capacity of the foundation comprises a base, wherein a detection mechanism is arranged above the base; the upper end face of base is provided with guiding mechanism, guiding mechanism with detection mechanism's be provided with the connecting piece, the connecting piece includes the slider, the slider sets up guiding mechanism is last, rotate on the slider and install one-way tooth, one-way tooth with be provided with the torsional spring between the slider, one side of one-way tooth is provided with the baffle, the baffle with the slider is pegged graft, one side of slider is provided with first fixed plate, first fixed plate fixed mounting is in the base upper end, first fixed plate upper end fixed mounting has the dog, the dog with one-way tooth joint is provided with the mounting on the base.

In order to enable the probe rod to be perpendicular to the base, the detection mechanism comprises a detection data table, wherein the detection data table is arranged above the base, a probe is fixedly arranged at the lower end of the detection data table, the probe rod is arranged at the lower end of the probe, the probe rod penetrates through the base, and a pressing handle is fixedly arranged at the upper end of the detection data table.

In order to drive the sliding block to synchronously move while the pressing handle moves, the connecting piece also comprises a connecting plate, wherein one end of the connecting plate is rotatably connected with the pressing handle through a sleeve, and the other end of the connecting plate is rotatably connected with the sliding block through a connecting rod.

In order to increase stability of downward movement of the probe rod, the static load detection device for the foundation bearing capacity preferably comprises a guide rod, wherein two ends of the guide rod are fixedly connected with the base through a second fixing plate, and the guide rod is in sliding connection with the sliding block.

In order to balance the stress of the connecting plate, the static load detection equipment for the bearing capacity of the foundation is preferable, wherein two guide rods are arranged on two sides of the detection data table, and two sliding blocks on the same end of each guide rod are connected through the connecting rod.

In order to clean the probe rod, the foundation bearing capacity static load detection device is preferably provided with the mounting plates symmetrically arranged on two sides of the probe rod, the mounting plates are fixedly arranged at the lower end of the base through bolts, and cleaning cotton is arranged between the mounting plates and the probe rod.

In order to conveniently regulate and control the rotation direction of the unidirectional teeth, the unidirectional teeth are preferably arranged in an L shape, the baffle is arranged in a T shape, and the baffle is arranged on one side close to the detection data table.

Compared with the prior art, the utility model has the following beneficial effects:

1. according to the utility model, the sliding block, the unidirectional teeth, the baffle plate and other parts are arranged, in the working process, the static load of the foundation bearing capacity is detected through the downward-pressing detection mechanism, meanwhile, the unidirectional teeth are mutually matched with the baffle plate part, so that the unidirectional teeth only rotate in a specified direction, the rotation direction of the unidirectional teeth is controlled, and the unidirectional fixing structure is formed under the interaction with the baffle plate part, so that the purpose of fixing the position of the detection mechanism in real time and improving the working efficiency is achieved.

2. According to the utility model, the cleaning cotton, the mounting plate and other parts are arranged, and in the using process of the device, the cleaning cotton part is arranged at the bottom of the base and rubbed with the surface of the probe rod through the mutual matching between the mounting plate part and the cleaning cotton part, so that when the probe rod part is taken out from a soil layer after detection is completed, soil on the surface of the probe rod part is wiped clean through the cleaning cotton part, and the effect of cleaning the probe rod part is achieved.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is an enlarged schematic view of the utility model at A in FIG. 1;

FIG. 3 is a schematic view of a partial explosion of the present utility model;

FIG. 4 is a bottom plate bottom view of the present utility model;

in the figure: 1. a base; 2. detecting a data table; 3. a probe; 4. a probe rod; 5. a pressing handle; 6. a guide mechanism; 601. a guide rod; 602. a second fixing plate; 7. a connecting piece; 701. a connecting plate; 702. a slide block; 703. a connecting rod; 704. unidirectional teeth; 705. a baffle; 8. a first fixing plate; 9. a stop block; 10. a mounting plate; 11. cleaning cotton; 12. and a fixing piece.

Detailed Description

Referring to fig. 1 to 4, a static load detection device for foundation bearing capacity includes a base 1, a detection mechanism is arranged above the base 1; the upper end face of the base 1 is provided with a guide mechanism 6, the guide mechanism 6 and the detection mechanism are provided with a connecting piece 7, the connecting piece 7 comprises a sliding block 702, the sliding block 702 is arranged on the guide mechanism 6, unidirectional teeth 704 are rotatably arranged on the sliding block 702, a torsion spring is arranged between the unidirectional teeth 704 and the sliding block 702, a baffle 705 is arranged on one side of the unidirectional teeth 704, the baffle 705 is spliced with the sliding block 702, a first fixing plate 8 is arranged on one side of the sliding block 702, the first fixing plate 8 is fixedly arranged at the upper end of the base 1, a stop block 9 is fixedly arranged at the upper end of the first fixing plate 8, the stop block 9 is clamped with the unidirectional teeth 704, and a fixing piece 12 is arranged on the base 1.

In this embodiment: the slider 702 moves on the guiding mechanism 6 when adjusting the detection mechanism, meanwhile, the slider 702 drives the unidirectional tooth 704 to move, the unidirectional tooth 704 is blocked by the stop block 9 to rotate when moving, after the unidirectional tooth 704 is separated from the stop block 9, the unidirectional tooth 704 is automatically reset under the action of the torsion spring, the rotation angle of the unidirectional tooth 704 is limited by the baffle plate 705, and the unidirectional tooth 704 is prevented from reversely rotating to be separated from the rotation range, so that self-locking is realized when adjusting the detection mechanism, when the detection mechanism needs to reversely move, the baffle plate 705 is removed from the slider 702, and the limitation of the baffle plate 705 on the unidirectional tooth 704 is relieved, and the effect of directionally rotating the unidirectional tooth 704 is achieved.

As a technical optimization scheme of the utility model, the detection mechanism comprises a detection data table 2, wherein the detection data table 2 is arranged above the base 1, a probe 3 is fixedly arranged at the lower end of the detection data table 2, a probe rod 4 is arranged at the lower end of the probe 3, the probe rod 4 penetrates through the base 1, and a pressing handle 5 is fixedly arranged at the upper end of the detection data table 2.

In this embodiment: the detection data table 2 shows specific detection values, and the vertical direction is maintained by the probe rod 4 passing through the base 1.

As a technical optimization scheme of the utility model, the connecting piece 7 further comprises a connecting plate 701, one end of the connecting plate 701 is rotatably connected with the pressing handle 5 through a sleeve, and the other end of the connecting plate 701 is rotatably connected with the sliding block 702 through a connecting rod 703.

In this embodiment: by pushing the pressing handle 5 downwards, the pressing handle 5 drives the probe rod 4 to downwards move, and meanwhile, the connecting plate 701 drives the sliding block 702 to move along a specified direction, so that the verticality and the stability of the downwards movement of the probe rod 4 are maintained.

As a technical optimization scheme of the utility model, the guide mechanism 6 comprises a guide rod 601, two ends of the guide rod 601 are fixedly connected with the base 1 through a second fixing plate 602, and the guide rod 601 is in sliding connection with the sliding block 702.

In this embodiment: the guide bar 601 limits the moving direction of the slider 702, so that the slider 702 is prevented from shaking during movement, and the moving stability of the slider 702 is improved.

As a technical optimization scheme of the utility model, two guide rods 601 are arranged, two sides of the detection data table 2 are arranged on the two guide rods 601, and two sliding blocks 702 at the same end of the guide rods 601 are connected through a connecting rod 703.

In this embodiment: while driving the sliding block 702 to move through the connecting plate 701, the stress of the connecting plate 701 is balanced, so that the connecting plate 701 is prevented from moving in a working process.

As a technical optimization scheme of the utility model, mounting plates 10 are symmetrically arranged on two sides of the probe rod 4, the mounting plates 10 are fixedly arranged at the lower end of the base 1 through bolts, and cleaning cotton 11 is arranged between the mounting plates 10 and the probe rod 4.

In this embodiment: the probe rod 4 is conveniently wiped by the cleaning cotton 11, so that the probe rod 4 is kept clean and tidy.

As a technical optimization scheme of the utility model, the unidirectional teeth 704 are arranged in an L shape, the baffle 705 is arranged in a T shape, and the baffle 705 is arranged on one side close to the detection data table 2.

In this embodiment: the rotation angle and rotation direction of the unidirectional tooth 704 are restricted by the shutter 705 while facilitating the installation of the shutter 705 at a specified depth of a specified position.

Working principle: during operation, the base 1 is moved to a preset position, the probe rod 4 is inserted into a preset measuring hole in the ground, then the base 1 is fixed through the fixing piece 12, the pressing handle 5 is driven downwards by a worker, meanwhile, the pressing handle 5 drives the probe rod 4 to move and data limitation is carried out through the detection data table 2, meanwhile, the pressing handle 5 pushes the sliding block 702 to move on the guide rod 601 through the connecting plate 701 when the pressing handle 5 moves downwards, so that the verticality and stability of the downward movement of the probe rod 4 are maintained, the sliding block 702 moves and simultaneously drives the one-way teeth 704 to be clamped with the stop block 9, so that the probe rod 4 is fixed in real time, after the measurement is completed, the baffle 705 is removed from the sliding block 702, the limitation on the one-way teeth 704 is removed, the one-way teeth 704 can rotate reversely to take the probe rod 4 out of the ground, and the surface of the pair of cleaning cotton 11 is wiped.

The foregoing description of the preferred embodiments of the utility model 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 utility model.

Claims (7)

1. The utility model provides a foundation bearing capacity static load check out test set, includes base (1), its characterized in that: a detection mechanism is arranged above the base (1); the device is characterized in that a guide mechanism (6) is arranged on the upper end face of the base (1), a connecting piece (7) is arranged on the guide mechanism (6) and comprises a sliding block (702), the sliding block (702) is arranged on the guide mechanism (6), unidirectional teeth (704) are rotatably arranged on the sliding block (702), torsion springs are arranged between the unidirectional teeth (704) and the sliding block (702), a baffle plate (705) is arranged on one side of the unidirectional teeth (704), the baffle plate (705) is connected with the sliding block (702) in an inserting mode, a first fixing plate (8) is arranged on one side of the sliding block (702), the first fixing plate (8) is fixedly arranged at the upper end of the base (1), a stop block (9) is fixedly arranged on the upper end of the first fixing plate (8), the stop block (9) is clamped with the unidirectional teeth (704), and a fixing piece (12) is arranged on the base (1).

2. The foundation bearing capacity static load detection device according to claim 1, wherein: the detection mechanism comprises a detection data table (2), the detection data table (2) is arranged above the base (1), a probe (3) is fixedly arranged at the lower end of the detection data table (2), a probe rod (4) is arranged at the lower end of the probe (3), the probe rod (4) penetrates through the base (1), and a pressing handle (5) is fixedly arranged at the upper end of the detection data table (2).

3. The foundation bearing capacity static load detection device according to claim 2, wherein: the connecting piece (7) further comprises a connecting plate (701), one end of the connecting plate (701) is connected with the pressing handle (5) through a sleeve, and the other end of the connecting plate is connected with the sliding block (702) through a connecting rod (703) in a rotating mode.

4. A foundation load bearing capacity static load detection apparatus according to claim 3, wherein: the guide mechanism (6) comprises a guide rod (601), two ends of the guide rod (601) are fixedly connected with the base (1) through second fixing plates (602), and the guide rod (601) is in sliding connection with the sliding block (702).

5. The foundation bearing static load detection device according to claim 4, wherein: the guide rods (601) are arranged on two sides of the detection data table (2), and two sliding blocks (702) at the same end of the guide rods (601) are connected through the connecting rods (703).

6. The foundation bearing capacity static load detection device according to claim 2, wherein: the two sides of the probe rod (4) are symmetrically provided with mounting plates (10), the mounting plates (10) are fixedly mounted at the lower end of the base (1) through bolts, and cleaning cotton (11) is arranged between the mounting plates (10) and the probe rod (4).

7. The foundation bearing capacity static load detection device according to claim 2, wherein: the unidirectional teeth (704) are arranged in an L shape, the baffle (705) is arranged in a T shape, and the baffle (705) is arranged on one side close to the detection data table (2).