CN114277800B - Auxiliary equipment for placing in rotary pile reinforcement cage hole for building construction - Google Patents

Abstract

The invention relates to auxiliary equipment for placing in a reinforcement cage hole, in particular to auxiliary equipment for placing in a rotary pile reinforcement cage hole for building construction. The invention aims to provide a rotary pile reinforcement cage hole internal placement auxiliary device for construction, which can avoid deformation of a reinforcement cage. The invention provides auxiliary equipment for placing a rotary pile reinforcement cage hole for building construction, which comprises a chassis, a control cabinet, support arms, a wheel frame and the like, wherein the control cabinet is arranged on the right front side of the top of the chassis, the support arms are arranged on the front side and the rear side of the top of the chassis, and the wheel frame is arranged on the left side and the right side of the front side and the rear side of the chassis. According to the invention, the first electric push rod is used as a driving force, the clamping plate can be driven to move inwards to clamp the middle part of the reinforcement cage, so that the reinforcement cage is prevented from deforming, then the reinforcement cage can be vertically arranged through the first winch, and the lifting of the reinforcement cage can be controlled through the second winch and the third winch, so that the reinforcement cage placement work is completed, and time and labor are saved.

Description

Auxiliary equipment for placing in rotary pile reinforcement cage hole for building construction

Technical Field

The invention relates to auxiliary equipment for placing in a reinforcement cage hole, in particular to auxiliary equipment for placing in a rotary pile reinforcement cage hole for building construction.

Background

At present, in the laying process of the reinforcement cage, a manner of hoisting the reinforcement cage is adopted to lay the reinforcement cage in a bored concrete pile hole, and in the hoisting process, the reinforcement cage easily shakes and inclines, so that balance laying is difficult to ensure.

Patent application CN214363495U, the publication day is 20211008, discloses a concrete bored concrete pile steel reinforcement cage lays controlling means, including bored concrete pile hole and steel reinforcement cage main part, the bored concrete pile hole top outside is equipped with the support frame, the support frame top is connected with the backup pad, spout has been seted up to backup pad top one side symmetry, spout inboard sliding connection has the sliding support, sliding support one end is connected with vertical locating plate, sliding support other end swing joint has the promotion cylinder, just promote cylinder fixed mounting in the backup pad, the invention can form annular guide way in the steel reinforcement cage main part outside through locating plate and balanced limiting plate, makes steel reinforcement cage main part can steadily vertical downwardly moving, avoids collision pore wall, effectively prevents that the steel reinforcement cage main part from taking place to rock and slope, makes to lay more smoothly, through the depression bar that sets up, can push down the steel reinforcement cage main part, prevents to take place to come down when pouring concrete, can control the position of laying of steel reinforcement cage main part. Although the steel reinforcement cage can be guided by the above patent, the steel reinforcement cage is still required to be lifted vertically by a hoisting mode, and at the moment, the steel reinforcement cage is stressed unevenly, so that the steel reinforcement cage is deformed.

Therefore, the rotary pile reinforcement cage hole internal placement auxiliary equipment for construction is designed, and the deformation of the reinforcement cage can be avoided.

Disclosure of Invention

In order to overcome the defect that the existing reinforcement cage placement control device generally needs to vertically hoist the reinforcement cage in a hoisting mode, and the reinforcement cage is not uniformly stressed at the moment and can deform, the invention aims to provide the auxiliary equipment for placing the reinforcement cage in the hole of the rotary pile reinforcement cage for construction, which can prevent the reinforcement cage from deforming.

The invention is realized by the following technical approaches:

the utility model provides a building construction is with diging downthehole auxiliary assembly that lays of stake steel reinforcement cage soon, including the chassis, the switch board, the support arm, the wheel carrier, the control panel, splint, the turnover component, clamping component, adjusting part and lifting unit, the right front side at chassis top is equipped with the switch board, both sides all are equipped with the support arm around the chassis top, both sides all are equipped with the wheel carrier around the chassis, the wheel carrier all is connected with adjacent support arm, the support arm front side middle part of front side is equipped with the control panel, be equipped with the turnover component that is used for carrying out the upset to the steel reinforcement cage between the upper portion right side of support arm, be equipped with clamping component on the turnover component, be equipped with two splint that are used for pressing from both sides tight steel reinforcement cage on the clamping component, be equipped with on the clamping component and be used for carrying out spacing adjusting part to splint, be equipped with the lifting unit that is used for driving the steel reinforcement cage to go up and down on the turnover component.

Optionally, the upset subassembly is including articulated shaft, the trapezoidal pipe, the steel pipe support, the riser, the cable, first hoist engine, lift up key and descending key, rotationally be equipped with the articulated shaft between the upper portion right side of support arm, the articulated shaft middle part is equipped with the trapezoidal pipe, be equipped with the riser between the front and back both sides of articulated shaft, be equipped with the steel pipe support between riser right side and the trapezoidal pipe top, the top left side on chassis is equipped with first hoist engine, the winding disc of first hoist engine is gone up the windlass of round joint and has been had the cable, the upper end and the riser upper portion of cable are connected, the front side upper left portion of control panel is equipped with lifts up the key, the front side upper left portion of control panel is equipped with the descending key, the descending key is located lifts up the key right side.

Optionally, press from both sides tight subassembly including the guide holder, the connecting seat, articulated seat, the articulated slab, first electric putter, the pivot, the axle sleeve, press from both sides tight key and loosen the key, trapezoidal pipe right part slidingtype is equipped with the guide holder, be equipped with the pivot in the middle of the bottom of guide holder, rotationally be equipped with the axle sleeve in the pivot, the axle sleeve outside is equipped with the connecting seat, the connecting seat bottom is equipped with articulated seat, both sides all rotate around the articulated slab are equipped with the articulated slab, the inboard lower part of articulated slab all is connected with adjacent splint, the articulated slab upper portion centre rotation of front side is equipped with first electric putter, the telescopic link rear side of first electric putter is connected with the articulated slab upper portion centre rotation of rear side, the front side upper right portion of control panel is equipped with the tight key of clamp, the front side upper right portion of control panel is equipped with loosens the key, it is located the tight key right side to loosen the key.

Optionally, adjusting part is including fixed plate, connecting rope, spacing axle, first wire wheel and first spring, the inside left and right sides of connecting seat all is equipped with the fixed plate, the outside middle part of fixed plate all is equipped with connecting rope, spacing hole has all been opened to the left and right sides of guide holder lower part, the left and right sides on connecting seat upper portion all slidingtype is equipped with spacing axle, spacing axle upward moves and can insert adjacent spacing downthehole, spacing axle bottom all is equipped with first wire wheel, the connecting rope all walks around the first wire wheel bottom of homonymy, all around first spring on the spacing axle, the both ends of first spring are connected with first wire wheel and connecting seat respectively.

Optionally, the lifting assembly comprises a second winch, a third winch, a first pull rope, a first contact switch, a second pull rope, a second contact switch, a second wire wheel, an ascending key and a descending key, wherein the second winch is arranged at the front lower part of the left side of the vertical plate, the third winch is arranged at the rear lower part of the left side of the vertical plate, the first pull rope is wound on a wire reel of the third winch, the other end of the first pull rope is connected with the left end of a left connecting rope, the first contact switch is arranged at the left part of the front side of the trapezoid pipe, the second pull rope is wound on the wire reel of the second winch, the second pull rope is connected with the right end of the right connecting rope, the second contact switch is arranged at the right part of the front side of the trapezoid pipe, the second wire wheel is rotatably arranged at the lower part of the right side of the trapezoid pipe, the second pull rope bypasses the second wire wheel, the ascending key is arranged at the left lower part of the front side of the control board, and the descending key is arranged at the right upper part of the ascending key.

Optionally, the steel reinforcement cage positioning device further comprises a positioning assembly used for positioning the steel reinforcement cage, the positioning assembly comprises guide rods, guide sleeves, second electric push rods, semicircular plates, arc magnets and positioning keys, the guide rods are symmetrically arranged on the right side of the top of the chassis, the number of the guide rods is four, the guide sleeves are slidably arranged between the upper parts of the two guide rods on the same side, the second electric push rods are symmetrically arranged on the right side of the top of the chassis, the second electric push rods are located on the outer sides of the guide sleeves, the tops of the telescopic rods of the second electric push rods are connected with the upper parts of the adjacent guide sleeves, the semicircular plates are arranged between the lower parts of the inner sides of the guide sleeves, the arc magnets are arranged in the middle of the semicircular plates, the positioning keys are arranged on the lower parts of the front sides of the control plates, and the positioning keys are located on the upper right sides of the descending keys.

Optionally, the buffer assembly for buffering and supporting the riser is further included, the buffer assembly comprises a bearing frame, a cylinder body, a piston, a supporting rod, a contact block, a cylinder, a sealing plate and a second spring, the bearing frame is arranged between the left sides of the lower parts of the supporting arms, the cylinder body is arranged in the middle of the upper parts of the bearing frame, the piston is arranged in the sliding mode on the upper side of the inside of the cylinder body, the supporting rod is arranged at the top of the piston, the contact block is arranged at the top of the supporting rod and is connected with the bearing frame in a sliding mode, the riser rotates to be in contact with the contact block, a backflow hole is formed in the middle of the lower part of the cylinder body, the cylinder is arranged at the lower part of the outer side of the cylinder body and is communicated, four second springs are arranged at the inner top of the cylinder at intervals, the sealing plate is arranged between the bottoms of the second springs, and the sealing plate slides in the cylinder.

Optionally, still including the locking component who is used for fixed reinforcement cage position, locking component is including third electric putter, connecting cylinder, arc and fixed column, and the outside right part of splint all is equipped with third electric putter, and the telescopic link outside of third electric putter all is equipped with the connecting cylinder, and the connecting cylinder inboard all is equipped with the arc, and the inboard equal interval of arc is equipped with the fixed column, and the fixed column all is connected with adjacent splint slidingtype.

Optionally, the anti-tipping assembly for preventing auxiliary equipment from tipping is laid in the rotary pile reinforcement cage hole for construction is further included, the anti-tipping assembly comprises a placing plate, a pressing plate, a weight box, a conical head rod, a sealing tube and a third spring, the placing plate is arranged on the left side of the bottom plate, the left side of the support arm is connected with the placing plate, the sealing tubes are arranged on the front side and the rear side of the bottom of the placing plate, the conical head rod is arranged in the sealing tube in a sliding mode, the pressing plate is arranged between the tops of the conical head rod, the weight box is arranged at the tops of the pressing plate, the third spring is wound on the upper portion of the conical head rod, and two ends of the third spring are respectively connected with the sealing tube and the conical head rod.

Optionally, including switching power supply, control module and power module in the switch board, switching power supply is for whole construction with dig downthehole auxiliary assembly power supply of laying of stake steel reinforcement cage soon, be connected with the power master switch through the circuit on the power module, control module and power module pass through electric connection, be connected with DS1302 clock circuit and 24C02 circuit on the control module, lift up the key, the falling key, press from both sides tight key, loosen the key, rise the key, descend the key, the location key, first contact switch and second contact switch all pass through electric connection with control module, first hoist engine, first electric putter, the second hoist engine, third hoist engine, second electric putter and third electric putter all pass through peripheral circuit connection with control module.

Compared with the prior art, the invention has the remarkable advantages that:

1. according to the invention, the first electric push rod is used as a driving force, the clamping plate can be driven to move inwards to clamp the middle part of the reinforcement cage, so that the reinforcement cage is prevented from deforming, then the reinforcement cage can be vertically arranged through the first winch, and the lifting of the reinforcement cage can be controlled through the second winch and the third winch, so that the reinforcement cage placement work is completed, and time and labor are saved.

2. According to the invention, the second electric push rod is used as a driving force, so that the semicircular plate can be driven to move downwards, extend into the bored concrete pile hole, and then can absorb the reinforcement cage through the arc-shaped magnet, thereby playing a role in positioning.

3. According to the invention, the third electric push rod is used as a driving force, so that the fixing column can be driven to move inwards and be inserted into the hole of the reinforcement cage, and the reinforcement cage is further limited.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of a turnover assembly according to the present invention.

Fig. 3 is a schematic perspective view of a first part of the present invention.

Fig. 4 is a schematic perspective view of a clamping assembly according to the present invention.

Fig. 5 is a schematic perspective view of a second part of the present invention.

Fig. 6 is a schematic perspective view of an adjusting assembly according to the present invention.

Fig. 7 is a schematic perspective view of a lifting assembly according to the present invention.

Fig. 8 is a schematic perspective view of a positioning assembly according to the present invention.

Fig. 9 is a schematic perspective view of a buffer assembly according to the present invention.

FIG. 10 is a schematic view of a partially cut-away structure of a cushioning assembly of the present invention.

Fig. 11 is a schematic view showing a first perspective structure of the locking assembly of the present invention.

FIG. 12 is a schematic view in partial cross-section of a locking assembly of the present invention.

Fig. 13 is a schematic view showing a second perspective structure of the locking assembly of the present invention.

Fig. 14 is a schematic perspective view of an anti-rollover assembly of the present invention.

FIG. 15 is a schematic view in partial cross-section of an anti-rollover assembly of the present invention.

Fig. 16 is a circuit block diagram of the present invention.

Fig. 17 is a schematic circuit diagram of the present invention.

Meaning of reference numerals in the drawings: 1: chassis, 2: control cabinet, 3: support arm, 4: wheel carrier, 5: control panel, 6: clamping plate, 7: flipping assembly, 71: hinge shaft, 72: trapezoid pipe, 73: steel pipe rack, 74: riser, 75: guy wires, 76: first hoist, 77: lift key, 78: drop key, 8: clamping assembly, 81: guide holder, 82: connecting seat, 83: hinge base, 84: hinge plate, 85: first electric putter, 86: rotating shaft, 87: sleeve, 88: clamping key, 89: release key, 9: adjustment assembly, 91: fixing plate, 92: connecting rope, 93: limiting hole, 94: limiting shaft, 95: first wire wheel, 96: first spring, 10: lifting assembly, 101: second hoist, 102: third hoist, 103: first pull cord, 104: first contact switch, 105: second pull cord, 106: second contact switch, 107: second wire wheel, 108: up key, 109: drop key, 11: positioning assembly, 111: guide bar, 112: guide sleeve, 113: second electric putter, 114: semicircle plate, 115: arc magnet, 116: positioning key, 12: buffer assembly, 121: bearing frame, 122: cylinder block, 123: piston, 124: struts, 125: contact block, 126: reflow holes, 127: a cylinder, 128: sealing plate, 129: second spring, 13: locking assembly, 131: third electric putter, 132: connecting cylinder, 133: arcuate plate, 134: fixing column, 14: anti-rollover assembly, 141: placing plate, 142: platen, 143: weight box, 144: conical head rod, 145: sealing tube, 146: and a third spring.

Detailed Description

The invention is further elucidated below in connection with the drawings of the description, and embodiments of the invention are given in connection with the drawings of the description.

Example 1

The utility model provides a building construction is with laying auxiliary assembly in hole of diging stake steel reinforcement cage soon, refer to fig. 1-7, including chassis 1, switch board 2, support arm 3, wheel carrier 4, control panel 5, splint 6, upset subassembly 7, clamping component 8, adjusting part 9 and lifting unit 10, the right front side at chassis 1 top is equipped with switch board 2, the front and back both sides at chassis 1 top have all welded support arm 3, the left and right sides of both sides all welds wheel carrier 4 around chassis 1, wheel carrier 4 all is connected with adjacent support arm 3, the support arm 3 front side middle part of front side is equipped with control panel 5, be equipped with upset subassembly 7 between the upper portion right side of support arm 3, be equipped with clamping component 8 on the upset subassembly 7, be equipped with two splint 6 on the clamping component 8, splint 6 can press from both sides tight reinforcement cage when moving to the inboard, be equipped with adjusting part 9 on the clamping component 8, be equipped with lifting unit 10 on the upset subassembly 7.

Referring to fig. 1-3, the turnover assembly 7 comprises a hinge shaft 71, a trapezoid pipe 72, a steel pipe frame 73, a vertical plate 74, a pull rope 75, a first winch 76, a lifting key 77 and a falling key 78, wherein the hinge shaft 71 is rotatably arranged between the right sides of the upper portion of the support arm 3, the trapezoid pipe 72 is arranged in the middle of the hinge shaft 71, the vertical plate 74 is arranged between the front side and the rear side of the hinge shaft 71, the steel pipe frame 73 is welded between the right side of the vertical plate 74 and the top of the trapezoid pipe 72, the first winch 76 is bolted to the left side of the top of the chassis 1, the pull rope 75 is wound on a winding disc of the first winch 76, the upper end of the pull rope 75 is connected with the upper portion of the vertical plate 74, the first winch 76 can wind the pull rope 75 during operation, so as to drive the vertical plate 74 to rotate anticlockwise, the steel reinforcement cage is driven to rotate anticlockwise vertically, the left upper portion of the front side of the control board 5 is provided with the lifting key 77, the left upper left side of the front side of the control board 5 is provided with the falling key 78, and the falling key 78 is located on the right side of the lifting key 77.

Referring to fig. 1, fig. 3, fig. 4, fig. 5 and fig. 6, the clamping assembly 8 comprises a guide seat 81, a connecting seat 82, a hinging seat 83, a hinged plate 84, a first electric push rod 85, a rotating shaft 86, a shaft sleeve 87, a clamping key 88 and a loosening key 89, wherein the guide seat 81 is slidably arranged on the right part of the trapezoid pipe 72, the rotating shaft 86 is arranged in the middle of the bottom of the guide seat 81, the shaft sleeve 87 is rotatably arranged on the rotating shaft 86, the connecting seat 82 is arranged on the outer side of the shaft sleeve 87, the hinging seat 83 is welded at the bottom of the connecting seat 82, the hinged plate 84 is rotatably arranged on the front side and the rear side of the hinging seat 83, the lower part of the inner side of the hinged plate 84 is connected with the adjacent clamping plate 6, the middle of the upper part of the hinged plate 84 on the front side is rotatably provided with the first electric push rod 85, the telescopic rod rear side of the first electric push rod 85 can drive the hinged plate 84 to rotate in operation, thereby driving the inner side of the clamping plate 6 to move to clamp a steel bar cage, the clamping key 88 is arranged on the right upper right part of the front side of the control plate 5, and the loosening key 89 is arranged on the right upper right side of the front side of the control plate 5.

Referring to fig. 1 and 6, adjusting part 9 is including fixed plate 91, connecting rope 92, spacing axle 94, first wire wheel 95 and first spring 96, the inside left and right sides of connecting seat 82 has all welded fixed plate 91, the outside middle part of fixed plate 91 all is equipped with connecting rope 92, spacing hole 93 has all been opened to the left and right sides of guide holder 81 lower part, the left and right sides on connecting seat 82 upper portion all slidingtype is equipped with spacing axle 94, spacing axle 94 upwards moves and can insert in the adjacent spacing hole 93, thereby can fix the position of connecting seat 82, avoid connecting seat 82 random emergence rotation, spacing axle 94 bottom all is equipped with first wire wheel 95, connecting rope 92 all walks around the first wire wheel 95 bottom of homonymy, all around first spring 96 on the spacing axle 94, the both ends of first spring 96 are connected with first wire wheel 95 and connecting seat 82 respectively.

Referring to fig. 1, 3, 4, 5 and 6, the lifting assembly 10 includes a second winding machine 101, a third winding machine 102, a first pull rope 103, a first contact switch 104, a second pull rope 105, a second contact switch 106, a second wire wheel 107, a lifting key 108 and a lowering key 109, the second winding machine 101 is bolted to the left front lower portion of the riser 74, the third winding machine 102 is bolted to the left rear lower portion of the riser 74, the first pull rope 103 is wound on the wire spool of the third winding machine 102, the other end of the first pull rope 103 is connected with the left end of the left connecting rope 92, the second winding machine 101 and the third winding machine 102 are capable of performing wire winding and unwinding operations on the first pull rope 103 and the second pull rope 105 respectively, so as to control the lifting of the guide 81, and further drive the lifting of the reinforcement cage, the first contact switch 104 is arranged on the left front portion of the riser 72, the second winding machine 101 is connected to the second pull rope 103 on the wire spool, the other end of the second winding machine 105 is connected with the right connecting rope 92 on the right side, the right front lower portion of the right control plate 107 is arranged on the right front lower portion of the right connecting rope 108 of the riser 72 is arranged on the right side of the riser 72, and the right front lower portion of the right connecting rope 108 is arranged on the right front portion of the riser 72 is connected with the right connecting rope 108, and the right front lower portion of the right connecting rope is arranged on the right side of the lower portion of the key 105, and the right connecting wire is connected with the right side of the lower wire and the lower wire and the wire winding wire and the wire.

When people need to use the equipment, firstly, the equipment is moved to a designated position, then a power main switch is pressed down, the equipment is electrified, then a reinforcement cage is manually conveyed to a position between the clamping plates 6, then the connecting seat 82 can be slightly rotated, the connecting seat 82 drives the hinged seat 83, the hinge plates 84 and the clamping plates 6 to rotate, so that the two clamping plates 6 are parallel to the reinforcement cage, then the clamping key 88 is pressed once, the clamping key 88 sends out a signal, the control module receives the signal and then controls the first electric push rod 85 to work for 2 seconds, at the moment, the telescopic rod of the first electric push rod 85 is stretched, thereby driving the hinge plates 84 to rotate, the hinge plates 84 drive the clamping plates 6 to move inwards, so that the middle part of the reinforcement cage is clamped by the clamping plates 6, after 2 seconds, the control module controls the first electric push rod 85 to stop working, then presses the lifting key 77 sends out a signal, the control module receives the signal to control the first winding machine 76 to start working, the wire spool of the first winding machine 76 starts to rotate positively, so that the inhaul cable 75 winds up, the inhaul cable 75 drives the vertical plate 74 to rotate anticlockwise, the vertical plate 74 drives the hinge shaft 71 and the trapezoid pipe 72 to rotate anticlockwise, the steel pipe rack 73 plays a supporting role, the trapezoid pipe 72 is prevented from breaking, the trapezoid pipe 72 drives the clamping plate 6 to rotate anticlockwise, so that the reinforcement cage is lifted, meanwhile, the control module controls the second winding machine 101 and the third winding machine 102 to work, the wire spool of the second winding machine 101 starts to rotate positively, the wire spool of the third winding machine 102 winds up the first pull rope 103, the second winding rope 105 is slowly loosened by the wire spool of the second winding machine 101, the second wire guide wheel 107 plays a guiding role on the second pull rope 105, so that the guide seat 81 and the connecting seat 82 slowly slide downwards, thereby driving the steel reinforcement cage to slowly slide downwards and adjust the gravity center, at the moment, the second pull rope 105 and the first pull rope 103 tighten the connecting rope 92, thereby driving the connecting seat 82, the hinging seat 83, the hinged plate 84 and the clamping plate 6 to reversely reset, so that the clamping plate 6 is parallel to the trapezoid pipe 72 again, simultaneously, the connecting rope 92 can extrude the first wire guide wheel 95 to move upwards, drive the limiting shaft 94 to move upwards and insert into the limiting hole 93, the first spring 96 is compressed, thereby fixing the position of the connecting seat 82, avoiding the random rotation of the connecting seat 82, when the trapezoid pipe 72 is vertical to the ground, loosening the lifting key 77, sending out signals by the lifting key 77, controlling the first hoist 76, the second hoist 101 and the third hoist 102 to stop working after receiving the signals, at the moment, the steel reinforcement cage is vertical to the ground, the steel reinforcement cage is positioned right above the hoisting pile hole, then the descending key 109 is pressed, the descending key 109 sends out a signal, the control module receives the signal and then controls the second winch 101 and the third winch 102 to work, the wire spool of the second winch 101 starts to rotate reversely, the wire spool of the third winch 102 starts to rotate positively, the guide seat 81 and the connecting seat 82 are driven to slide down slowly, the reinforcement cage continues to slide down, the reinforcement cage is transmitted into a bored concrete pile hole, when the guide seat 81 slides down to a proper position, the descending key 109 is released, the descending key 109 sends out a signal, the control module receives the signal and then controls the second winch 101 and the third winch 102 to stop working, the reinforcement cage stops moving, then the release key 89 is pressed once, the control module sends out a signal and then controls the first electric push rod 85 to work for 2 seconds, at the moment, the telescopic rod of the first electric push rod 85 is shortened, the hinged plate 84 is driven to rotate reversely, the hinged plate 84 drives the clamping plate 6 to move outwards, so that the clamping plate 6 releases the reinforcement cage, the reinforcement cage can drop downwards under the action of gravity at the moment, the reinforcement cage is placed, after 2 seconds, the control module controls the first electric push rod 85 to stop working, then the lifting key 108 is pressed, the lifting key 108 sends out a signal, the control module controls the second winch 101 and the third winch 102 to work after receiving the signal, the wire spool of the second winch 101 starts to rotate forwards, the wire spool of the third winch 102 starts to rotate reversely, the wire spool of the third winch 102 releases the first pull rope 103, the wire spool of the second winch 101 winds the second pull rope 105, the guide seat 81 and the connecting seat 82 slowly slide upwards to reset, after the guide seat 81 is completely reset, the lifting key 108 is released, the lifting key 108 sends out a signal, the control module receives the signal to control the second winch 101 and the third winch 102 to stop working, the guide seat 81 stops moving, then presses the falling key 78, the falling key 78 sends out the signal, the control module receives the signal to control the first winch 76 to start working, the wire spool of the first winch 76 starts to rotate reversely, so that the stay rope 75 is loosened, under the action of gravity, the vertical plate 74 can rotate and reset clockwise, the vertical plate 74 drives the hinge shaft 71 and the trapezoid pipe 72 to rotate and reset clockwise, after the trapezoid pipe 72 is completely reset, the falling key 78 is loosened, the falling key 78 sends out the signal, the control module receives the signal to control the first winch 76 to stop working, the connecting rope 92 is not tightened at the moment, the first spring 96 is restored to the original state, the first wire guide wheel 95 and the limiting shaft 94 are driven to move and reset upwards, the limiting shaft 94 is separated from the limiting hole 93, when the guide seat 81 slides downwards, if the guide seat 81 contacts with the first contact switch 104, the first contact switch 104 can send out the signal, control module receives the signal and then controls second hoist 101 and third hoist 102 to stop working, when guide holder 81 is in the slip that upwards, if guide holder 81 and second contact switch 106 contact, second contact switch 106 can send out the signal, control module receives the signal and then controls second hoist 101 and third hoist 102 to stop working, thereby can avoid guide holder 81 to slide too much, repeat above-mentioned operation, can lay the steel reinforcement cage again, when people need not use this equipment, press down the power master switch again, make this equipment outage can.

Example 2

On the basis of embodiment 1, refer to fig. 1 and 8, further include positioning assembly 11, positioning assembly 11 includes guide arm 111, guide pin bushing 112, second electric putter 113, semicircle board 114, arc magnet 115 and location key 116, symmetry is equipped with guide arm 111 around the top right side of chassis 1, the quantity of guide arm 111 is four, all sliding type is equipped with guide pin bushing 112 between two guide arm 111 upper portions of homonymy, symmetrical bolt has second electric putter 113 around the top right side of chassis 1, second electric putter 113 is located the guide pin bushing 112 outside, the telescopic link top of second electric putter 113 all is connected with adjacent guide pin bushing 112 upper portion, be equipped with semicircle board 114 between the inboard lower part of guide pin bushing 112, semicircle board 114 middle part is equipped with arc magnet 115, arc magnet 115 can hold the steel reinforcement cage to fix a position the steel reinforcement cage, the front side lower part of control panel 5 is equipped with location key 116, location key 116 is located the upper right side of decline key 109.

After people move the equipment to the appointed position, the positioning key 116 can be pressed once, the positioning key 116 sends out a signal, the control module controls the second electric push rod 113 to work for 2 seconds after receiving the signal, at this moment, the telescopic rod of the second electric push rod 113 shortens, the guide sleeve 112 is driven to move downwards, thereby driving the semicircle plate 114 and the arc magnet 115 to move downwards, the semicircle plate 114 stretches into the bored concrete pile hole, the effect of positioning is achieved, after 2 seconds, the control module controls the second electric push rod 113 to stop working, when the reinforcement cage is positioned right above the bored concrete pile hole, the control module slowly descends downwards, when the reinforcement cage contacts with the arc magnet 115, the arc magnet 115 can absorb the reinforcement cage, the reinforcement cage can continue to descend downwards, the arc magnet 115 can avoid swinging of the reinforcement cage, the reinforcement cage can accurately stretch into the bored concrete pile hole, the convenience of people can finish the placing work of the reinforcement cage, after the reinforcement cage is placed well, the reinforcement cage can be separated from the arc magnet 115, then the positioning key 1162 seconds is pressed for a long time, the positioning key 116 sends out a signal, the control module controls the second electric push rod 113 to work right above the bored concrete pile hole, the second electric push rod 113 is reset, the second electric push rod 113 is driven to move upwards, and the second electric push rod 113 is controlled to move upwards, and the second electric push rod is driven to stop moving upwards.

Referring to fig. 1, 9 and 10, the buffer assembly 12 is further included, the buffer assembly 12 includes a bearing frame 121, a cylinder 122, a piston 123, a supporting rod 124, a contact block 125, a cylinder 127, a sealing plate 128 and a second spring 129, the bearing frame 121 is disposed between the left sides of the lower portion of the support arm 3, the cylinder 122 is disposed in the middle of the upper portion of the bearing frame 121, the piston 123 is slidably disposed on the upper side of the interior of the cylinder 122, the supporting rod 124 is disposed at the top of the piston 123, the contact block 125 is welded at the top of the supporting rod 124, the contact block 125 is slidably connected with the bearing frame 121, the vertical plate 74 rotates to contact with the contact block 125, the contact block 125 can support and buffer the vertical plate 74, the vertical plate 74 is prevented from rotating beyond the head, a backflow hole 126 is opened in the middle of the lower portion of the cylinder 122, the cylinder 127 is disposed at the lower portion of the outer side of the cylinder 122 and is communicated, four second springs 129 are disposed at the inner top of the cylinder 127 at intervals, the sealing plate 128 is disposed between the bottoms of the second springs 129, and the sealing plate 128 slides in the cylinder 127.

Initially, there is a certain amount of hydraulic oil in the cylinder 122, when the riser 74 rotates anticlockwise, the hydraulic oil will contact with the contact block 125, thereby the contact block 125 is pressed to move downwards, drive the supporting rod 124 and the piston 123 to move downwards, thereby the hydraulic oil in the cylinder 122 is pressed, the hydraulic oil slowly enters into the sealing plate 128 through the backflow hole 126, the sealing plate 128 is driven to move downwards along with more and more hydraulic oil in the sealing plate 128, the second spring 129 compresses, thereby the riser 74 can be buffered and supported, the riser 74 is prevented from toppling over, when the riser 74 rotates clockwise to reset, the riser 74 is separated from the contact block 125, at the moment, the second spring 129 is restored to be original, the sealing plate 128 is driven to move upwards to reset, the hydraulic oil slowly returns into the cylinder 122 through the backflow hole 126, thereby the piston 123 is pressed to move upwards to reset, and the supporting rod 124 and the contact block 125 are driven to move upwards to reset.

Referring to fig. 1, 11, 12 and 13, still including locking component 13, locking component 13 is including third electric putter 131, connecting cylinder 132, arc 133 and fixed column 134, the equal bolt of outside right part of splint 6 has third electric putter 131, the telescopic link outside of third electric putter 131 all is equipped with connecting cylinder 132, arc 133 has all been welded to connecting cylinder 132 inboard, the equal interval of arc 133 inboard is equipped with fixed column 134, fixed column 134 all is connected with adjacent splint 6 slidingtype, the position of fixed reinforcement cage that can be further when fixed column 134 moves to the inboard.

When people press the clamping key 88 once, the clamping key 88 sends out a signal, the control module receives the signal and then controls the first electric push rod 85 to work for 2 seconds, thereby driving the clamping plate 6 to move inwards to clamp the reinforcement cage, meanwhile, the control module controls the third electric push rod 131 to work for 2 seconds, at the moment, the telescopic rod of the third electric push rod 131 is shortened, the connecting cylinder 132 is driven to move inwards, thereby driving the arc plate 133 and the fixing column 134 to move inwards, the fixing column 134 is inserted into the hole of the reinforcement cage, thereby further fixing the reinforcement cage, after 2 seconds, the control module controls the first electric push rod 85 and the third electric push rod 131 to stop working, when people press the loosening key 89 once, the loosening key 89 sends out a signal, the control module receives the signal and then controls the first electric push rod 85 to work for 2 seconds, thereby driving the clamping plate 6 to move outwards to reset the reinforcement cage to loosen, meanwhile, the control module controls the third electric push rod 131 to work for 2 seconds, at the moment, the telescopic rod of the connecting cylinder 132, the fixing cylinder 133 and the fixing column 134 move outwards to reset, the fixing column 134 are all separated from the cage, and the reinforcement cage can be dropped into the electric pile cage to control hole 2 seconds, and the pile can be controlled to stop working after the first electric push rod 131 is controlled.

Referring to fig. 1, 14 and 15, the anti-tipping assembly 14 further comprises an anti-tipping assembly 14, the anti-tipping assembly 14 comprises a placing plate 141, a pressing plate 142, a weight box 143, a conical head rod 144, a sealing tube 145 and a third spring 146, the left side of the chassis 1 is welded with the placing plate 141, the left side of the support arm 3 is connected with the placing plate 141, the sealing tubes 145 are respectively arranged on the front side and the rear side of the bottom of the placing plate 141, conical head rods 144 are respectively arranged in the sealing tubes 145 in a sliding mode, the conical head rods 144 can be inserted into soil, so that auxiliary equipment is prevented from being placed in holes of the rotary pile reinforcement cage for building construction and tipped, the pressing plate 142 is welded between the tops of the conical head rods 144, the weight box 143 is placed at the tops of the pressing plate 142, the third spring 146 is wound on the upper part of the conical head rod 144, and two ends of the third spring 146 are respectively connected with the sealing tube 145 and the conical head rods 144.

Initially, when a person needs to move the device, the weight box 143 is firstly taken away, the third spring 146 is restored, the conical head rod 144 is driven to move upwards, the pressing plate 142 is driven to move upwards, the conical head rod 144 is separated from the ground, the device can be moved, after the device moves to a designated position, the weight box 143 is placed back, the pressing plate 142 is driven to move downwards, the conical head rod 144 is driven to move downwards, the third spring 146 stretches, and the conical head rod 144 is inserted into the soil, so that the device is prevented from toppling.

Referring to fig. 16 and 17, the control cabinet 2 includes a switching power supply, a control module and a power module, the switching power supply supplies power to auxiliary equipment placed in a hole of a rotary pile reinforcement cage for the whole building construction, the power module is connected with a main power switch through a circuit, the control module and the power module are electrically connected, the control module is connected with a DS1302 clock circuit and a 24C02 circuit, a lifting key 77, a falling key 78, a clamping key 88, a loosening key 89, a lifting key 108, a falling key 109, a positioning key 116, a first contact switch 104 and a second contact switch 106 are electrically connected with the control module, and a first winch 76, a first electric push rod 85, a second winch 101, a third winch 102, a second electric push rod 113 and a third electric push rod 131 are electrically connected with the control module through peripheral circuits.

Finally, it is necessary to state that: the foregoing is provided to assist in understanding the technical solutions of the present invention, and is not to be construed as limiting the scope of protection of the present invention; insubstantial modifications and variations from the above teachings are within the scope of the invention as claimed.

Claims (5)

1. The utility model provides a lay auxiliary assembly in building construction digs stake steel reinforcement cage hole soon, including chassis (1), support arm (3), wheel carrier (4) and splint (6), both sides all are equipped with support arm (3) around chassis (1) top, both sides all are equipped with wheel carrier (4) around chassis (1), wheel carrier (4) all are connected with adjacent support arm (3), splint (6) are used for pressing from both sides tight reinforcement cage, characterized by, still including switch board (2), control panel (5), tilting assembly (7), clamping assembly (8), adjusting assembly (9) and lifting assembly (10), the right front side at chassis (1) top is equipped with switch board (2), be equipped with control panel (5) in the middle part of the support arm (3) front side of front side, be equipped with between the upper portion right side of support arm (3) and be used for carrying out tilting assembly (7) to reinforcement cage, be equipped with clamping assembly (8) on tilting assembly (7), install on clamping assembly (8), be equipped with on clamping assembly (8) and be used for carrying out spacing adjusting assembly (9) to splint (6), be equipped with on tilting assembly (7) and lifting assembly (10) is used for lifting assembly to go on lifting assembly (10);

the turnover assembly (7) comprises a hinge shaft (71), a trapezoid pipe (72), a steel pipe frame (73), a vertical plate (74), a pull rope (75), a first winch (76), a lifting key (77) and a landing key (78), wherein the hinge shaft (71) is rotatably arranged between the right sides of the upper part of the support arm (3), the trapezoid pipe (72) is arranged in the middle of the hinge shaft (71), the vertical plate (74) is arranged between the front side and the rear side of the hinge shaft (71), the steel pipe frame (73) is arranged between the right side of the vertical plate (74) and the top of the trapezoid pipe (72), the first winch (76) is arranged on the left side of the top of the chassis (1), the pull rope (75) is wound on a winding disc of the first winch (76), the upper end of the pull rope (75) is connected with the upper part of the vertical plate (74), the left upper part of the front side of the control board (5) is provided with the lifting key (77), the left upper part of the front side of the control board (5) is provided with the landing key (78), and the landing key (78) is positioned on the right side of the lifting key (77);

the clamping assembly (8) comprises a guide seat (81), a connecting seat (82), a hinging seat (83), a hinging plate (84), a first electric push rod (85), a rotating shaft (86), a shaft sleeve (87), a clamping key (88) and a loosening key (89), wherein the guide seat (81) is arranged on the right part of the trapezoid pipe (72) in a sliding mode, the rotating shaft (86) is arranged in the middle of the bottom of the guide seat (81), the shaft sleeve (87) is rotatably arranged on the rotating shaft (86), the connecting seat (82) is arranged on the outer side of the shaft sleeve (87), the hinging seat (83) is arranged at the bottom of the connecting seat (82), the hinging plates (84) are rotatably arranged on the front side and the rear side of the hinging seat (83), the lower inner side of the hinging plate (84) is connected with the adjacent hinging plate (6), the first electric push rod (85) is rotatably arranged in the middle of the upper part of the hinging plate (84) on the front side of the first electric push rod (85), the clamping key (88) is arranged on the right upper part of the front side of the control plate (5), the loosening key (89) is arranged on the right upper part of the front side of the control plate (5), and the loosening key (88) is located on the right side of the front side of the control plate (5).

The adjusting component (9) comprises a fixed plate (91), a connecting rope (92), a limiting shaft (94), a first wire guide wheel (95) and a first spring (96), wherein the fixed plate (91) is arranged on the left side and the right side of the inside of the connecting seat (82), the connecting rope (92) is arranged in the middle of the outer side of the fixed plate (91), limiting holes (93) are formed in the left side and the right side of the lower portion of the guide seat (81), the limiting shaft (94) is arranged on the left side and the right side of the upper portion of the connecting seat (82) in a sliding mode, the limiting shaft (94) can be inserted into the adjacent limiting holes (93) in an upward moving mode, the first wire guide wheel (95) is arranged at the bottom of the limiting shaft (94), the connecting rope (92) bypasses the bottom of the first wire guide wheel (95) on the same side, the first spring (96) is wound on the limiting shaft (94), and two ends of the first spring (96) are connected with the first wire guide wheel (95) and the connecting seat (82) respectively;

the lifting assembly (10) comprises a second winch (101), a third winch (102), a first pull rope (103), a first contact switch (104), a second pull rope (105), a second contact switch (106), a second wire wheel (107), a lifting key (108) and a descending key (109), wherein the second winch (101) is arranged at the front lower part of the left side of the vertical plate (74), the third winch (102) is arranged at the rear lower part of the left side of the vertical plate (74), the first pull rope (103) is wound on a wire reel of the third winch (102), the other end of the first pull rope (103) is connected with the left end of a left connecting rope (92), the first pull rope (104) is arranged at the left part of the front side of the trapezoid pipe (72), the second pull rope (105) is wound on the wire reel of the second winch, the other end of the second pull rope (105) is connected with the right end of the right connecting rope (92), the second contact switch (106) is arranged at the right part of the front right side of the trapezoid pipe (72), the second wire wheel (108) is wound on the front lower part of the right side of the trapezoid pipe (72), the lower wire wheel (107) is wound on the front lower part of the second wire (107), the down key (109) is positioned at the upper right of the up key (108);

the steel reinforcement cage positioning device comprises a steel reinforcement cage positioning device, and is characterized by further comprising a positioning assembly (11) used for positioning the steel reinforcement cage, wherein the positioning assembly (11) comprises guide rods (111), guide sleeves (112), second electric push rods (113), semicircular plates (114), arc magnets (115) and positioning keys (116), the guide rods (111) are symmetrically arranged around the right side of the top of the chassis (1), the guide rods (111) are four in number, the guide sleeves (112) are slidably arranged between the upper parts of the two guide rods (111) on the same side, the second electric push rods (113) are symmetrically arranged around the right side of the top of the chassis (1), the second electric push rods (113) are located outside the guide sleeves (112), the tops of telescopic rods of the second electric push rods (113) are connected with the upper parts of the adjacent guide sleeves (112), the semicircular plates (114) are arranged between the lower parts of the inner sides of the guide sleeves (112), the middle parts of the semicircular plates (114) are provided with the arc magnets (115), the positioning keys (116) are arranged on the lower parts of the front sides of the control plates (5), and the positioning keys (116) are located on the upper right sides of the descending keys (109).

2. The rotary pile reinforcement cage hole placement auxiliary equipment for building construction according to claim 1, further comprising a buffer assembly (12) for buffering and supporting the vertical plate (74), wherein the buffer assembly (12) comprises a bearing frame (121), a cylinder body (122), a piston (123), a supporting rod (124), the contact block (125), a cylinder (127), a sealing plate (128) and a second spring (129), the bearing frame (121) is arranged between the left sides of the lower parts of the supporting arms (3), the cylinder body (122) is arranged in the middle of the upper parts of the bearing frame (121), the piston (123) is arranged on the upper side of the inside of the cylinder body (122) in a sliding mode, the supporting rod (124) is arranged at the top of the piston (123), the contact block (125) is connected with the bearing frame (121) in a sliding mode, the vertical plate (74) rotates to be in contact with the contact block (125), a backflow hole (126) is formed in the middle of the lower part of the cylinder body (122), the lower parts of the cylinder body (122) are provided with the cylinders (127) and are communicated, four second springs (129) are arranged between the inner tops of the cylinder (127), and the sealing plate (128) is arranged at the bottom of the second spring (128).

3. The rotary pile reinforcement cage hole internal placement auxiliary equipment for building construction according to claim 2 is characterized by further comprising a locking component (13) used for fixing the position of the reinforcement cage, wherein the locking component (13) comprises a third electric push rod (131), a connecting cylinder (132), an arc plate (133) and a fixing column (134), the right part of the outer side of each clamping plate (6) is provided with the third electric push rod (131), the outer side of each telescopic rod of each third electric push rod (131) is provided with the connecting cylinder (132), the inner side of each connecting cylinder (132) is provided with an arc plate (133), the inner sides of the arc plates (133) are provided with the fixing columns (134) at intervals, and the fixing columns (134) are connected with the adjacent clamping plates (6) in a sliding mode.

4. A rotary pile reinforcement cage hole internal placement auxiliary device for construction according to claim 3, further comprising an anti-tipping component (14) for preventing the rotary pile reinforcement cage hole internal placement auxiliary device for construction from tipping, wherein the anti-tipping component (14) comprises a placement plate (141), a pressing plate (142), a weight box (143), a conical head rod (144), a sealing tube (145) and a third spring (146), the placement plate (141) is arranged on the left side of the chassis (1), the sealing tube (145) is arranged on the left side of the support arm (3) and is connected with the placement plate (141), the conical head rod (144) is arranged in the sealing tube (145) in a sliding manner, a pressing plate (142) is arranged between the tops of the conical head rod (144), the weight box (143) is arranged on the top of the pressing plate (142), the third spring (146) is wound on the upper part of the conical head rod (144), and two ends of the third spring (146) are respectively connected with the sealing tube (145) and the conical head rod (144).

5. The auxiliary equipment is placed in a hole of a rotary pile reinforcement cage for building construction according to claim 4, wherein the control cabinet (2) comprises a switch power supply, a control module and a power supply module, the switch power supply supplies power for the auxiliary equipment placed in the hole of the rotary pile reinforcement cage for the whole building construction, the power supply module is connected with a main power supply switch through a circuit, the control module and the power supply module are electrically connected, the control module is connected with a DS1302 clock circuit and a 24C02 circuit, a lifting key (77), a falling key (78), a clamping key (88), a loosening key (89), a lifting key (108), a falling key (109), a positioning key (116), a first contact switch (104) and a second contact switch (106) are electrically connected with the control module, and the first winch (76), the first electric push rod (85), the second winch (101), the third winch (102), the second electric push rod (113) and the third electric push rod (131) are all connected with the control module through peripheral circuits.