CN210421100U - Reinforced concrete fills uses vibrator - Google Patents

Abstract

The utility model discloses a reinforced concrete fills and uses vibrator, including bored concrete pile, steel reinforcement cage and vibrator, the steel reinforcement cage is placed in the bored concrete pile, vibrator is fixed in the bored concrete pile top, and vibrator one end is connected with the steel reinforcement cage, the utility model discloses a vibrator produces vibrations and drives the holistic vibrations of steel reinforcement cage to make the bored concrete pile reduce the production of defects such as honeycomb, cavity, double-layered mud, segregation when filling, also make the muddy earth among the bored concrete pile fill more fast, make the concrete of filling more closely knit through the holistic vibrations of steel reinforcement cage, the quality of becoming the stake is more excellent.

Description

Reinforced concrete fills uses vibrator

Technical Field

The utility model relates to a reinforced concrete fills technical field, specifically is a reinforced concrete fills uses vibrator.

Background

The bored concrete pile is made up by directly making holes on the designed pile position, making its cross-section be circular, after the holes are formed, placing reinforcing cage in the holes and pouring concrete. The cast-in-place pile is mainly used for urban buildings, and can be divided into a cast-in-place pile, a pipe-sinking cast-in-place pile, a manual hole digging cast-in-place pile, an explosion-expanded cast-in-place pile and the like according to different hole forming methods. The method is divided into three methods, namely slurry wall protection pore-forming, dry operation pore-forming and casing wall protection, according to whether a drill bit of the drilling machine is constructed in a soil aquifer or not.

However, in the prior art, some pile concrete is not compacted by vibration, and has the defects of honeycombs, cavities, mud clamping, segregation and the like, so that the quality of a formed pile is influenced.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a reinforced concrete fills uses vibrator to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a vibrator for reinforced concrete fills, includes bored concrete pile, steel reinforcement cage and vibrator, the steel reinforcement cage is placed in the bored concrete pile, vibrator is fixed in the bored concrete pile top, and vibrator one end is connected with the steel reinforcement cage.

Preferably, vibrator comprises driving piece, driving medium, backup pad, telescopic link, bottom plate, roof and connecting rod, the bottom plate is fixed in the bored concrete pile top, two a set of in backup pad are equipped with the multiunit, and angular distribution such as multiunit backup pad fixes at the bottom plate top, the driving piece is fixed on the bottom plate, the driving medium is equipped with a plurality ofly, and angular distribution such as a plurality of driving mediums and driving piece fix on the bottom plate, the telescopic link is equipped with a plurality ofly, and angular distribution such as a plurality of telescopic links fix on the bottom plate, and a plurality of telescopic link tops all are fixed bottom the roof, the connecting rod is equipped with a plurality ofly, and angular distribution such as a plurality of connecting rods fixes at the roof top, and.

Preferably, the driving piece comprises drive shaft, drive gear, driven gear and driving motor, driving motor fixes on the bottom plate surface, and the driving motor output is fixed with drive gear, drive gear and driven gear meshing, and the fixed cover of driven gear is in the drive shaft outside, the drive shaft both ends are passed through the bearing and are rotated with two backup pads respectively and be connected.

Preferably, the driving medium comprises transmission shaft, disc, pivot, connecting plate and U shell, transmission shaft and disc all are equipped with two, and two discs are fixed respectively in the adjacent one end of two transmission shafts, the transmission shaft is kept away from disc one end and is all rotated through bearing and backup pad and be connected, the pivot both ends are fixed with disc one side respectively, connecting plate one end is passed through the round pin axle and is connected with the roof bottom rotation, and other end sliding sleeve is in the pivot outside.

Preferably, first universal joints are symmetrically arranged at two ends of the driving part, a plurality of second universal joints are uniformly arranged among the plurality of driving parts, two ends of the driving shaft are fixed with one ends of the two transmission shafts through the first universal joints, and adjacent ends of the plurality of transmission shafts are fixed through the second universal joints.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model discloses a vibrator produces vibrations and drives the holistic vibrations of steel reinforcement cage to make the bored concrete pile reduce the production of defects such as honeycomb, cavity, double-layered mud, segregation when filling, also make the earth that mixes in the bored concrete pile fill more fast, make the concrete of filling more closely knit through the holistic vibrations of steel reinforcement cage, the quality of piling is more excellent.

2. The utility model discloses a first universal joint and second universal joint provide the synchronous drive to a plurality of driving mediums to make vibrator produce high-efficient stable synchronous vibrations.

Drawings

FIG. 1 is a schematic view of the whole partial sectional structure of the present invention;

FIG. 2 is a schematic view of the structure of the vibration device of the present invention;

fig. 3 is an enlarged view of a portion a in fig. 2.

In the figure: 1-filling a pile; 2-a reinforcement cage; 3-a vibration device; 4-a drive member; 5-a transmission member; 6-a support plate; 7-a telescopic rod; 8-a bottom plate; 9-a top plate; 10-a connecting rod; 11-a drive shaft; 12-a drive gear; 13-a driven gear; 14-a drive motor; 15-a drive shaft; 16-a disc; 17-a rotating shaft; 18-a connecting plate; 19-first universal joint; 20-second universal joint.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-3, the vibrator for pouring reinforced concrete in the drawings includes a pouring pile 1, a reinforcement cage 2 and a vibrator 3, wherein the reinforcement cage 2 is placed in the pouring pile 1, the vibrator 3 is fixed at the top of the pouring pile 1, and one end of the vibrator 3 is connected with the reinforcement cage 2.

The vibration device 3 consists of a driving piece 4, a transmission piece 5, a supporting plate 6, a telescopic rod 7, a bottom plate 8, a top plate 9 and a connecting rod 10, the bottom plate 8 is fixed on the top of the cast-in-place pile 1, the two support plates 6 are in one group and are provided with a plurality of groups, a plurality of groups of supporting plates 6 are distributed at equal angles and fixed on the top of the bottom plate 8, the driving piece 4 is fixed on the bottom plate 8, a plurality of driving pieces 5 are arranged, a plurality of transmission pieces 5 and driving pieces 4 are fixed on the bottom plate 8 in an equal angle distribution, a plurality of telescopic rods 7 are arranged, a plurality of telescopic rods 7 are distributed and fixed on the bottom plate 8 at equal angles, the tops of the telescopic rods 7 are all fixed with the bottom of the top plate 9, a plurality of connecting rods 10 are arranged, and a plurality of connecting rods 10 are fixed at the top of the top plate 9 in an equal-angle distribution manner, one end of each connecting rod 10 is connected with the steel reinforcement cage 2, and vibration of the steel reinforcement cage 2 is realized through the vibration device 3.

The driving piece 4 comprises drive shaft 11, drive gear 12, driven gear 13 and driving motor 14, driving motor 14 is fixed on 8 surfaces of bottom plate, and 14 output ends of driving motor are fixed with drive gear 12, drive gear 12 meshes with driven gear 13, and the fixed cover of driven gear 13 is in the 11 outsides of drive shaft, 11 both ends of drive shaft rotate with two backup pads 6 respectively through the bearing and are connected, provide power through driving piece 4.

Transmission piece 5 comprises transmission shaft 15, disc 16, pivot 17, connecting plate 18 and U shell 21, transmission shaft 15 and disc 16 all are equipped with two, and two discs 16 fix respectively in the adjacent one end of two transmission shafts 15, transmission shaft 15 is kept away from disc 16 one end and is all rotated with backup pad 6 through the bearing and be connected, 17 both ends of pivot are fixed with disc 16 one side respectively, 18 one end of connecting plate is passed through the round pin axle and is connected with the rotation of roof 9 bottom, and other end sliding sleeve is in the 17 outsides of pivot, drives roof 9 up-and-down motion through transmission piece 5 to drive the vibrations of steel reinforcement cage 2.

The two ends of the driving part 4 are symmetrically provided with first universal joints 19, a plurality of second universal joints 20 are evenly arranged between the plurality of driving parts 5, the two ends of the driving shaft 11 are fixed with one ends of the two transmission shafts 15 through the first universal joints 19, the adjacent ends of the plurality of transmission shafts 15 are fixed through the second universal joints 20, and synchronous transmission of the plurality of driving parts 5 is provided through the first universal joints 19 and the second universal joints 20, so that the vibration device 3 generates efficient and stable synchronous vibration.

The specific implementation mode is as follows: when concrete is poured, the driving motor 14 rotates to drive the driving gear 12 fixed at the output end thereof to rotate, so that the driving shaft 11 fixed with the driven gear 13 rotates, because the two ends of the driving shaft 11 are in transmission connection with the two transmission shafts 15 through the first universal joints 19, and the transmission shafts 15 are in transmission connection through the second universal joints 20, the transmission shafts 15 are driven to synchronously rotate through the rotation of the driving shaft 11, even if the disc 16 rotates, the rotating shaft 17 is fixed at the position of the center of the circle of the disc 16, so that the rotating shaft 17 is driven to do eccentric motion through the rotation of the disc 16, namely, the connecting plate 18 is driven to move up and down, so that the top plate 9 is driven to vibrate up and down, the vibration of the reinforcement cage 2 is realized, thereby the defects of honeycomb, cavity, mud clamping, segregation and the like are reduced when the pouring pile 1 is poured, and the concrete pouring in the pouring pile 1 is quicker, the poured concrete is more compact and the quality of the formed pile is better by the integral vibration of the reinforcement cage 2.

In this scheme, the preferred Y80M1-2 model of driving motor 14, motor operation circuit are regular motor just reversing control program, and the circuit operation is current conventional circuit, the utility model discloses circuit and control that relate to are prior art, do not carry out too much the repeated description here.

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

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

Claims (5)

1. The utility model provides a reinforced concrete is bored concrete and is used vibrator, includes bored concrete pile (1), steel reinforcement cage (2) and vibrator (3), its characterized in that: the steel reinforcement cage (2) is placed in the cast-in-place pile (1), the vibration device (3) is fixed at the top of the cast-in-place pile (1), and one end of the vibration device (3) is connected with the steel reinforcement cage (2).

2. The vibrating device for reinforced concrete pouring according to claim 1, wherein: the vibration device (3) comprises a driving part (4), a driving part (5), a supporting plate (6), telescopic rods (7), a bottom plate (8), a top plate (9) and connecting rods (10), the bottom plate (8) is fixed at the top of the filling pile (1), the supporting plates (6) are in a group of two, a plurality of groups are arranged, the groups of supporting plates (6) are fixed at the top of the bottom plate (8) in an equal angular distribution manner, the driving part (4) is fixed on the bottom plate (8), the driving parts (5) are provided with a plurality of driving parts (5) and the driving parts (4) are fixed on the bottom plate (8) in an equal angular distribution manner, the telescopic rods (7) are provided with a plurality of telescopic rods, the telescopic rods (7) are fixed on the bottom plate (8) in an equal angular distribution manner, the tops of the telescopic rods (7) are fixed with the bottom of the top plate (9), the connecting rods (10) are provided with a plurality of connecting rods, and one end of the connecting rod (10) is connected with the reinforcement cage (2).

3. The vibrating device for reinforced concrete pouring according to claim 2, wherein: the driving part (4) comprises a driving shaft (11), a driving gear (12), a driven gear (13) and a driving motor (14), the driving motor (14) is fixed on the surface of the bottom plate (8), the output end of the driving motor (14) is fixed to the driving gear (12), the driving gear (12) is meshed with the driven gear (13), the driven gear (13) is fixedly sleeved on the outer side of the driving shaft (11), and the two ends of the driving shaft (11) are rotatably connected with the two supporting plates (6) through bearings respectively.

4. A vibrating device for reinforced concrete pouring according to claim 3, wherein: transmission member (5) comprise transmission shaft (15), disc (16), pivot (17) and connecting plate (18), transmission shaft (15) and disc (16) all are equipped with two, and two disc (16) are fixed respectively in two adjacent one ends of transmission shaft (15), disc (16) one end is kept away from in transmission shaft (15) all rotates through bearing and backup pad (6) and is connected, pivot (17) both ends are fixed with disc (16) one side respectively, connecting plate (18) one end is passed through the round pin axle and is connected with roof (9) bottom rotation, and other end sliding sleeve is in the pivot (17) outside.

5. The vibrating device for reinforced concrete pouring according to claim 4, wherein: the driving device is characterized in that first universal joints (19) are symmetrically arranged at two ends of the driving piece (4), a plurality of second universal joints (20) are uniformly arranged among the plurality of driving pieces (5), two ends of the driving shaft (11) are fixed with one ends of the two transmission shafts (15) through the first universal joints (19), and the adjacent ends of the plurality of transmission shafts (15) are fixed through the second universal joints (20).

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