CN220708945U - Inspection device for building bearing structure - Google Patents

Abstract

The utility model discloses an inspection device for a building bearing structure, which comprises a bearing table, wherein supporting seats are fixedly arranged on two symmetrical sides of the bottom of the bearing table, a driving groove is formed in the middle of the bottom of the bearing table, a moving assembly which is convenient for moving the device is arranged in the driving groove, a U-shaped bracket is fixedly arranged at the top of the bearing table, a bearing inspection assembly is arranged at the top of the U-shaped bracket, and a fixing assembly which is convenient for clamping the bearing structure is arranged on the bearing table; according to the utility model, the first hydraulic cylinder is started to drive the trapezoid fixed block to move upwards, and the T-shaped sliding strips on two sides of the trapezoid fixed block move along the corresponding T-shaped sliding grooves, so that the two sliding blocks are pushed to move relatively, the bearing structure is effectively clamped and fixed, and the displacement of the bearing structure can be effectively prevented in the clamping process of the clamping plate through the arranged rubber anti-slip protrusions.

Description

Inspection device for building bearing structure

Technical Field

The utility model relates to the technical field of building bearing detection, in particular to a device for detecting a building bearing structure.

Background

The main construction structure is a main bearing force-transmitting body based on foundation, which receives, bears and transmits all upper load of construction engineering, maintains the system of organic connection of the integrity, stability and safety of the upper structure, and forms a complete structural system of the construction engineering together with foundation technology, is a foundation for safe use of the construction engineering, and is a carrier and an important component for safe, stable and reliable construction engineering structure.

At present, when bearing force inspection is carried out on bearing structures on some buildings, the fixing of different bearing structures is complicated, the fixing effect is poor, the device has certain limitation, and therefore the practicability of the testing device in use is reduced.

Disclosure of Invention

The utility model provides an inspection device for a building bearing structure, which solves the problems.

In order to achieve the above purpose, the utility model is realized by the following technical scheme: the utility model provides a building load-bearing structure's inspection device, includes the bearing platform, bearing platform bottom symmetry both sides fixed mounting has the supporting seat, the drive slot has been seted up in the middle of the bearing platform bottom, install the removal subassembly of being convenient for remove this device in the drive slot, bearing platform top fixed mounting has U type support, bearing inspection subassembly is installed at U type support top, install the fixed subassembly of being convenient for to the load-bearing structure centre gripping on the bearing platform.

The fixed subassembly is including opening the door in two of bearing platform one side through hinged joint, bearing platform inside wall fixed mounting has the connecting plate, connecting plate bottom fixed mounting has first hydraulic cylinder, first hydraulic cylinder output runs through to connecting plate top fixed mounting has trapezoidal fixed block, fixed mounting has T type draw runner on two hypotenuses of trapezoidal fixed block, two equal sliding connection of T type draw runner surface has the sliding block, two T type spout has all been seted up to the sliding block bottom, spacing spout has been seted up at the bearing platform top, two equal fixed mounting in sliding block top has the grip block, connecting plate top symmetry both sides fixed mounting has the riser, two the movable groove has all been seted up to riser top inboard, two equal fixed mounting in sliding block both sides has the slider.

Preferably, the bearing inspection assembly comprises a second hydraulic cylinder fixedly mounted at the top of the U-shaped support, a detection plate is fixedly mounted at the bottom of the U-shaped support in a penetrating mode at the output end of the second hydraulic cylinder, telescopic loop bars are fixedly mounted at two symmetrical sides of the top of the detection plate, the other end of each telescopic loop bar is fixedly mounted at the bottom wall of the U-shaped support, and a detector body is fixedly mounted at the bottom of the detection plate.

Preferably, the movable assembly comprises a third hydraulic cylinder fixedly arranged on the top wall of the driving groove, a supporting plate is fixedly arranged at the output end of the third hydraulic cylinder, and universal wheels are fixedly arranged at four corners of the bottom of the supporting plate.

Preferably, the bottom of the sliding block is attached to the inclined edge of the trapezoid fixed block, the sliding block is matched with the T-shaped sliding groove, and the sliding block is matched with the moving groove.

Preferably, the top of the clamping plate penetrates through the top of the bearing table through the limiting chute, and the surface of the clamping plate is provided with a rubber anti-slip protrusion.

Preferably, a display is fixedly arranged on one side of the bearing table, and the detector body is electrically connected with the display.

Advantageous effects

The utility model provides an inspection device for a building bearing structure. Compared with the prior art, the method has the following beneficial effects:

(1) According to the utility model, the first hydraulic cylinder is started to drive the trapezoid fixed block to move upwards, and the T-shaped sliding strips on two sides of the trapezoid fixed block move along the corresponding T-shaped sliding grooves, so that the two sliding blocks are pushed to move relatively, the bearing structure is effectively clamped and fixed, and the displacement of the bearing structure can be effectively prevented in the clamping process of the clamping plate through the arranged rubber anti-slip protrusions.

(2) According to the utility model, the third hydraulic cylinder is started to drive the universal wheel at the bottom of the supporting plate to move up and down, so that the device is effectively moved through the universal wheel, when the device does not need to be moved, the universal wheel is retracted into the driving groove through starting the third hydraulic cylinder, the device is supported through the supporting seat, and meanwhile, the second hydraulic cylinder is started to drive the detector body at the bottom of the detecting plate to carry out bearing detection on the bearing structure, so that the practicability of the device is improved.

Drawings

FIG. 1 is a perspective view of the external structure of the present utility model;

FIG. 2 is a front view of the internal structure of the present utility model;

FIG. 3 is a schematic view of a securing assembly of the present utility model;

FIG. 4 is a schematic diagram of a mobile assembly of the present utility model;

fig. 5 is a schematic view of a load bearing inspection assembly of the present utility model.

In the figure 1, a bearing table; 2. a support base; 3. a driving groove; 4. a U-shaped bracket; 5. rubber cleats; 6. a display; 100. a moving assembly; 101. a third hydraulic cylinder; 102. a support plate; 103. a universal wheel; 200. a load bearing inspection assembly; 201. a second hydraulic cylinder; 202. a detection plate; 203. a telescopic loop bar; 204. a detector body; 300. a fixing assembly; 301. double door; 302. a connecting plate; 303. a first hydraulic cylinder; 304. a trapezoid fixed block; 305. a T-shaped slide bar; 306. a sliding block; 307. a T-shaped chute; 308. limiting sliding grooves; 309. a clamping plate; 310. a riser; 311. a moving groove; 312. a sliding block.

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.

Embodiment one:

referring to fig. 1-5, an inspection device for a building load-bearing structure comprises a load-bearing table 1, wherein supporting seats 2 are fixedly installed on two symmetrical sides of the bottom of the load-bearing table 1, a driving groove 3 is formed in the middle of the bottom of the load-bearing table 1, a moving assembly 100 which is convenient for moving the device is installed in the driving groove 3, a U-shaped bracket 4,U type bracket 4 is fixedly installed at the top of the load-bearing table 1, a load-bearing inspection assembly 200 is installed at the top of the U-shaped bracket 4,U type bracket 4, and a fixing assembly 300 which is convenient for clamping the load-bearing structure is installed on the load-bearing table 1.

The fixing assembly 300 comprises a double door 301 connected to one side of the bearing table 1 through a hinge, a handle is arranged on the double door 301, the double door 301 is opened through the handle, the maintenance of the internal parts of the bearing table 1 is facilitated, a connecting plate 302 is fixedly arranged on the inner side wall of the bearing table 1, a first hydraulic cylinder 303 is fixedly arranged at the bottom of the connecting plate 302, the input end of the first hydraulic cylinder 303 is connected with a power supply through an external cable, a trapezoid fixing block 304 is fixedly arranged at the top of the connecting plate 302 by penetrating through the output end of the first hydraulic cylinder 303, T-shaped sliding strips 305 are fixedly arranged on two oblique sides of the trapezoid fixing block 304, sliding blocks 306 are slidably connected to the outer surfaces of the two T-shaped sliding strips 305, T-shaped sliding grooves 307 are formed in the bottoms of the two sliding blocks 306, a limiting sliding groove 308 is formed in the top of the bearing table 1, clamping plates 309 are fixedly mounted on the tops of two sliding blocks 306, vertical plates 310 are fixedly mounted on two symmetrical sides of the top of a connecting plate 302, moving grooves 311 are formed in the inner sides of the tops of the two vertical plates 310, sliding blocks 312 are fixedly mounted on the two sides of the two sliding blocks 306, a bearing structure can be effectively clamped and fixed through the arranged fixing assembly 300, when the bearing structure is required to be clamped and fixed, the bearing structure is placed between the two clamping plates 309, then a first hydraulic cylinder 303 is started to drive a trapezoid fixing block 304 to move upwards, T-shaped sliding strips 305 on the two sides of the trapezoid fixing block 304 move along corresponding T-shaped sliding grooves 307, so that the two sliding blocks 306 are pushed to do relative motion, the two sliding blocks 306 are driven to do relative motion, and the bearing structure is effectively clamped and fixed.

Embodiment two:

referring to fig. 1-5, the present embodiment provides a technical solution based on the first embodiment: the bearing inspection assembly 200 comprises a second hydraulic cylinder 201 fixedly arranged at the top of the U-shaped bracket 4, the input end of the second hydraulic cylinder 201 is connected with a power supply through an external cable, the output end of the second hydraulic cylinder 201 penetrates through the bottom of the U-shaped bracket 4 and is fixedly provided with a detection plate 202, two symmetrical sides of the top of the detection plate 202 are fixedly provided with telescopic sleeve rods 203, the other ends of the telescopic sleeve rods 203 are fixedly arranged at the bottom wall of the U-shaped bracket 4, the bottom of the detection plate 202 is fixedly provided with a detector body 204, the detector body 204 is used for detecting the bearing capacity of a bearing structure, the bearing capacity of the bearing structure can be effectively detected through the arranged bearing inspection assembly 200, when the bearing capacity of the bearing structure is required to be detected, the detection plate 202 is driven to move towards the bearing structure through starting the second hydraulic cylinder 201, then the bearing capacity of the bearing structure is detected through the detector body 204, the moving assembly 100 comprises a third hydraulic cylinder 101 fixedly arranged on the top wall of the driving groove 3, the input end of the third hydraulic cylinder 101 is connected with a power supply through an external cable, the output end of the third hydraulic cylinder 101 is fixedly provided with a supporting plate 102, four corners of the bottom of the supporting plate 102 are fixedly provided with universal wheels 103, the universal wheels 103 are convenient for moving the device, the device can be effectively moved through the arranged moving assembly 100, when the device needs to be moved, the third hydraulic cylinder 101 is started to drive the universal wheels 103 under the supporting plate 102 to move downwards until the universal wheels 103 contact the ground, thereby the device is moved, the bottom of a sliding block 306 is attached to the hypotenuse of a trapezoid fixed block 304, the sliding block 306 is matched with a T-shaped sliding groove 307, the sliding block 312 is matched with a moving groove 311, the top of a clamping plate 309 penetrates to the top of a bearing table 1 through a limiting sliding groove 308, the surface of the clamping plate 309 is provided with rubber anti-skid protrusions 5, the rubber anti-slip bump 5 can effectively prevent the displacement of the bearing structure in the clamping process of the clamping plate 309, and the display 6 is fixedly arranged on one side of the bearing table 1, so that the detector body 204 is electrically connected with the display 6.

And all that is not described in detail in this specification is well known to those skilled in the art.

When the device works, the third hydraulic cylinder 101 is started to drive the universal wheel 103 under the supporting plate 102 to move downwards until the universal wheel 103 contacts the ground, the device is moved to a working place, then a bearing structure needing to be detected is placed between the two clamping plates 309, then the first hydraulic cylinder 303 is started to drive the trapezoid fixing block 304 to move upwards, the T-shaped sliding strips 305 on two sides of the trapezoid fixing block 304 move along the corresponding T-shaped sliding grooves 307, so that the two sliding blocks 306 are pushed to move relatively, the two sliding blocks 306 drive the clamping plates 309 to move relatively, the bearing structure is clamped and fixed effectively, then the second hydraulic cylinder 201 is started to drive the detection plate 202 to move towards the bearing structure, the bearing force of the bearing structure is detected through the detector body 204, and the detected data are conveyed into the display 6 through the detector body 204.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. Inspection device for building load-bearing structures, comprising a load-bearing table (1), characterized in that: the device comprises a bearing table (1), wherein supporting seats (2) are fixedly arranged on two symmetrical sides of the bottom of the bearing table (1), a driving groove (3) is formed in the middle of the bottom of the bearing table (1), a moving assembly (100) which is convenient for moving the device is arranged in the driving groove (3), a U-shaped support (4) is fixedly arranged at the top of the bearing table (1), a bearing checking assembly (200) is arranged at the top of the U-shaped support (4), and a fixing assembly (300) which is convenient for clamping a bearing structure is arranged on the bearing table (1);

the utility model provides a fixed subassembly (300) is including opening door (301) in the two of bearing platform (1) one side through hinged joint, bearing platform (1) inside wall fixed mounting has connecting plate (302), connecting plate (302) bottom fixed mounting has first hydraulic cylinder (303), first hydraulic cylinder (303) output runs through to connecting plate (302) top fixed mounting has trapezoidal fixed block (304), fixed mounting has T type draw runner (305) on two hypotenuses of trapezoidal fixed block (304), two equal sliding connection of T type draw runner (305) surface has slider (306), two T type spout (307) have all been seted up to slider (306) bottom, spacing spout (308) have been seted up at bearing platform (1) top, two equal fixed mounting in slider (306) top has grip block (309), connecting plate (302) top symmetry both sides fixed mounting has riser (310), two moving groove (311) have all been seted up to inboard in riser (310) top, two slider (306) both sides are fixed mounting.

2. An inspection device for a building load bearing structure according to claim 1, wherein: the bearing inspection assembly (200) comprises a second hydraulic cylinder (201) fixedly installed at the top of the U-shaped support (4), a detection plate (202) is fixedly installed at the bottom of the U-shaped support (4) in a penetrating mode at the output end of the second hydraulic cylinder (201), telescopic loop bars (203) are fixedly installed at two symmetrical sides of the top of the detection plate (202), the other end of each telescopic loop bar (203) is fixedly installed at the bottom wall of the U-shaped support (4), and a detector body (204) is fixedly installed at the bottom of the detection plate (202).

3. An inspection device for a building load bearing structure according to claim 1, wherein: the movable assembly (100) comprises a third hydraulic cylinder (101) fixedly arranged on the top wall of the driving groove (3), a supporting plate (102) is fixedly arranged at the output end of the third hydraulic cylinder (101), and universal wheels (103) are fixedly arranged at four corners of the bottom of the supporting plate (102).

4. An inspection device for a building load bearing structure according to claim 1, wherein: the bottom of the sliding block (306) is attached to the inclined edge of the trapezoid fixed block (304), the sliding block (306) is matched with the T-shaped sliding groove (307), and the sliding block (312) is matched with the moving groove (311).

5. An inspection device for a building load bearing structure according to claim 1, wherein: the top of the clamping plate (309) penetrates through the limit chute (308) to the top of the bearing table (1), and rubber anti-slip protrusions (5) are arranged on the surface of the clamping plate (309).

6. An inspection device for a building load bearing structure according to claim 1, wherein: one side of the bearing table (1) is fixedly provided with a display (6), and the detector body (204) is electrically connected with the display (6).