CN220167924U

CN220167924U - Bored concrete pile pore-forming quality detection mechanism

Info

Publication number: CN220167924U
Application number: CN202321133261.1U
Authority: CN
Inventors: 潘增华; 张文卫; 岑泽维
Original assignee: Zhejiang Mingao Engineering Testing Co ltd
Current assignee: Zhejiang Mingao Engineering Testing Co ltd
Priority date: 2023-05-11
Filing date: 2023-05-11
Publication date: 2023-12-12
Anticipated expiration: 2033-05-11

Abstract

The utility model provides a bored concrete pile pore-forming quality detection mechanism, and belongs to the technical field of bored concrete pile pore-forming. This kind of bored concrete pile pore-forming quality detection mechanism, including the fixed plate, a plurality of support columns are installed to the bottom slope of fixed plate, the motor is installed to outside one side of fixed plate, and the inside both sides of fixed plate all are equipped with the spout, the internally mounted of a pair of spout has the regulation pole, and with the inner wall interconnect of spout, the output and the regulation pole transmission of motor are connected, the outside center department cover of regulation pole is equipped with the spacing ring, and a pair of grip block is half arc, the bottom center department of fixed plate is equipped with collection mechanism, and collection mechanism includes the collecting box, the bottom of fixed plate is equipped with detection mechanism in one side of collection mechanism, and detection mechanism includes the threading piece, through collection mechanism, can clear up the inside cement stone of pore-forming, improve the quality testing result to the pore-forming, simultaneously through detection mechanism, be convenient for carry out quality testing to the pore-forming inside.

Description

Bored concrete pile pore-forming quality detection mechanism

Technical Field

The utility model relates to the technical field of bored pile pore-forming, in particular to a bored pile pore-forming quality detection mechanism.

Background

The construction method of the bored pile comprises the following steps: leveling a field, preparing slurry, burying a pile casing, paving a working platform, installing a drilling machine and positioning, drilling a hole, cleaning the hole and checking the quality of the hole, lowering a reinforcement cage, pouring underwater concrete, pulling out the pile casing and checking the quality. The depth, diameter, position and shape of the drilled holes are directly related to pile forming quality and pile body curvature. For this reason, in addition to close observation and supervision during drilling, after the drilling reaches the design required depth, the hole depth, hole position, hole shape, aperture and the like should be checked.

After the bored concrete pile is drilled, a plurality of cement stones can remain in the drilled hole, so that staff is inconvenient to clean, and when the detector is placed in the drilled hole, the detection result of the detector on the inner wall of the drilled hole is easily influenced.

Disclosure of Invention

In order to make up for the defects, the utility model provides a bored pile pore-forming quality detection mechanism.

The utility model is realized in the following way:

the utility model provides a bored concrete pile pore-forming quality detection mechanism, includes the fixed plate, a plurality of support columns are installed to the bottom slope of fixed plate, the motor is installed to outside one side of fixed plate, just the inside both sides of fixed plate all are equipped with the spout, a pair of internally mounted of spout has the regulation pole, just the one end of adjusting the pole runs through the spout to with the inner wall interconnect of spout, the output and the regulation pole transmission of motor are connected, the outside center department cover of adjusting the pole is equipped with the spacing ring, just the outside of adjusting the pole is equipped with a pair of slide bar in the inside cover of a pair of spout, a pair of the bottom of slide bar all is connected with the grip block, and a pair of the grip block is half arc, the bottom center department of fixed plate is equipped with collection mechanism, just collection mechanism includes the collecting box, the bottom of fixed plate is equipped with detection mechanism in one side of collection mechanism, just detection mechanism includes the threading piece.

Further, the top of fixed plate is in keeping away from the one side of motor and installs the installation pole, just the outside cover of installation pole is equipped with the rotation handle, the internally mounted of fixed plate has first dwang, just installation pole and first dwang interconnect, the one end cover of first dwang is equipped with drive bevel gear.

The beneficial effect of adopting above-mentioned further scheme is, through installing the rotation handle, can drive first dwang and rotate.

Further, the top of collecting box is connected with the sleeve, just telescopic inside threaded connection has the second dwang, the top cover of second dwang is equipped with driven bevel gear, just driving bevel gear and driven bevel gear intermeshing, the bottom of second dwang runs through the collecting box to extend to the bottom.

The beneficial effect of adopting above-mentioned further scheme is, through being equipped with the second dwang, and the outside of second dwang is equipped with rotor blade, can carry the outside of pore-forming to the cement stone in the pore-forming, the detector of being convenient for detects.

Further, a collecting tank is arranged in the collecting box, one side of the collecting box is hinged with a box door through a hinge, a handle is arranged on one side of the box door, and slots are formed in the collecting box and are formed in two sides, close to the box door, of the collecting box.

Further, the outside both sides of chamber door all are connected with the inserted block, just inserted block and slot mutual block, a pair of one side of inserted block all is connected with a pair of spring, a pair of the one end of spring all is connected with the briquetting, the briquetting is laminated with the outside of collecting box each other.

The beneficial effect of adopting above-mentioned further scheme is, through being equipped with the spring, can remove and fix the briquetting, open and close the chamber door.

Further, the connecting plate is installed at one side of the collecting box to the bottom of the fixed plate, and first connecting blocks are installed at two sides of the bottom of the connecting plate, a winding rod is inserted between the first connecting blocks, and winding ropes are sleeved outside the winding rod.

The adoption of the further scheme has the beneficial effects that the winding rope is arranged, so that the detector can be lengthened and shortened, and the hole forming is conveniently detected.

Further, a pair of second connecting blocks are arranged at the bottom of the connecting plate at two sides far away from the first connecting blocks, a pair of connecting rods are connected between the second connecting blocks, and threading blocks are arranged outside the connecting rods.

The winding rope has the beneficial effects that the winding rope can be guided by installing the threading block, so that the winding rope is prevented from knotting.

Further, one end of the winding rod penetrates through one of the first connecting blocks and is sleeved with a rotating block, and one end of the winding rope penetrates through the threading block and is connected with a detector.

The beneficial effects of the utility model are as follows: according to the bored pile pore-forming quality detection mechanism obtained through the design, after the bored pile is drilled, pore-forming quality is required to be detected, a pair of clamping block sleeves are arranged outside the bored pile, then a motor is started, an adjusting rod is rotated, a pair of reverse threads are arranged on two sides of a limiting ring on the outer side of the adjusting rod, a pair of sliding rods are driven to move on the adjusting rod, a pair of clamping blocks are moved, the outer side of the bored pile is clamped, then a worker rotates a handle, a mounting rod drives a first rotating rod to rotate, a driving bevel gear and a driven bevel gear are driven to rotate, a second rotating rod is driven to rotate in the sleeve, the second rotating rod extends to the inside of a pore-forming, then the handle is reversely rotated, the second rotating rod moves downwards, a rotating blade is arranged on the outer side of the second rotating rod, a cement stone block in the pore-forming is conveyed to the outside of the pore-forming, the cement stone block is stopped when the cement stone block falls into a collecting box, then the rotating block, the rolling rod is rotated, the rolling rod is stretched, the rolling rope is filled with the collecting rope and the pore-forming quality is placed in the collecting box, the cement block is simultaneously, and the cement pressing blocks are separated from the cement pressing blocks by pulling the sleeve, and the cement pressing block is simultaneously, and the cement pressing block is separated by the worker and the elastic pressing block.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed to be practical in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some examples of the present utility model and therefore should not be considered as limiting the scope, and that other related drawings can be obtained according to these drawings without the inventive effort of a person skilled in the art.

Fig. 1 is a schematic perspective view of a bored pile hole quality detection mechanism according to the present utility model;

fig. 2 is a schematic perspective view of a collection box of a bored pile hole quality detection mechanism provided by the utility model;

fig. 3 is a schematic diagram of a door perspective structure of a bored pile hole quality detection mechanism according to the present utility model;

fig. 4 is a schematic perspective view of a connecting plate of a bored pile hole quality detection mechanism according to the present utility model;

fig. 5 is a schematic perspective view of a clamping block of a bored pile hole quality detection mechanism according to the present utility model.

In the figure: 1001. a fixing plate; 1002. a support column; 1003. a motor; 1004. an adjusting rod; 1005. a limiting ring; 1006. a slide bar; 1007. a clamping block; 2001. a mounting rod; 2002. rotating the handle; 2003. a first rotating lever; 2004. a drive bevel gear; 2005. a driven bevel gear; 2006. a sleeve; 2007. a collection box; 2008. a second rotating lever; 2009. a door; 2010. a handle; 2011. a slot; 2012. inserting blocks; 2013. a spring; 2014. briquetting; 3001. a connecting plate; 3002. a first connection block; 3003. a winding rod; 3004. a rotating block; 3005. a second connection block; 3006. a connecting rod; 3007. a threading block; 3008. winding the rope; 3009. and a detector.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are some embodiments of the present utility model, but not all embodiments. All other embodiments, based on the embodiments of the utility model, which are apparent to those of ordinary skill in the art without inventive faculty, are intended to be within the scope of the utility model.

Thus, the following detailed description of the embodiments of the utility model, as presented in the figures, is not intended to limit the scope of the utility model, as claimed, but is merely representative of selected embodiments of the utility model. All other embodiments, based on the embodiments of the utility model, which are apparent to those of ordinary skill in the art without inventive faculty, are intended to be within the scope of the utility model.

The utility model relates to an embodiment I of a bored pile pore-forming quality detection mechanism

The utility model provides the following technical scheme: referring to fig. 1, 2 and 3, the device comprises a fixing plate 1001, a plurality of support columns 1002 are obliquely installed at the bottom of the fixing plate 1001, a motor 1003 is installed at one side of the outside of the fixing plate 1001, sliding grooves are formed in two sides of the inside of the fixing plate 1001, a pair of adjusting rods 1004 are installed in the inside of the sliding grooves, one ends of the adjusting rods 1004 penetrate through the sliding grooves and are mutually connected with the inner walls of the sliding grooves, the output end of the motor 1003 is in transmission connection with the adjusting rods 1004, a limiting ring 1005 is sleeved at the center of the outside of the adjusting rods 1004, a pair of sliding rods 1006 are sleeved at the inside of the sliding grooves, clamping blocks 1007 are connected at the bottom ends of the sliding rods 1006, the clamping blocks 1007 are in a half arc shape, a collecting mechanism is arranged at the center of the bottom of the fixing plate 1001, and comprises a collecting box 2007, the bottom of the fixed plate 1001 is provided with a detection mechanism at one side of the collecting mechanism, the detection mechanism comprises a threading block 3007, the top of the fixed plate 1001 is provided with a mounting rod 2001 at one side far away from the motor 1003, the outside of the mounting rod 2001 is sleeved with a rotating handle 2002, the inside of the fixed plate 1001 is provided with a first rotating rod 2003, the mounting rod 2001 is mutually connected with the first rotating rod 2003, one end of the first rotating rod 2003 is sleeved with a driving bevel gear 2004, the top of the collecting box 2007 is connected with a sleeve 2006, the inside of the sleeve 2006 is in threaded connection with a second rotating rod 2008, the top of the second rotating rod 2008 is sleeved with a driven bevel gear 2005, the driving bevel gear 2004 is mutually meshed with the driven bevel gear 2005, the bottom of the second rotating rod 2008 penetrates through the collecting box 2007 and extends to the bottom, the inside of the collecting box 2007 is provided with a collecting groove, and the chamber door 2009 is articulated through the hinge to one side of collection box 2007, the handle 2010 is installed to one side of chamber door 2009, just the inside of collection box 2007 all is equipped with slot 2011 in the both sides that are close to chamber door 2009, the outside both sides of chamber door 2009 all are connected with the inserted block 2012, just the inserted block 2012 and slot 2011 block each other, and one side of a pair of inserted block 2012 all is connected with a pair of spring 2013, and one end of a pair of spring 2013 all is connected with briquetting 2014, briquetting 2014 laminates each other with the outside of collection box 2007, through installing the rotation handle 2002, can drive first dwang 2003 and rotate, through being equipped with second dwang 2008, and the outside of second dwang 2008 is equipped with turning vane, can carry the cement stone in the pore-forming outside, and be convenient for detect the detector 3009, can remove and fix briquetting 2014, opens and closes the chamber door 2009 through being equipped with spring 2013.

The utility model relates to a second embodiment of a bored pile pore-forming quality detection mechanism

Referring to fig. 4 and 5, specifically, a connecting plate 3001 is installed at the bottom of the fixing plate 1001 at one side of the collecting box 2007, a first connecting block 3002 is installed at two sides of the bottom of the connecting plate 3001, a winding rod 3003 is inserted between the first connecting blocks 3002, a winding rope 3008 is sleeved outside the winding rod 3003, a pair of second connecting blocks 3005 are installed at two sides far away from the first connecting blocks 3002 at the bottom of the connecting plate 3001, a pair of connecting rods 3006 are connected between the second connecting blocks 3005, a threading block 3007 is installed outside the connecting rods 3006, one end of the winding rod 3003 penetrates one of the first connecting blocks 3002 and is sleeved with a rotating block 3004, one end of the winding rope 3008 penetrates through the threading block 3007 and is connected with a detector 3009, the detector 3009 can be stretched and shortened by installing the winding rope 3008, the hole is convenient to detect, and the winding rope 3008 can be guided to prevent the knot from occurring by installing the threading block 3007.

Specifically, the working principle of the bored pile pore-forming quality detection mechanism is as follows: when the bored pile is used, after the bored pile is drilled, the quality of the hole is required to be detected, a pair of clamping blocks 1007 are sleeved outside the bored pile, then a motor 1003 is started, an adjusting rod 1004 is enabled to rotate, a pair of reverse threads are arranged on two sides of a limiting ring 1005 outside the adjusting rod 1004, a pair of sliding rods 1006 are driven to move on the adjusting rod 1004, a pair of clamping blocks 1007 are enabled to move, the exterior of the bored pile is clamped, then a worker rotates a handle 2002, a mounting rod 2001 drives a first rotating rod 2003 to rotate, so that a driving bevel gear 2004 and a driven bevel gear 2005 rotate, a second rotating rod 2008 rotates in the sleeve 2006, the second rotating rod 2008 extends to the interior of the hole, then the handle 2002 is reversely rotated, the second rotating rod 2008 moves downwards, a rotating blade is arranged outside the second rotating rod 2008, during rotation, cement stones inside the hole are conveyed to the exterior of the hole, the cement blocks are stopped when moving into a collecting box 2007, the cement stones fall in the collecting groove, then the rotating block 3004 is enabled to rotate, a winding rod 3003 rotates, a rope 3008 is enabled to stretch, the rope 3008 and the inside the hole is enabled to be stretched, the cement blocks are placed inside the detecting rope and the detecting rope is enabled to be separated, and the two blocks are enabled to be separated, and the cement blocks are placed inside the box 2014, and the box is enabled to be separated, and the inside the cement box is enabled to be cleaned, and the box is enabled to be the inside the box is easy to be separated, and the box is easy, and the inside is easy to be easy, and the is easy to be opened.

It should be noted that, a specific model specification of the motor 1003 of the bored pile hole quality detection mechanism needs to be determined by selecting a model according to an actual specification of the device, etc., and a specific model selection calculation method adopts the prior art in the field, so that detailed description is omitted.

The power supply of the bored concrete pile hole quality detection mechanism motor 1003 and its principles will be apparent to those skilled in the art and will not be described in detail herein.

The above description is only of the preferred embodiments of the present utility model and is not intended to limit the present utility model, and various modifications and variations may be made to the present utility model by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims

1. A bored pile pore-forming quality detection mechanism is characterized by comprising a fixed plate (1001),

the bottom slope of fixed plate (1001) is installed a plurality of support columns (1002), motor (1003) are installed to outside one side of fixed plate (1001), just the inside both sides of fixed plate (1001) all are equipped with the spout, a pair of internally mounted of spout has regulation pole (1004), just the one end of adjusting pole (1004) runs through the spout to with the inner wall interconnect of spout, the output and the regulation pole (1004) transmission of motor (1003) are connected, the outside center department cover of adjusting pole (1004) is equipped with spacing ring (1005), just the outside of adjusting pole (1004) is equipped with a pair of slide bar (1006) in the inside cover of a pair of spout, a pair of the bottom of slide bar (1006) all is connected with grip block (1007), and a pair of grip block (1007) are half arc, the bottom center department of fixed plate (1001) is equipped with collection mechanism, just collection mechanism includes collection box (2007), the bottom of fixed plate (1001) is equipped with detection mechanism in one side of collection mechanism, just detection mechanism includes threading piece (3007).

2. The bored pile hole quality detection mechanism according to claim 1, wherein a mounting rod (2001) is mounted on the top of the fixing plate (1001) at a side far away from the motor (1003), a rotating handle (2002) is sleeved outside the mounting rod (2001), a first rotating rod (2003) is mounted inside the fixing plate (1001), the mounting rod (2001) is connected with the first rotating rod (2003), and a drive bevel gear (2004) is sleeved at one end of the first rotating rod (2003).

3. The bored pile hole quality detection mechanism according to claim 2, wherein a sleeve (2006) is connected to the top of the collection box (2007), a second rotating rod (2008) is connected to the inner thread of the sleeve (2006), a driven bevel gear (2005) is sleeved on the top end of the second rotating rod (2008), the driving bevel gear (2004) is meshed with the driven bevel gear (2005), and the bottom end of the second rotating rod (2008) penetrates through the collection box (2007) and extends to the bottom.

4. The bored pile hole quality detection mechanism according to claim 1, wherein a collecting tank is provided inside the collecting tank (2007), a tank door (2009) is hinged to one side of the collecting tank (2007) through a hinge, a handle (2010) is mounted to one side of the tank door (2009), and slots (2011) are provided inside the collecting tank (2007) on both sides close to the tank door (2009).

5. The bored pile hole quality detection mechanism according to claim 4, wherein the two sides of the outer portion of the box door (2009) are respectively connected with an insert block (2012), the insert blocks (2012) and the slots (2011) are mutually clamped, one sides of the pair of insert blocks (2012) are respectively connected with a pair of springs (2013), one ends of the pair of springs (2013) are respectively connected with a pressing block (2014), and the pressing blocks (2014) are mutually attached to the outer portion of the collecting box (2007).

6. The bored pile hole quality detection mechanism according to claim 1, wherein a connecting plate (3001) is installed at one side of a collecting box (2007) at the bottom of the fixing plate (1001), first connecting blocks (3002) are installed at two sides of the bottom of the connecting plate (3001), a winding rod (3003) is inserted between a pair of the first connecting blocks (3002), and a winding rope (3008) is sleeved outside the winding rod (3003).

7. The bored pile hole quality detection mechanism according to claim 6, wherein a pair of second connection blocks (3005) are mounted at both sides of the bottom of the connection plate (3001) away from the first connection block (3002), a pair of connection rods (3006) are connected between the pair of second connection blocks (3005), and threading blocks (3007) are mounted outside the pair of connection rods (3006).

8. The bored pile hole quality detection mechanism according to claim 7, wherein one end of the winding rod (3003) penetrates through one of the first connecting blocks (3002) and is sleeved with a rotating block (3004), and one end of the winding rope (3008) penetrates through the threading block (3007) and is connected with a detector (3009).