CN113734954A - Bored concrete pile steel reinforcement cage hoist and mount auxiliary device of stress point can quick adjustment - Google Patents

Abstract

The invention relates to the technical field of reinforcement pouring, in particular to a pouring pile reinforcement cage hoisting auxiliary device capable of quickly adjusting stress points, which comprises a hoisting structure, wherein the hoisting structure is connected with an adjusting structure for adjusting the stress points of a reinforcement cage, the hoisting structure is connected with a driving structure for driving the adjusting structure to work, the hoisting structure is connected with a pulling structure for arranging and adjusting structural components, the hoisting structure is connected with a cleaning structure, and the adjusting structure is connected with a fixing structure; hoisting structure is convenient for hoist the steel reinforcement cage through hoisting structure, can change the stress point of steel reinforcement cage through adjusting the structure, conveniently control adjusting the structure through drive structure to the rapid change tilt state, conveniently accomodate adjusting the structure through the pulling structure, can make debris such as the cement piece of adjusting the structural adhesion intercept the clearance through clearance structure, conveniently fix the steel reinforcement cage fast through fixed knot structure, thereby conveniently hoist the steel reinforcement cage.

Description

Bored concrete pile steel reinforcement cage hoist and mount auxiliary device of stress point can quick adjustment

Technical Field

The invention relates to the technical field of steel bar pouring, in particular to a pouring pile reinforcement cage hoisting auxiliary device capable of quickly adjusting stress points.

Background

When the building construction, through the reinforcing bar fill can consolidate the fastness and the support capacity of building, establish the bored concrete pile as required when building the ground, can make the building more firm through the bored concrete pile, put into the filling tank with the steel reinforcement cage in, add the muddy earth in the filling tank, just make the bored concrete pile, can utilize the hoist to put into when putting into the filling tank with the steel reinforcement cage.

At present, when putting into the filling tank with the steel reinforcement cage inside, through the stay cord with the steel reinforcement cage hoist, the steel reinforcement cage can lead to the steel reinforcement cage to take place the slope because the stay cord both ends length of hoisting is different, steel reinforcement cage self focus shakiness, the steel reinforcement cage of slope is not convenient for place in the inside of filling tank, the length of stay cord can not automatically regulated, the steel reinforcement cage stress point is not convenient for control, needs the manual work to right, the operation process degree of difficulty is big, inefficiency.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a cast-in-place pile reinforcement cage hoisting auxiliary device capable of quickly adjusting stress points.

The technical scheme adopted by the invention for solving the technical problems is as follows: the utility model provides a bored concrete pile steel reinforcement cage hoist and mount auxiliary device that can quick adjustment stress point, includes hoisting structure, hoisting structure is connected with the regulation structure that is used for adjusting steel reinforcement cage stress point, hoisting structure is connected with the drive structure that is used for the drive to adjust the structure work, hoisting structure is connected with the pulling structure that is used for arranging the regulation structure subassembly, hoisting structure is connected with the clearance structure that is used for clearing up the regulation structure subassembly, it is connected with the fixed knot who is used for going on fixing to the steel reinforcement cage to adjust the structure.

Specifically, hoisting structure includes the main part, the top of main part is rotated and is connected with rings, the bottom of main part is equipped with two pairs of standing grooves, the bottom of main part is located the standing groove and is crossed the individual fixed column of fixedly connected with, and two pairs of the standing groove is "ten" font and arranges, the bottom of main part is the cake form.

The adjusting structure comprises an adjusting wheel, the main body is connected with a pair of adjusting wheels in a rotating mode, the adjusting wheels are wound with pull ropes, the two sides of the main body, which are located on the pair of adjusting wheels, are connected with rotating wheels in a rotating mode, the two ends of the pull ropes are wound with the adjusting wheels, one ends of the main body, which are close to the adjusting wheels, are connected with turning wheels in a rotating mode, the two ends of the pull ropes are wound with the turning wheels, the adjusting wheels are arranged vertically in the vertical direction in a rotating mode, the rotating wheels are arranged in a cross mode, and the turning wheels are arranged in a cross mode.

Specifically, the drive structure includes the worm wheel, the main part rotates and is connected with a pair of worm wheel, and is a pair of the worm wheel respectively with a pair of regulating wheel through pivot fixed connection, the main part is close to the one end of a pair of worm wheel and all rotates and is connected with the worm, and is a pair of the worm respectively with a pair of worm wheel intermeshing, a pair of motor, a pair of the output of motor is respectively with a pair of worm fixed connection.

Specifically, the pulling structure includes the spout, the one end that the main part is close to in the diversion wheel all is equipped with the spout, there is the fixed plate main part through spout sliding connection, fixedly connected with spring between fixed plate and the main part, the one end of fixed plate is rotated and is connected with the pulley, pulley and rotation wheel, diversion wheel between one section stay cord winding.

Specifically, the clearance structure is including adjusting the post, the one end that the main part was close to in the diversion wheel all is equipped with the regulation post, a pair of rotation post of side fixedly connected with of regulation post, the one end that the main part was close to in the regulation post all is equipped with and turns to the groove, it is through turning to groove and main part sliding connection to rotate the post, the both ends of stay cord all cup joint with the rotation post, rotate post one end fixedly connected with clearance piece, clearance piece and stay cord sliding connection.

Specifically, fixed knot constructs including the fixed block, the end of stay cord runs through in the fixed block and contradicts with the fixed block, the one end fixedly connected with fixture block of fixed block, the fixed column has the carrier block through fixture block sliding connection, the inside rotation groove that is equipped with of carrier block, the fixture block rotates through rotation groove and fixed block to be connected, the equal threaded connection in both sides of fixed block has the bolt, bolt one end stretches into and rotates groove and fixture block conflict, the bottom fixedly connected with drag hook of fixed block, drag hook and fixed column conflict, the fixture block is "L" shape, the degree of depth that rotates the groove is greater than fixture block "L" shape bottom thickness.

The invention has the beneficial effects that:

(1) the cast-in-place pile reinforcement cage hoisting auxiliary device capable of quickly adjusting stress points comprises a hoisting structure, wherein the hoisting structure is convenient for hoisting a reinforcement cage, so that the reinforcement cage is conveniently placed in a cast-in-place trough, namely: when hanging steel reinforcement cage into the inside of pouring tank, at first embolia the lifting hook of hoist with rings on, hoist lifting hook, lifting hook will hoist the main part through rings to pull out the drag hook in two pairs of standing grooves of main part bottom, with four drag hooks to steel reinforcement cage on four angles, will hoist steel reinforcement cage during the lifting main part, alright remove steel reinforcement cage to the top of pouring tank, and put into the inside of pouring tank with steel reinforcement cage.

(2) The cast-in-place pile reinforcement cage hoisting auxiliary device capable of quickly adjusting the stress point is characterized in that the hoisting structure is connected with an adjusting structure for adjusting the stress point of the reinforcement cage, the hoisting structure is connected with a driving structure for driving the adjusting structure to work, the stress point of the reinforcement cage can be changed through the adjusting structure, so that the inclination angle of the reinforcement cage can be quickly adjusted, the reinforcement cage can be conveniently and stably placed into a cast-in-place trough, the adjusting structure can be conveniently controlled through the driving structure, and the inclination state can be quickly changed, namely: when the reinforcement cage is placed in the pouring groove, the reinforcement cage can incline due to different lengths of two ends of a lifted stay cord and unstable gravity center of the reinforcement cage, the inclined reinforcement cage is inconvenient to place in the pouring groove, the stress point of the reinforcement cage needs to be controlled by adjusting the length of the stay cord, so that the reinforcement cage is in a vertical state, a pair of motors are started, a pair of worms can be driven to rotate forwards and backwards by controlling the forward rotation and the reverse rotation of the motors, the worms can drive a worm wheel to rotate forwards and backwards, so as to drive a pair of adjusting wheels to rotate forwards and backwards, when the pair of adjusting wheels rotate forwards and backwards, a pair of stay cords can be driven to move towards one end, so that the length of the two ends of the stay cord reaching the reinforcement cage is changed, so that the state of the reinforcement cage is corrected, when the adjusting wheels rotate, the distances from the two ends of the stay cord to the adjusting wheels can be driven to change, the stay cord is wound with the rotating wheels, and the damage of the stay cord due to friction between the stay cord and a main body is avoided, the bottom and the diversion wheel winding of stay cord, to the steel reinforcement cage of different diameters when hoisting, the contained angle at stay cord both ends is also different, can still can not rub with the main part when the stay cord angle is less through the diversion wheel to the life of extension stay cord.

(3) The invention relates to a cast-in-place pile reinforcement cage hoisting auxiliary device capable of quickly adjusting stress points, which is characterized in that a hoisting structure is connected with a pulling structure for arranging and adjusting structural components, the hoisting structure is connected with a cleaning structure for cleaning the adjusting structural components, the adjusting structure is connected with a fixing structure for fixing a reinforcement cage, the adjusting structure is conveniently stored through the pulling structure, sundries such as cement blocks adhered to the adjusting structure can be intercepted and cleaned through the cleaning structure, and the reinforcement cage is conveniently and quickly fixed through the fixing structure, so that the reinforcement cage is conveniently hoisted, namely: when the steel reinforcement cage is hooked by the draw hook, the lengths of the two ends of the draw rope are possibly smaller than the caliber of the steel reinforcement cage, the draw hook is pulled to draw the draw rope out of the main body at the moment, the draw rope drives the turning wheel to rotate, the draw rope drives the pulley to move along the chute and simultaneously drives the pulley to rotate, the spring is stretched, so that the draw hook can be hooked on the steel reinforcement cage, after the steel reinforcement cage is placed in the pouring groove, the draw hook is separated from the steel reinforcement cage, the spring can move and reset the pulling pulley, so that a part of the draw rope is taken in the main body, the draw rope is convenient to take in, the problem that the draw rope is long and is inconvenient to take in and arrange after the device is used is avoided, meanwhile, the draw rope can be pulled out to adapt to the steel reinforcement cage with a larger caliber, the lengths of the two ends of the pair of the draw rope are the same by starting a pair of motors, when the draw rope is taken in the main body by the pulley, one end of the draw rope is slidably connected with the arranging block, the cleaning block can intercept sundries such as cement blocks on the pull rope, the cleanliness of the pull rope is ensured, internal components are prevented from being damaged, the cleaning block is fixedly connected with the adjusting column, the adjusting column is sleeved with the pull rope, when the pull rope is suitable for steel reinforcement cages with different calibers, the pull rope can rotate around the turning wheel, the adjusting column rotates with the main body under the action of the turning groove through the rotating column, so that the cleaning block can still clean the pull rope when the pull rope rotates, when the pull hook is damaged, the pair of bolts are rotated to separate the bolts from the turning groove, then the fixing block is rotated to drive the clamping block to rotate, the clamping block can be pulled to separate the clamping block from the turning groove, so that the fixing block can be separated from the bearing block, the bearing block and the pull hook can be replaced, after a new pull hook and a new bearing block are replaced, the fixing block is inserted into the turning groove through the clamping block, the bearing block is rotated, and the bolts are tightened, make bolt and fixture block conflict to accomplish the quick replacement to the drag hook, the back of having used, the pulling drag hook is contradicted with the fixed column, thereby be convenient for accomodating of drag hook and stay cord.

Drawings

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic diagram showing the overall structure of a preferred embodiment of the hoisting auxiliary device for a bored concrete pile cage capable of rapidly adjusting a stress point according to the present invention;

FIG. 2 is a schematic view of a connection structure between the hoisting structure and the adjusting structure shown in FIG. 1;

FIG. 3 is a schematic view of a connection structure between the hoisting structure and the pulling structure shown in FIG. 1;

FIG. 4 is an enlarged view of the part A shown in FIG. 3;

FIG. 5 is a schematic view of a connection structure between the adjustment structure and the cleaning structure shown in FIG. 2;

fig. 6 is a schematic view of a connection structure of the hoisting structure and the driving structure shown in fig. 2;

FIG. 7 is a schematic view of the connection between the worm and the worm wheel shown in FIG. 6;

fig. 8 is a schematic view of a connection structure between the hoisting structure and the fixing structure shown in fig. 2.

In the figure: 1. the lifting structure comprises a lifting structure 11, a main body 12, a lifting ring 13, a fixing column 14, a placing groove 2, an adjusting structure 21, a pull rope 22, an adjusting wheel 23, a rotating wheel 24, a turning wheel 3, a driving structure 31, a worm, 32, a motor 33, a worm wheel 4, a pulling structure 41, a pulley 42, a fixing plate 43, a spring 44, a sliding groove 5, a fixing structure 51, a fixing block 52, a bearing block 53, a drag hook 54, a bolt 55, a clamping block 56, a rotating groove 6, a cleaning structure 61, an adjusting column 62, a steering groove 63, a cleaning block 64 and a rotating column.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1-8, the bored concrete pile reinforcement cage hoisting auxiliary device capable of quickly adjusting stress points according to the present invention includes a hoisting structure 1, the hoisting structure 1 is connected to an adjusting structure 2 for adjusting stress points of a reinforcement cage, the hoisting structure 1 is connected to a driving structure 3 for driving the adjusting structure 2 to work, the hoisting structure 1 is connected to a pulling structure 4 for arranging components of the adjusting structure 2, the hoisting structure 1 is connected to a cleaning structure 6 for cleaning components of the adjusting structure 2, and the adjusting structure 2 is connected to a fixing structure 5 for fixing the reinforcement cage.

Specifically, the hoisting structure 1 comprises a main body 11, the top end of the main body 11 is rotatably connected with a hoisting ring 12, two pairs of placing grooves 14 are arranged at the bottom end of the main body 11, the bottom end of the main body 11 is positioned in the placing grooves 14 and is fixedly connected with fixing columns 13, the two pairs of placing grooves 14 are arranged in a cross shape, and the bottom end of the main body 11 is in a cake shape; when hanging steel reinforcement cage into the inside of filling the groove, at first embolia the lifting hook of hoist with rings 12 on, hoist lifting hook, lifting hook will hoist main part 11 through rings 12, thereby pull out drag hook 53 in two pairs of standing grooves 14 of main part 11 bottom, with four drag hooks 53 on hooking four angles of steel reinforcement cage, will hoist steel reinforcement cage during lifting main part 11, alright remove the top of filling the groove with the steel reinforcement cage, and put into the inside of filling the groove with the steel reinforcement cage.

Specifically, the adjusting structure 2 includes adjusting wheels 22, the main body 11 is rotatably connected with a pair of adjusting wheels 22, a pull rope 21 is wound on each pair of adjusting wheels 22, the main body 11 is rotatably connected with rotating wheels 23 on both sides of the pair of adjusting wheels 22, both ends of the pull rope 21 are wound on the adjusting wheels 22, one end of the main body 11 close to the adjusting wheels 22 is rotatably connected with a direction-changing wheel 24, both ends of the pull rope 21 are wound on the direction-changing wheel 24, the pair of adjusting wheels 22 are vertically arranged in the vertical direction, the two pairs of rotating wheels 23 are arranged in a cross shape, and the two pairs of direction-changing wheels 24 are arranged in a cross shape; when the regulating wheel 22 rotates, will drive the distance that changes 21 both ends of stay cord to regulating wheel 22, stay cord 21 and runner wheel 23 twine, avoid stay cord 21 and main part 11 friction and cause stay cord 21 to damage, the bottom and the diversion wheel 24 of stay cord 21 twine, to the steel reinforcement cage of different diameters when hoisting, the contained angle at 21 both ends of stay cord is also different, can still not rub with main part 11 when 21 angles of stay cord are less through diversion wheel 24 to the life of extension stay cord 21.

Specifically, the driving structure 3 includes a worm wheel 33, the main body 11 is rotatably connected with a pair of worm wheels 33, the pair of worm wheels 33 are respectively and fixedly connected with a pair of adjusting wheels 22 through a rotating shaft, one end of the main body 11 close to the pair of worm wheels 33 is rotatably connected with a worm 31, the pair of worm 31 is respectively and mutually meshed with the pair of worm wheels 33, one end of the main body 11 is provided with a pair of motors 32, and output ends of the pair of motors 32 are respectively and fixedly connected with the pair of worm 31; when putting into the inside of filling tank with the steel reinforcement cage, the steel reinforcement cage can be because the stay cord 21 both ends length of hoisting is different, the steel reinforcement cage self focus is unstable and leads to the steel reinforcement cage to take place the slope, the steel reinforcement cage of slope is not convenient for place in the inside of filling tank, need go to control the steel reinforcement cage stress point through the length of adjusting stay cord 21, thereby make the steel reinforcement cage be in vertical state, start a pair of motor 32, can drive a pair of worm 31 positive and negative rotation through the positive and negative rotation of controlling a pair of motor 32, worm 31 will drive worm wheel 33 positive and negative rotation, thereby drive a pair of regulating wheel 22 positive and negative rotation, when a pair of regulating wheel 22 positive and negative rotation, will drive a pair of stay cord 21 to the motion of one end, thereby change the length that the stay cord 21 both ends reachd the steel reinforcement cage, thereby correct the state of steel reinforcement cage.

Specifically, the pulling structure 4 includes a sliding groove 44, the sliding groove 44 is disposed at one end of the main body 11 close to the direction-changing wheel 24, the main body 11 is slidably connected with a fixed plate 42 through the sliding groove 44, a spring 43 is fixedly connected between the fixed plate 42 and the main body 11, one end of the fixed plate 42 is rotatably connected with a pulley 41, and the pulley 41 is wound with a section of the pull rope 21 between the rotating wheel 23 and the direction-changing wheel 24; when catching on the steel reinforcement cage through drag hook 53, the length at stay cord 21 both ends probably is less than the bore of steel reinforcement cage, pulling drag hook 53 this moment, draw out stay cord 21 from main part 11 is inside, stay cord 21 will drive reverse wheel 24 and rotate, make stay cord 21 move pulley 41 along spout 44, it rotates to drive pulley 41 simultaneously, spring 43 will stretch, thereby alright collude the steel reinforcement cage with drag hook 53 on, put into the inside back that fills the groove at the steel reinforcement cage, break away from drag hook 53 and steel reinforcement cage, spring 43 can move pulley 41 and reset with pulling, thereby income main part 11's inside with partly stay cord 21, thereby be convenient for accomodate stay cord 21, avoid the longer problem of being not convenient for accomodate the arrangement of stay cord 21 after the device uses, stay cord 21 can pull out simultaneously, can adapt to the steel reinforcement cage of great bore.

Specifically, the cleaning structure 6 includes an adjusting column 61, one end of the main body 11 close to the direction-changing wheel 24 is provided with the adjusting column 61, the side surface of the adjusting column 61 is fixedly connected with a pair of rotating columns 64, one end of the main body 11 close to the adjusting column 61 is provided with a steering groove 62, the rotating columns 64 are slidably connected with the main body 11 through the steering groove 62, two ends of the pull rope 21 are sleeved with the rotating columns 64, one end of the rotating columns 64 is fixedly connected with a cleaning block 63, and the cleaning block 63 is slidably connected with the pull rope 21; start a pair of motor 32 and make a pair of stay cord 21 both ends length the same, when stay cord 21 is taken in main part 11 by pulley 41 inside, the one end sliding connection of stay cord 21 has clearance piece 63, clearance piece 63 will make the debris such as the cement piece on the stay cord 21 intercept, thereby guarantee the cleanliness factor of stay cord 21, avoid the inner assembly to damage, clearance piece 63 and regulation post 61 fixed connection, it cup joints to adjust post 61 and stay cord 21, when different bore steel reinforcement cages are adapted to stay cord 21, stay cord 21 will rotate around directive wheel 24, it rotates with main part 11 under the effect that turns to groove 62 through rotating post 64 to adjust post 61, thereby be convenient for when stay cord 21 rotates, clearance piece 63 still can clear up stay cord 21.

Specifically, the fixing structure 5 includes a fixing block 51, the tail end of the pulling rope 21 penetrates through the fixing block 51 and abuts against the fixing block 51, one end of the fixing block 51 is fixedly connected with a clamping block 55, the fixing column 13 is slidably connected with a bearing block 52 through the clamping block 55, a rotating groove 56 is formed in the bearing block 52, the clamping block 55 is rotatably connected with the fixing block 51 through the rotating groove 56, both sides of the fixing block 51 are both in threaded connection with bolts 54, one end of each bolt 54 extends into the rotating groove 56 and abuts against the clamping block 55, the bottom end of the fixing block 51 is fixedly connected with a pulling hook 53, the pulling hook 53 abuts against the fixing column 13, the clamping block 55 is L-shaped, and the depth of the rotating groove 56 is greater than the thickness of the L-shaped bottom end of the clamping block 55; when drag hook 53 damages, rotate a pair of bolt 54, make bolt 54 break away from with rotating groove 56, rotate fixed block 51 again, drive fixture block 55 and rotate, alright spur fixture block 55, make fixture block 55 break away from with rotating groove 56, thereby alright break away from fixed block 51 and carrier block 52, alright change carrier block 52 and drag hook 53, after new drag hook 53 and carrier block 52 are changed, insert fixed block 51 in rotating groove 56 through fixture block 55, rotate carrier block 52, tighten bolt 54, make bolt 54 contradict with fixture block 55, thereby accomplish the quick replacement to drag hook 53, after using up, spur drag hook 53 and fixed column 13 contradict, thereby be convenient for accomodating of drag hook 53 and stay cord 21.

When the invention is used, firstly, when the reinforcement cage is hoisted into the pouring tank, the hoisting ring 12 is sleeved on the hoisting hook of the crane, the crane lifts the hoisting hook, the hoisting hook hoists the main body 11 through the hoisting ring 12, so that the draw hooks 53 are pulled out from the two pairs of placing grooves 14 at the bottom end of the main body 11, the four draw hooks 53 are hooked on the four corners of the reinforcement cage, when the main body 11 is lifted, the reinforcement cage can be moved to the upper part of the pouring tank and is placed into the pouring tank, when the reinforcement cage is placed into the pouring tank, the reinforcement cage can incline because the two ends of the hoisted pull rope 21 have different lengths and the gravity center of the reinforcement cage is unstable, the inclined reinforcement cage is inconvenient to be placed into the pouring tank, the stress point of the reinforcement cage needs to be controlled by adjusting the length of the pull rope 21, so that the reinforcement cage is in a vertical state, the pair of motors 32 are started, the pair of worms 31 can be driven to rotate forwards and backwards by controlling the forward and reverse rotation of the pair of motors 32, the worm 31 can drive the worm wheel 33 to rotate forwards and backwards so as to drive the pair of adjusting wheels 22 to rotate forwards and backwards, the pair of adjusting wheels 22 can drive the pair of pulling ropes 21 to move towards one end when rotating forwards and backwards so as to change the length of the two ends of the pulling ropes 21 reaching the reinforcement cage, thereby correcting the state of the reinforcement cage, the adjusting wheels 22 can drive the distance from the two ends of the pulling ropes 21 to the adjusting wheels 22 to change, the pulling ropes 21 are wound with the rotating wheels 23, the damage of the pulling ropes 21 caused by the friction of the pulling ropes 21 and the main body 11 is avoided, the bottom ends of the pulling ropes 21 are wound with the reverse wheels 24, when the reinforcement cages with different diameters are hoisted, the included angles of the two ends of the pulling ropes 21 are different, the reverse wheels 24 can still not rub with the main body 11 when the angle of the pulling ropes 21 is smaller, thereby prolonging the service life of the pulling ropes 21, when the steel reinforcement cage is hooked by the draw hook 53, the lengths of the two ends of the draw rope 21 may be smaller than the caliber of the steel reinforcement cage, at this time, the draw hook 53 is pulled to draw the draw rope 21 out of the main body 11, the draw rope 21 drives the turning wheel 24 to rotate, the draw rope 21 drives the pulley 41 to move along the chute 44 and simultaneously drives the pulley 41 to rotate, the spring 43 stretches, so that the draw hook 53 can be hooked on the steel reinforcement cage, after the steel reinforcement cage is placed in the pouring chute, the draw hook 53 is separated from the steel reinforcement cage, the spring 43 can drive the pulley 41 to move and reset, so that a part of the draw rope 21 is collected into the main body 11, thereby the draw rope 21 can be conveniently collected, the problem that the draw rope 21 is long and inconvenient to collect and arrange after the device is used is solved, meanwhile, the draw rope 21 can be pulled out to adapt to the steel reinforcement cage with a larger caliber, the pair of motors 32 are started to enable the lengths of the two ends of the pair of the draw rope 21 to be the same, when the draw rope 21 is collected into the main body 11 by the pulley 41, one end of the pull rope 21 is slidably connected with a cleaning block 63, the cleaning block 63 can intercept sundries such as cement blocks on the pull rope 21, so that the cleanliness of the pull rope 21 is ensured, the damage of internal components is avoided, the cleaning block 63 is fixedly connected with an adjusting column 61, the adjusting column 61 is sleeved with the pull rope 21, when the pull rope 21 is suitable for steel reinforcement cages with different calibers, the pull rope 21 can rotate around a turning wheel 24, the adjusting column 61 rotates with the main body 11 under the action of a turning groove 62 through a rotating column 64, so that the pull rope 21 can be cleaned by the cleaning block 63 when rotating, when the drag hook 53 is damaged, a pair of bolts 54 are rotated to separate the bolts 54 from the rotating groove 56, then the fixing block 51 is rotated to drive the clamping block 55 to rotate, the clamping block 55 is pulled to separate from the rotating groove 56, so that the fixing block 51 can be separated from the bearing block 52, and the drag hook 53 can be replaced, after new drag hook 53 and carrier block 52 are changed, insert fixed block 51 through fixture block 55 and rotate the groove 56 in, rotate carrier block 52, tighten bolt 54, make bolt 54 contradict with fixture block 55 to accomplish the quick replacement to drag hook 53, the back of having used, pulling drag hook 53 contradicts with fixed column 13, thereby be convenient for accomodating of drag hook 53 and stay cord 21.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (10)

1. The utility model provides a bored concrete pile steel reinforcement cage hoist and mount auxiliary device of but quick adjustment stress point, a serial communication port, including hoisting structure (1), hoisting structure (1) is connected with regulation structure (2) that are used for adjusting the steel reinforcement cage stress point, hoisting structure (1) is connected with drive structure (3) that are used for drive regulation structure (2) work, hoisting structure (1) is connected with pulling structure (4) that are used for arranging regulation structure (2) subassembly, hoisting structure (1) is connected with clearance structure (6) that are used for clearing up regulation structure (2) subassembly, regulation structure (2) are connected with and are used for carrying out fixed knot structure (5) fixed to the steel reinforcement cage.

2. The hoisting auxiliary device for the bored concrete pile reinforcement cage capable of rapidly adjusting the stress point according to claim 1, wherein: the hoisting structure (1) comprises a main body (11), the top end of the main body (11) is rotatably connected with a hoisting ring (12), two pairs of placing grooves (14) are formed in the bottom end of the main body (11), and the bottom end of the main body (11) is located in the placing grooves (14) and is fixedly connected with a fixing column (13).

3. A hoisting auxiliary device for a bored concrete pile cage capable of rapidly adjusting a stress point according to claim 2, wherein: the two pairs of the placing grooves (14) are arranged in a cross shape, and the bottom end of the main body (11) is in a round cake shape.

4. A hoisting auxiliary device for a bored concrete pile cage capable of rapidly adjusting a stress point according to claim 2, wherein: adjust structure (2) including regulating wheel (22), main part (11) are rotated and are connected a pair of regulating wheel (22), and are a pair of regulating wheel (22) all twine stay cord (21), the both sides that main part (11) are located a pair of regulating wheel (22) all rotate and are connected with rotation wheel (23), the both ends of stay cord (21) all twine with regulating wheel (22), main part (11) are close to the one end of regulating wheel (22) and all rotate and are connected with diversion wheel (24), the both ends and the diversion wheel (24) winding of stay cord (21).

5. The hoisting auxiliary device for the bored concrete pile reinforcement cage capable of rapidly adjusting the stress point according to claim 4, wherein: the pair of adjusting wheels (22) is vertically arranged in the vertical direction, the two pairs of rotating wheels (23) are arranged in a cross shape, and the two pairs of turning wheels (24) are arranged in a cross shape.

6. A hoisting auxiliary device for a bored concrete pile cage capable of rapidly adjusting a stress point according to claim 2, wherein: drive structure (3) include worm wheel (33), main part (11) are rotated and are connected with a pair of worm wheel (33), and are a pair of worm wheel (33) respectively and a pair of regulating wheel (22) through pivot fixed connection, main part (11) are close to the one end of a pair of worm wheel (33) and all rotate and are connected with worm (31), and are a pair of worm (31) respectively with a pair of worm wheel (33) intermeshing, a pair of motor (32) is installed to the one end of main part (11) the output of motor (32) respectively with a pair of worm (31) fixed connection.

7. A hoisting auxiliary device for a bored concrete pile cage capable of rapidly adjusting a stress point according to claim 2, wherein: pulling structure (4) include spout (44), main part (11) are close to the one end of turning wheel (24) and all are equipped with spout (44), main part (11) have fixed plate (42) through spout (44) sliding connection, fixedly connected with spring (43) between fixed plate (42) and main part (11), the one end of fixed plate (42) is rotated and is connected with pulley (41), pulley (41) and one section stay cord (21) winding between rotation wheel (23), turning wheel (24).

8. The hoisting auxiliary device for the bored concrete pile reinforcement cage capable of rapidly adjusting the stress point according to claim 4, wherein: clearance structure (6) are including adjusting post (61), main part (11) are close to in the one end of turning wheel (24) and all are equipped with regulation post (61), a pair of rotation post (64) of side fixedly connected with of regulation post (61), main part (11) are close to the one end of adjusting post (61) and all are equipped with and turn to groove (62), turn to post (64) through turning to groove (62) and main part (11) sliding connection, the both ends of stay cord (21) all cup joint with rotation post (64), rotate post (64) one end fixedly connected with clearance piece (63), clearance piece (63) and stay cord (21) sliding connection.

9. The hoisting auxiliary device for the bored concrete pile reinforcement cage capable of rapidly adjusting the stress point according to claim 4, wherein: fixed knot constructs (5) including fixed block (51), the end of stay cord (21) runs through in fixed block (51) and contradicts with fixed block (51), the one end fixedly connected with fixture block (55) of fixed block (51), fixed column (13) have carrier block (52) through fixture block (55) sliding connection, carrier block (52) inside is equipped with rotates groove (56), fixture block (55) rotate through rotating groove (56) and fixed block (51) and are connected, the equal threaded connection in both sides of fixed block (51) has bolt (54), bolt (54) one end is stretched into and is rotated groove (56) and fixture block (55) and contradict, the bottom fixedly connected with drag hook (53) of fixed block (51), drag hook (53) and fixed column (13) contradict.

10. A hoisting aid for a bored concrete pile cage with a quickly adjustable force-bearing point according to claim 9, wherein: the clamping block (55) is L-shaped, and the depth of the rotating groove (56) is greater than the thickness of the L-shaped bottom end of the clamping block (55).

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