CN117365112B - Concrete placement device of building engineering construction - Google Patents

Abstract

The invention discloses a concrete pouring device for building engineering construction, which comprises a pouring hopper and a feeding cylinder, wherein the feeding cylinder is used for conveying stirred concrete, the outer surface of the feeding cylinder is communicated with a telescopic hose, the top end of the telescopic hose is communicated with the pouring hopper, one end of the feeding cylinder, which is far away from the telescopic hose, is communicated with a pouring assembly, the position, which is far away from the feeding cylinder, of the pouring assembly is fixedly connected with a knocking assembly, and the inner surface of the feeding cylinder is rotationally connected with a spiral rotating rod. This concrete placement device of building engineering construction utilizes the rotation of spiral bull stick to accelerate the speed that concrete circulates inside the feeding cylinder, prevents that the residual circulation that influences the concrete from appearing when the inside circulation of feeding cylinder of concrete, is convenient for accelerate the dropping of the inside concrete of feeding cylinder, prevents that the feeding cylinder from remaining to carry out long-time whereabouts after the concrete placement is accomplished, ensures that equipment carries out concrete placement's convenience.

Description

Concrete placement device of building engineering construction

Technical Field

The invention relates to the technical field of building construction, in particular to a concrete pouring device for building engineering construction.

Background

The concrete has wide application in the field of construction, the concrete contains sand, stone, water and other raw materials, the concrete is formed after mixing according to a certain proportion, the concrete needs to be poured in a designated area in the use process, a firm object is formed after the concrete is cooled, the concrete pouring is performed in a mould until the concrete is plasticized, the concrete is generally poured in a pumping pouring mode, the concrete is poured in sections and layers continuously, the pouring height of each layer is determined according to the structural characteristics and the degree of density of reinforcing steel bars, when the concrete is poured through pumping, the free falling height of the concrete from a material opening is not too high, but the conveying range after the concrete is stirred influences the pouring efficiency of equipment, uneven conditions appear in the equipment pouring, so that the concrete is paved after the pouring is needed manually, the pouring time of the equipment is prolonged, residues are easy to remain in the inside of a pipeline in the concrete conveying process, the residues in the pipeline affect the concrete flowing later, the residual concrete slowly drops after the pouring, the concrete is easy to remain in the inside the pipeline, the concrete after the pouring is poured, the concrete is easy to remain, and the quality of the concrete is not tightly affected after the pouring is finished.

In summary, the range of transportation after the concrete is stirred influences the pouring efficiency of the equipment, so that the equipment is uneven in pouring, residues are easy to remain in the pipeline in the transportation process of the concrete, the residues in the pipeline influence the concrete flowing in the follow-up process, and the residual concrete slowly drops after pouring.

Disclosure of Invention

Aiming at the defects of the prior art, the invention solves the technical problems by adopting the following technical scheme: the invention relates to a concrete pouring device for building engineering construction, which comprises a pouring hopper and further comprises:

the feeding cylinder is used for conveying concrete after stirring, a telescopic hose is communicated with the outer surface of the feeding cylinder, the top end of the telescopic hose is communicated with the injection hopper, a mounting assembly is fixedly connected to the position, close to the telescopic hose, of the feeding cylinder, a vibrating assembly is fixedly connected to the bottom of the mounting assembly, one end, far away from the telescopic hose, of the feeding cylinder is communicated with a pouring assembly, a knocking assembly is fixedly connected to the position, far away from the feeding cylinder, of the pouring assembly, a spiral rotating rod is rotatably connected to the inner surface of the feeding cylinder, the telescopic hose can stretch through the telescopic hose, the telescopic hose is subjected to height adjustment on the feeding cylinder, the injection hopper is mounted on concrete stirring equipment when the injection hopper is connected with concrete, the telescopic hose is stretched by the feeding cylinder fixed by an external fixing component, the spiral rotating rod is driven by a feeding motor in the feeding cylinder, and the feeding motor is mounted on the feeding cylinder, and the spiral rotating rod is used for pushing the concrete inside the feeding cylinder to move;

the pouring assembly comprises a pouring pipe, wherein the pouring pipe is provided with threads matched with a feeding cylinder, one end of the pouring pipe, which is far away from the feeding cylinder, is communicated with a connecting pipe, the inner surface of the pouring pipe is fixedly connected with an assembly frame, one side of the assembly frame, which is far away from the pouring pipe, is fixedly connected with a limiting sleeve, the inner surface of the limiting sleeve is fixedly connected with a shunting frame, the position, which is far away from the limiting sleeve, of the shunting frame is fixedly connected with a reinforcing plate, the pouring pipe is provided with threads matched with the feeding cylinder through the pouring pipe, the pouring pipe is arranged on the feeding cylinder through threads, and the limiting sleeve and the shunting frame are mutually matched in the pouring pipe to generate a shunting cavity, so that concrete of the pouring pipe is shunted through the shunting cavity, a plurality of external pipelines connected with the connecting pipe are enabled to be in contact with the concrete conveyed by the shunting cavity, and the threaded installation of the pouring pipe can be detached, so that the pouring pipe is detached and cleaned after the pouring pipe works are completed;

the knocking assembly comprises a fixed ring, the outer surface fixedly connected with reinforcing rod of fixed ring, the reinforcing rod keeps away from the one end fixedly connected with reinforcing ring of fixed ring, contacts fixed ring and reinforcing ring through the reinforcing rod, reinforcing ring and fixed ring install on the connecting pipe, and the mounted position of reinforcing rod has movable space, can carry out external pipeline's fixed when external pipeline is installed to the connecting pipe, the outer surface fixedly connected with supporting shoe of reinforcing ring, the internal surface rotation of supporting shoe is connected with the movable rod, the both ends of movable rod run through the supporting shoe and extend to the outside of supporting shoe, the surface fixedly connected with of movable rod beats the pole, receives the rocking that produces when the connecting pipe carries concrete on the reinforcing ring through the supporting shoe for the movable rod on the supporting shoe receives to rock and rotates, and the direction that the movable rod is close to the connecting pipe along with the rotation of movable rod rotates, and the position that the movable rod was kept away from the movable rod moves to the contact connecting pipe mutually, and beats the connecting pipe to the connecting pipe this moment, makes the pole beat the inside the concrete that can drop to the inside adhesion of knocking of connecting pipe.

Preferably, one end of the limiting sleeve, which is close to the connecting pipe, is fixedly connected with the pouring pipe, and one side of the shunt frame, which is close to the connecting pipe, is fixedly connected with the pouring pipe.

Preferably, one end of the feeding barrel, which is close to the limiting sleeve, extends to the inside of the pouring pipe, and the top of the vibrating assembly penetrates through the mounting assembly and extends to the inside of the mounting assembly.

Preferably, the assembly frame comprises an assembly shell, the surface fixedly connected with side pressure board of assembly shell is connected through assembly shell and side pressure board, utilizes the side pressure board to install between restriction cover and pouring pipe, and the assembly shell contact restriction cover with pour the pipe, the interior surface fixedly connected with inscribed board of assembly shell, inscribed board surface fixedly connected with base, one side fixedly connected with support of inscribed board is kept away from to the base, one side fixedly connected with assembly dish of base is kept away from to the support, support the base in the assembly shell through the inscribed board, and the support contact assembly shell on the base makes base and support cooperation support the assembly shell, and the assembly dish contacts the assembly shell on the support for the assembly dish is in the outside contact pouring pipe of assembly shell.

Preferably, one side of the support close to the assembly disc penetrates through the assembly shell and extends to the outside of the assembly shell, and one side of the assembly disc close to the support is fixedly connected with the assembly shell.

Preferably, the installation component includes the linkage board, the top fixedly connected with roating seat of linkage board, the top sliding connection of roating seat has the locking lever, the bottom of locking lever runs through the roating seat and extends to the inside of roating seat, the internal surface fixedly connected with mounting panel of roating seat, on the roating seat installation mounting panel, and the locking lever upwards pulls out the time on the roating seat, the ganging board receives thrust to drive the roating seat and rotates, and the direction of the vibration subassembly of installation on the rotatory regulation ganging board of messenger's roating seat is adjusted, and the roating seat receives the stop rotation of blockking of locking lever when the locking lever reinserts inside the roating seat, the fixed connection of position that the roating seat was kept away from to the mounting panel has the collar, carries out the adjustment of mounted position when making the collar install through the collar, and the backup pad that the collar is connected is fixed to the mounting panel, and the collar can be adjusted the installation angle of collar on a pay-off section of thick bamboo.

Preferably, the position of the mounting plate, which is close to the supporting plate, penetrates through the rotating seat and extends to the outside of the rotating seat, and the position of the mounting plate, which is close to the rotating seat, is in sliding connection with the locking rod.

Preferably, the vibrating assembly comprises a mounting cylinder, the internal surface fixedly connected with of mounting cylinder vibrates the stick, the surface fixedly connected with fixed plate of mounting cylinder, the top of fixed plate rotates and is connected with the alignment jig, is provided with the motor that vibrates through the mounting cylinder, makes the motor that vibrates drive the stick on the mounting cylinder and vibrates, and the alignment jig is installed on the linkage plate, makes the alignment jig can adjust the height of vibrating the stick, one side fixedly connected with telescopic cylinder that the alignment jig is close to the fixed plate, telescopic cylinder keeps away from the one end fixedly connected with butt joint seat of alignment jig, stretches out and draws back on the alignment jig through telescopic cylinder, makes telescopic cylinder promote the fixed plate through the butt joint seat and rotates to adjust the angle of fixed plate, along with the fixed plate is connected with the mounting cylinder, can adjust the angle that the stick inserted concrete into.

Preferably, one end of the telescopic cylinder, which is far away from the fixed plate, penetrates through the adjusting frame and extends to the inside of the adjusting frame, and one end of the docking station, which is far away from the telescopic cylinder, is rotationally connected with the fixed plate.

Preferably, the regulating frame comprises a mounting shell, the inner chamber top fixedly connected with lift cylinder of mounting shell, the bottom fixedly connected with steady piece of lift cylinder, one side fixedly connected with buffer seat that the installation shell was kept away from to the steady piece has set up three through the mounting shell on the linkage board, the lift cylinder is flexible to drive steady piece and buffer seat in the inside of mounting shell and moves, contact the mounting shell when steady piece removes, makes the removal of steady piece and buffer seat can adjust the height of vibrating rod, and buffer seat self has the spring, buffers when making the buffer seat receive the vibration that the vibrating rod produced, the bottom fixedly connected with circulator of buffer seat, the one end fixedly connected with regulating disk that the buffer seat was kept away from to the circulator is installed on the buffer seat for the circulator receives the vibration transmission of vibrating rod to the buffer seat, and the rotatory angle that makes the regulating disk rotatory to the fixed plate is adjusted to the during the circulator during operation.

The invention provides a concrete pouring device for building engineering construction. The beneficial effects are as follows:

1. this concrete placement device of building engineering construction, flexible hose, the feed cylinder, the spiral bull stick, can stretch out and draw back through flexible hose, make flexible hose carry out altitude mixture control on the feed cylinder, the feed cylinder that annotates the hopper and external fixed part is fixed stretches flexible hose, the influence that appears contracting or incline when avoiding flexible hose to carry concrete leads to the concrete to spill, the rotatory speed that accelerates concrete at the inside circulation of feed cylinder that utilizes the spiral bull stick, prevent that concrete from appearing remaining when the inside circulation of feed cylinder from influencing the circulation of concrete, be convenient for accelerate the dropping of the inside concrete of feed cylinder, it carries out long-time drip to prevent that the feed cylinder is remained after the concrete placement is accomplished, ensure that equipment carries out concrete placement's convenience.

2. This concrete placement device of building engineering construction has the screw thread with feeding section of thick bamboo looks adaptation through pouring the pipe to connect the concrete that feeding section of thick bamboo carried, utilized the connecting pipe to set up a plurality of on pouring the pipe, make the external pipeline contact that the connecting pipe is connected shunt the concrete that the chamber was carried, can carry the concrete to different positions, accelerated the pouring of concrete, the external pipeline of installation on the connecting pipe can increase the scope that concrete was poured, guarantees to evenly pour when concrete was poured.

3. This concrete placement device of building engineering construction is connected with the side pressure board through the assembly shell, and the side pressure board carries out the top to the restriction cover tightly to increased the tolerance of restriction cover, prevented that the fracture from appearing on the surface of restriction cover from leaking when leading to the concrete circulation, made the assembly shell play sealed effect to the position of pouring pipe circulation concrete, prevented that concrete from flowing through the slope from the concrete when pouring the pipe and getting into restriction cover inside.

4. This concrete placement device of building engineering construction, internal connection board support base in the assembly shell, make base and support cooperation support the assembly shell, be convenient for guarantee assembly shell mounted position's integrality, ensure assembly shell mounted position's sealed effect, the assembly dish contacts the assembly shell on the support, and the assembly dish of being convenient for is restricted the mounted position of assembly shell with the contact of pouring the pipe, prevents that the assembly shell from receiving the pressure of concrete and taking place the skew.

5. This concrete placement device of building engineering construction has the structure that opens and shuts through the collar, carries out the regulation of mounted position when making the collar installation, can take off the collar from the feeding section of thick bamboo when not using, is convenient for dismantle the transport in equipment removal, on the roating seat installation mounting panel, and the locking pole is upwards pulled out on the roating seat, the gangbar receives thrust and drives the roating seat and rotate, the direction of the gangbar of being convenient for is difficult for causing the influence to the installation of feeding section of thick bamboo, avoids the skew of roating seat to vibrate the work of vibrating of subassembly.

6. This concrete placement device of building engineering construction is provided with the vibrating motor through the installation section of thick bamboo, makes the vibrating motor drive the vibrating rod and vibrate on the installation section of thick bamboo to reach the effect to concrete vibration when vibrating the rod and inserting in the concrete, prevent that the inside quality that has the air influence to pour after the concrete placement, the alignment jig is installed on the linkage board, and adjust at the degree of depth that the vibrating rod inserted the concrete, the staff of being convenient for adjusts the degree of depth that the vibrating rod inserted the concrete as required.

7. This concrete placement device of building engineering construction stretches out and draws back on the regulating frame through flexible cylinder, along with fixed plate and mounting cylinder are connected, can adjust the angle that the stick inserted the concrete that shakes, can increase the concrete range of vibrating when carrying out the angle adjustment that shakes the stick and insert, be convenient for carry out the vibration processing of concrete from different angles, contact the fixed plate with the regulating frame to the seat, ensure the stability of fixed plate mounted position.

8. This concrete placement device of building engineering construction drives firm piece and buffer seat through lifting cylinder is inside to stretch out and draw back at the installation shell and remove, and contact the installation shell when firm piece removes, makes firm piece and the removal of buffer seat can adjust the height of vibrating rod, and buffer seat self has the spring, buffers when making the buffer seat receive the vibration that vibrating rod work produced, avoids the installation shell to deflect the work that the scope was too big influences the vibrating rod on the linkage board.

9. This concrete placement device of building engineering construction installs on the buffering seat through the circulator, and the circulator during operation drives the regulating plate and rotates for the regulating plate cooperates with telescopic cylinder each other and increases the accommodation of vibrating rod, makes the vibrating rod vibrate the processing to different positions, and the concrete construction ground of the different adaptation of vibrating rod during operation of being convenient for is fixed the fixed plate of contact with the butt joint seat, prevents that the fixed plate from receiving the vibration of vibrating rod transmission to drop from the hookup location.

10. This concrete placement device of building engineering construction, through stiffener contact solid fixed ring and stiffening ring, the distance between messenger's stiffening rod restriction solid fixed ring and the stiffening ring, the supporting shoe is rocked when receiving the connecting pipe transportation concrete on the stiffening ring, the movable rod on the supporting shoe receives to rock and rotates, the direction motion that the position that the movable rod was kept away from to the knocking rod was close to the connecting pipe mutually reaches the contact connecting pipe, the knocking rod knocks the connecting pipe this moment, avoided the concrete to pile up in the connecting pipe and lead to the condition that concrete circulation slows down or blocks up.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the structure of the present invention from another view;

FIG. 3 is a cross-sectional view of a feed cylinder of the present invention;

FIG. 4 is a schematic view of a casting assembly according to the present invention;

FIG. 5 is a schematic view of another view of the casting assembly of the present invention;

FIG. 6 is a schematic view of the structure of the mounting bracket of the present invention;

FIG. 7 is an enlarged view at A in FIG. 6;

FIG. 8 is a schematic view of the mounting assembly of the present invention;

FIG. 9 is a schematic view of a rotary base according to the present invention;

FIG. 10 is a schematic view of a vibrating assembly according to the present invention;

FIG. 11 is an enlarged view at B in FIG. 10;

FIG. 12 is a schematic view of the structure of the adjusting bracket of the present invention;

FIG. 13 is a schematic view of the structure of the conditioning disk of the present invention;

FIG. 14 is a schematic view of a rapping assembly of the present invention;

fig. 15 is a schematic structural view of the reinforcing ring of the present invention.

In the figure: 1. a filling hopper; 2. a flexible hose; 3. a feeding cylinder; 4. a mounting assembly; 41. a mounting ring; 42. a support plate; 43. a locking lever; 44. a mounting plate; 45. a rotating seat; 46. a linkage plate; 5. vibrating the assembly; 51. vibrating rod; 52. a mounting cylinder; 53. a fixing plate; 54. a butt joint seat; 55. an adjusting frame; 551. a lifting cylinder; 552. a stabilizing block; 553. a mounting shell; 554. a buffer seat; 555. a rotator; 556. an adjusting plate; 56. a telescopic cylinder; 6. pouring the assembly; 61. pouring a pipe; 62. a connecting pipe; 63. a shunt frame; 64. a reinforcing plate; 65. a limiting sleeve; 66. an assembly frame; 661. a side pressure plate; 662. assembling a shell; 663. an inner connecting plate; 664. a base; 665. a bracket; 666. a mounting plate; 7. a striking assembly; 71. a fixing ring; 72. a reinforcing ring; 73. a movable rod; 74. a support block; 75. knocking the rod; 76. a reinforcing rod; 8. a spiral rotating rod.

Detailed Description

The invention will be described in further detail with reference to the drawings and the detailed description. The embodiments of the invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

In embodiment 1, referring to fig. 1 to 15, the present invention provides a technical solution: the utility model provides a concrete placement device of building engineering construction, includes annotates hopper 1, still includes:

the feeding cylinder 3 is used for conveying the concrete after stirring, the outer surface of the feeding cylinder 3 is communicated with a telescopic hose 2, the top end of the telescopic hose 2 is communicated with a pouring hopper 1, the position of the feeding cylinder 3 close to the telescopic hose 2 is fixedly connected with a mounting component 4, the bottom of the mounting component 4 is fixedly connected with a vibrating component 5, one end of the feeding cylinder 3, which is far away from the telescopic hose 2, is communicated with a pouring component 6, the position of the pouring component 6, which is far away from the feeding cylinder 3, is fixedly connected with a knocking component 7, the inner surface of the feeding cylinder 3 is rotationally connected with a spiral rotating rod 8, the telescopic hose 2 can stretch and retract through the telescopic hose 2, so that the height of the telescopic hose 2 on the feeding cylinder 3 is adjusted, the height of the pouring hopper 1 for taking concrete is adjusted, and the pouring hopper 1 for taking the concrete is arranged on a concrete stirring device, the feeding cylinder 3 fixed by the injection hopper 1 and the external fixed part stretches the telescopic hose 2, so that concrete scattering caused by shrinkage or inclination when the telescopic hose 2 conveys concrete is avoided, the spiral rotating rod 8 is driven by the feeding motor to rotate in the feeding cylinder 3, the feeding motor is arranged on the feeding cylinder 3, the spiral rotating rod 8 rotates to push the concrete in the feeding cylinder 3 to move, the speed of circulating the concrete in the feeding cylinder 3 is accelerated by utilizing the rotation of the spiral rotating rod 8, meanwhile, the concrete in the feeding cylinder 3 is stirred again by the rotation of the spiral rotating rod 8, the stirring quality of the concrete is improved, the residual influence on the circulation of the concrete when the concrete circulates in the feeding cylinder 3 is prevented, the falling of the concrete in the feeding cylinder 3 is facilitated to be quickened, the residual of the feeding cylinder 3 is prevented from being dropped for a long time after the concrete pouring is finished, the convenience of concrete pouring of the equipment is ensured;

the pouring assembly 6 comprises a pouring pipe 61, wherein the pouring pipe 61 is provided with threads matched with the feeding cylinder 3, one end of the pouring pipe 61, which is far away from the feeding cylinder 3, is communicated with a connecting pipe 62, the inner surface of the pouring pipe 61 is fixedly connected with an assembling frame 66, one side of the assembling frame 66, which is far away from the pouring pipe 61, is fixedly connected with a limiting sleeve 65, the inner surface of the limiting sleeve 65 is fixedly connected with a shunting frame 63, the position of the shunting frame 63, which is far away from the limiting sleeve 65, is fixedly connected with a reinforcing plate 64, the pouring pipe 61 is provided with threads matched with the feeding cylinder 3 through the pouring pipe 61, so that the pouring pipe 61 is mounted on the feeding cylinder 3, the concrete conveyed by the feeding cylinder 3 is connected with the limiting sleeve 65, the shunting frame 63 is matched with the pouring pipe 61 to form a shunting cavity, the concrete of the pouring pipe 61 is shunted through the shunting cavity, and a plurality of connecting pipes 62 are arranged on the pouring pipe 61, the external pipelines connected with the connecting pipes are in contact with the concrete of the shunting cavity, the concrete conveying to different positions, the concrete pouring is accelerated, the pouring of the concrete is not easy to occur, the pouring is blocked, the connecting pipes 62 are not stacked together, the connecting pipes are mounted on the connecting pipes 62 are uniformly, the connecting pipes are prevented from being broken, the connecting pipes are mounted on the connecting pipes 61, the connecting pipes are prevented from being broken, the inner side by the connecting pipes are left in the connecting pipe 61, the connecting pipe 61 is completely and the connecting pipe 61, and the connecting pipe is broken, the connecting pipe 61 is completely, and the connecting pipe is broken, and the connecting pipe is left by the connecting pipe 61;

the knocking component 7 comprises a fixed ring 71, a reinforcing rod 76 is fixedly connected to the outer surface of the fixed ring 71, a reinforcing ring 72 is fixedly connected to one end of the reinforcing rod 76 far away from the fixed ring 71, the reinforcing rod 76 contacts the fixed ring 71 and the reinforcing ring 72, the reinforcing rod 76 limits the distance between the fixed ring 71 and the reinforcing ring 72, the reinforcing ring 72 and the fixed ring 71 are arranged on a connecting pipe 62, the fixed ring 71 limits the distance of the connecting pipe 62 for installing an external pipeline, meanwhile, the installation position of the reinforcing ring 72 and the fixed ring 71 can increase the bearing capacity of the connecting pipe 62, the connecting pipe 62 is convenient for conveying concrete, the installation position of the reinforcing rod 76 is provided with a movable space, the external pipeline can be fixed when the external pipeline is installed on the connecting pipe 62, the external pipeline is prevented from falling off from the connecting pipe 62 when the external pipeline is used for conveying concrete, a supporting block 74 is fixedly connected to the outer surface of the reinforcing ring 72, the inner surface of the supporting block 74 is rotationally connected with the movable rod 73, the two ends of the movable rod 73 penetrate through the supporting block 74 and extend to the outside of the supporting block 74, the outer surface of the movable rod 73 is fixedly connected with the knocking rod 75, the movable rod 73 on the supporting block 74 is rotated by shaking when the connecting pipe 62 is received on the reinforcing ring 72 through the supporting block 74, the knocking rod 75 is driven to rotate along with the rotation of the movable rod 73 in the direction of being close to the connecting pipe 62, the knocking rod 75 moves to be in contact with the connecting pipe 62 in the direction of being close to the connecting pipe 62 at the position of being far away from the movable rod 73, at the moment, the knocking rod 75 knocks the connecting pipe 62, so that the knocking rod 75 can drop the concrete adhered to the inside of the connecting pipe 62, the condition that the concrete flows slowly or is blocked due to accumulation in the connecting pipe 62 is avoided, ensuring a quick circulation of the concrete in the connection pipe 62.

One end of the limiting sleeve 65, which is close to the connecting pipe 62, is fixedly connected with the pouring pipe 61, and one side of the split-flow frame 63, which is close to the connecting pipe 62, is fixedly connected with the pouring pipe 61.

Wherein, the one end of the feeding cylinder 3 near the limiting sleeve 65 extends to the inside of the pouring pipe 61, and the top of the vibrating assembly 5 penetrates through the mounting assembly 4 and extends to the inside of the mounting assembly 4.

Wherein, assembly jig 66 includes assembly shell 662, the surface fixedly connected with side pressure plate 661 of assembly shell 662, be connected through assembly shell 662 and side pressure plate 661, utilize side pressure plate 661 to install between restriction sleeve 65 and pouring tube 61, and side pressure plate 661 carries out the top tightly to restriction sleeve 65, thereby the tolerance of restriction sleeve 65 has been increased, prevent the surface of restriction sleeve 65 to appear breaking and leak when leading to the concrete circulation, and assembly shell 662 contacts restriction sleeve 65 and pouring tube 61, make assembly shell 662 play the sealed effect to the position of pouring tube 61 circulation concrete, prevent concrete from getting into restriction sleeve 65 from pouring tube 61 and getting into the slope of concrete circulation, the internal surface fixedly connected with inscription plate 663 of assembly shell 662, inscription plate 663 surface fixedly connected with base 664, one side fixedly connected with support 665 of base 664 is kept away from, one side fixedly connected with assembly dish 666 of support 664 is kept away from in the interior fishplate 663 in assembly shell 662, support base 664 through interior fishplate 663, and support 665 contact with assembly dish 666 on base 666, make base 662 and support 662 support the position of pouring tube 662, make assembly shell 662 take place sealed effect to guarantee that the position of pouring tube 662 is convenient for carrying out the installation place at the support sleeve 662, the sealed condition is guaranteed to be convenient for the position of the installation place at the support sleeve 662, the sealed condition is contacted with the outside of the assembly dish 662, the sealed effect is guaranteed to be contacted with the assembly dish is placed on the outside of the installation position of the installation sleeve 662, the installation place is convenient to be contacted with the outside of the support sleeve 662, and is contacted with the support stand seal sleeve 662 is mounted to be contacted with the support plate mounting plate 666.

Wherein a side of the bracket 665 adjacent to the mounting plate 666 penetrates the mounting housing 662 and extends to the outside of the mounting housing 662, and a side of the mounting plate 666 adjacent to the bracket 665 is fixedly coupled to the mounting housing 662.

Wherein the installation component 4 comprises a linkage plate 46, a rotating seat 45 is fixedly connected to the top of the linkage plate 46, a locking rod 43 is slidably connected to the top of the rotating seat 45, the bottom end of the locking rod 43 penetrates through the rotating seat 45 and extends to the inside of the rotating seat 45, an installation plate 44 is fixedly connected to the inner surface of the rotating seat 45, the installation plate 44 is installed through the rotating seat 45, when the locking rod 43 is pulled out upwards on the rotating seat 45, the linkage plate 46 is driven by thrust to rotate the rotating seat 45, the direction of the vibrating component 5 installed on the linkage plate 46 is regulated by the rotation of the rotating seat 45, the direction of the linkage plate 46 is not easy to influence the installation of the feeding cylinder 3, when the locking rod 43 is reinserted into the rotating seat 45, the rotating seat 45 is stopped rotating by the blocking of the locking rod 43, the situation that automatic rotation of the rotating seat 45 is not easy to happen during subsequent work, avoiding the deviation of the rotating seat 45 to influence the vibrating operation of the vibrating assembly 5, the mounting plate 44 is fixedly connected with the supporting plate 42 at a position far away from the rotating seat 45, the top of the supporting plate 42 is fixedly connected with the mounting ring 41, the mounting ring 41 is provided with an opening and closing structure, the mounting position of the mounting ring 41 is adjusted when the mounting ring 41 is mounted, the mounting ring 41 can be taken down from the feeding cylinder 3 when not in use, the mounting ring 41 is convenient to detach and carry when equipment is moved, the situation that the mounting plate 44 is difficult to place when the equipment is prevented from being carried is avoided, the supporting plate 42 connected with the mounting ring 41 is fixed with the mounting plate 44, the supporting plate 42 and the mounting plate 44 are mutually matched to generate a grabbing space, thereby workers can grab and apply pressure when the equipment integrally moves, further the equipment integrally moves and adjusts the mounting angle of the mounting ring 41 when the mounting ring 41 is assembled and disassembled on the feeding cylinder 3, the mounting position of the mounting ring 41 is prevented from affecting the operation of the feed cylinder 3.

Wherein, the position of the mounting plate 44 near the supporting plate 42 penetrates the rotating seat 45 and extends to the outside of the rotating seat 45, and the position of the mounting plate 44 near the rotating seat 45 is slidingly connected with the locking rod 43.

Wherein, the subassembly 5 vibrates including the installation section of thick bamboo 52, the internal surface fixedly connected with of installation section of thick bamboo 52 shakes stick 51, the surface fixedly connected with fixed plate 53 of installation section of thick bamboo 52, the top of fixed plate 53 rotates and is connected with regulating frame 55, be provided with the vibrating motor through installation section of thick bamboo 52, make the vibrating motor drive stick 51 and vibrate on installation section of thick bamboo 52, thereby reach the effect to concrete vibration when vibrating stick 51 inserts in the concrete, make the vibration of stick 51 handle the cavity of concrete, prevent that the concrete from pouring the back inside has the quality of air influence, regulating frame 55 installs on linkage plate 46, make regulating frame 55 can be to the height-adjusting of stick 51, can insert stick 51 in the concrete when vibrating, and adjust the degree of depth that stick 51 inserted the concrete, the staff of being convenient for adjusts the stick 51 as required, one side fixed connection telescopic cylinder 56 that the stick 55 is close to fixed plate 53, make telescopic cylinder 56 keep away from the fixed connection of regulating frame 55 have the fixed connection seat 54 to handle the air in the concrete, can be adjusted the fixed angle along with the fixed seat of adjusting frame 53, can be adjusted along with the fixed angle of the fixed seat of adjusting plate 53, can be adjusted along with the fixed angle of the fixed seat of the fixed connection 53, can be adjusted along with the fixed angle of the fixed seat of the fixed bearing 53.

Wherein, the end that flexible cylinder 56 kept away from fixed plate 53 runs through alignment jig 55 and extends to the inside of alignment jig 55, and the one end that the butt joint seat 54 kept away from flexible cylinder 56 rotates with fixed plate 53 and is connected.

Wherein, the adjusting frame 55 comprises a mounting shell 553, a lifting cylinder 551 is fixedly connected with the top of the inner cavity of the mounting shell 553, a stabilizing block 552 is fixedly connected with the bottom end of the lifting cylinder 551, one side of the stabilizing block 552 away from the mounting shell 553 is fixedly connected with a buffer seat 554, three lifting cylinders 551 are arranged on the linkage plate 46 through the mounting shell 553, the lifting cylinder 551 stretches and contracts in the mounting shell 553 to drive the stabilizing block 552 and the buffer seat 554 to move, the stabilizing block 552 contacts with the mounting shell 553 when moving, the moving of the stabilizing block 552 and the buffer seat 554 can adjust the height of the vibrating rod 51, the contact of the stabilizing block 552 and the buffer seat 554 can support the inside of the mounting shell 553, thereby maintaining a movable space in the mounting shell 553, the buffer seat 554 is provided with a spring, and the buffer seat 554 is buffered when being vibrated by the operation of the vibrating rod 51, avoid installing shell 553 to influence the work of vibrating rod 51 on linkage plate 46 too big deflection range, the bottom fixedly connected with circulator 555 of buffer seat 554, the one end fixedly connected with adjustment disk 556 that buffer seat 554 was kept away from to circulator 555, install on buffer seat 554 through circulator 555, make circulator 555 receive the vibration transmission of vibrating rod 51 to on the buffer seat 554, the during operation of circulator 555 drives adjustment disk 556 and rotates, make adjustment disk 556 rotatory adjust the angle of fixed plate 53, make adjustment disk 556 and telescopic cylinder 56 mutually support and increase the accommodation range of vibrating rod 51, make vibrating rod 51 vibrate the processing to different positions, the concrete construction ground of being convenient for the vibrating rod 51 during operation adaptation difference, adjustment disk 556 is fixed with the fixed plate 53 of butt joint seat 54 pair contact, prevent that fixed plate 53 receives the vibration of vibrating rod 51 transmission to drop from the hookup location.

In embodiment 2, referring to fig. 1 to 15, on the basis of embodiment 1, the present invention provides a technical solution: the application method of the concrete pouring device for the construction of the building engineering comprises the following steps: the concrete mixer is characterized in that the concrete mixer is communicated with the concrete mixer through the concrete injection hopper 1, so that the concrete is injected into the concrete injection hopper 1 after being mixed, the feeding cylinder 3 is fixed by utilizing an external fixed component, and the telescopic hose 2 stretches under tension when the feeding cylinder 3 is fixed, so that the telescopic hose 2 conveys the concrete conveyed by the concrete injection hopper 1 into the feeding cylinder 3, and the spiral rotating rod 8 is driven by the feeding motor to rotate in the feeding cylinder 3, so that the spiral rotating rod conveys the injected concrete;

step two: when the concrete is split, the pouring pipe 61 is arranged on the feeding cylinder 3 through threads, so that the concrete enters the pouring pipe 61 from the feeding cylinder 3, the split flow of the concrete is performed by utilizing a split cavity formed by the split rack 63 and the limiting sleeve 65 in the pouring pipe 61, the connecting pipes 62 are arranged on the pouring pipe 61, the concrete is conveyed into different pipelines by the plurality of connecting pipes 62 to perform pouring work, the side pressing plate 661 is in contact with the limiting sleeve 65 through the side pressing plate 661, the side pressing plate 661 and the mounting shell 662 tightly prop against the position installation position of the limiting sleeve 65, the mounting disc 666 is supported by the mounting shell 662 and the bracket 665 to prop against the pouring pipe 61, and the mounting shell 662 is matched with the limiting sleeve 65 to guide the flow of the concrete;

step three: the fixed ring 71 and the reinforcing ring 72 are arranged on the connecting pipe 62, when concrete is poured, the concrete circulates in the connecting pipe 62 to shake, so that the reinforcing ring 72 is transferred to the supporting block 74 by shaking, the movable rod 73 rotates on the supporting block 74, the movable rod 73 drives the knocking rod 75 to rotate, and knocking is carried out when the knocking rod 75 rotates to contact the connecting pipe 62;

step four: the mounting ring 41 is used for mounting the fixed support plate 42 on the feeding barrel 3, the mounting ring 41 can be detached, so that the mounting position is adjusted when the mounting ring 41 is mounted, when the locking rod 43 stretches out of the rotating seat 45 under upward pulling force, the position of the rotating seat 45 connected with the linkage plate 46 is rotated under pushing force, the direction of the linkage plate 46 is adjusted, and when the rotating seat 45 stops rotating, the locking rod 43 is reinserted into the rotating seat 45, so that the rotating seat 45 stops rotating;

step five: the installation shell 553 is arranged on the linkage plate 46, so that the installation shell 553 moves along with the linkage plate 46, the lifting cylinder 551 stretches inside the installation shell 553 to drive the stabilizing block 552 and the buffer seat 554 to descend, the rotator 555 drives the adjusting plate 556 to rotate to adjust the angle when the rotator 555 stops descending along with the buffer seat 554, the telescopic cylinder 56 stretches on the adjusting plate 556 to drive the opposite base 54 to be far away from the adjusting plate 556, the opposite base 54 pushes the fixing plate 53 to rotate on the adjusting plate 556, the installation cylinder 52 drives the vibrating rod 51 to move along with the fixing plate 53, and the vibrating motor drives the vibrating rod 51 to vibrate inside the concrete on the installation cylinder 52 when the vibrating rod 51 is inserted into the poured concrete, so that the vibrating rod 51 vibrates the poured concrete;

step six: after the vibration rod 51 is finished, the vibration motor stops working to stop the vibration of the vibration rod 51, the lifting cylinder 551 contracts in the installation shell 553, the lifting cylinder 551 drives the stabilizing block 552 and the buffer seat 554 to lift, and the adjusting disc 556 drives the fixing plate 53 to lift, so that the vibration rod 51 is pulled out of concrete.

It will be apparent that the described embodiments are only some, but not all, embodiments of the invention. All other embodiments, which can be made by those skilled in the art and which are included in the embodiments of the present invention without the inventive step, are intended to be within the scope of the present invention. Structures, devices and methods of operation not specifically described and illustrated herein, unless otherwise indicated and limited, are implemented according to conventional means in the art.

Claims (6)

1. The utility model provides a concrete placement device of building engineering construction, includes annotate hopper (1), its characterized in that still includes:

the feeding cylinder (3), the feeding cylinder (3) is used for conveying the concrete after stirring, the outer surface of the feeding cylinder (3) is communicated with a flexible hose (2), the top end of the flexible hose (2) is communicated with a filling hopper (1), a mounting component (4) is fixedly connected to the position, close to the flexible hose (2), of the feeding cylinder (3), a vibrating component (5) is fixedly connected to the bottom of the mounting component (4), one end, far away from the flexible hose (2), of the feeding cylinder (3) is communicated with a pouring component (6), the position, far away from the feeding cylinder (3), of the pouring component (6) is fixedly connected with a knocking component (7), and the inner surface of the feeding cylinder (3) is rotationally connected with a spiral rotating rod (8);

the pouring assembly (6) comprises a pouring pipe (61), the pouring pipe (61) is provided with threads matched with the feeding cylinder (3) for installation, one end of the pouring pipe (61) away from the feeding cylinder (3) is communicated with a connecting pipe (62), the inner surface of the pouring pipe (61) is fixedly connected with an assembly frame (66), one side of the assembly frame (66) away from the pouring pipe (61) is fixedly connected with a limiting sleeve (65), the inner surface of the limiting sleeve (65) is fixedly connected with a shunt frame (63), and the position of the shunt frame (63) away from the limiting sleeve (65) is fixedly connected with a reinforcing plate (64);

the knocking assembly (7) comprises a fixed ring (71), wherein a reinforcing rod (76) is fixedly connected to the outer surface of the fixed ring (71), one end, away from the fixed ring (71), of the reinforcing rod (76) is fixedly connected with a reinforcing ring (72), a supporting block (74) is fixedly connected to the outer surface of the reinforcing ring (72), a movable rod (73) is rotatably connected to the inner surface of the supporting block (74), two ends of the movable rod (73) penetrate through the supporting block (74) and extend to the outer part of the supporting block (74), and a knocking rod (75) is fixedly connected to the outer surface of the movable rod (73);

the assembly frame (66) comprises an assembly shell (662), a side pressing plate (661) is fixedly connected to the outer surface of the assembly shell (662), an inner connecting plate (663) is fixedly connected to the inner surface of the assembly shell (662), a base (664) is fixedly connected to the outer surface of the inner connecting plate (663), a support (665) is fixedly connected to one side, far away from the inner connecting plate (663), of the base (664), and an assembly disc (666) is fixedly connected to one side, far away from the base (664), of the support (665);

one side of the bracket (665) close to the assembly disc (666) penetrates through the assembly shell (662) and extends to the outside of the assembly shell (662), and one side of the assembly disc (666) close to the bracket (665) is fixedly connected with the assembly shell (662);

the installation component (4) comprises a linkage plate (46), a rotating seat (45) is fixedly connected to the top of the linkage plate (46), a locking rod (43) is slidably connected to the top of the rotating seat (45), the bottom end of the locking rod (43) penetrates through the rotating seat (45) and extends to the inside of the rotating seat (45), an installation plate (44) is fixedly connected to the inner surface of the rotating seat (45), a supporting plate (42) is fixedly connected to the position, away from the rotating seat (45), of the installation plate (44), and a mounting ring (41) is fixedly connected to the top of the supporting plate (42);

the position of the mounting plate (44) close to the supporting plate (42) penetrates through the rotating seat (45) and extends to the outside of the rotating seat (45), and the position of the mounting plate (44) close to the rotating seat (45) is in sliding connection with the locking rod (43).

2. The concrete placement device for construction engineering construction according to claim 1, wherein: one end of the limiting sleeve (65) close to the connecting pipe (62) is fixedly connected with the pouring pipe (61), and one side of the shunt frame (63) close to the connecting pipe (62) is fixedly connected with the pouring pipe (61).

3. The concrete placement device for construction engineering construction according to claim 1, wherein: one end of the feeding barrel (3) close to the limiting sleeve (65) extends to the inside of the pouring pipe (61), and the top of the vibrating assembly (5) penetrates through the mounting assembly (4) and extends to the inside of the mounting assembly (4).

4. The concrete placement device for construction engineering construction according to claim 1, wherein: the vibrating assembly (5) comprises a mounting cylinder (52), the inner surface of the mounting cylinder (52) is fixedly connected with a vibrating rod (51), the outer surface of the mounting cylinder (52) is fixedly connected with a fixing plate (53), the top of the fixing plate (53) is rotationally connected with an adjusting frame (55), one side, close to the fixing plate (53), of the adjusting frame (55) is fixedly connected with a telescopic cylinder (56), and one end, away from the adjusting frame (55), of the telescopic cylinder (56) is fixedly connected with a butt joint seat (54).

5. The concrete placement device for construction engineering construction according to claim 4, wherein: one end of the telescopic cylinder (56) far away from the fixed plate (53) penetrates through the adjusting frame (55) and extends to the inside of the adjusting frame (55), and one end of the butt joint seat (54) far away from the telescopic cylinder (56) is rotationally connected with the fixed plate (53).

6. The concrete placement device for construction engineering construction according to claim 4, wherein: the adjusting frame (55) comprises an installation shell (553), the top of the inner cavity of the installation shell (553) is fixedly connected with a lifting cylinder (551), the bottom of the lifting cylinder (551) is fixedly connected with a stabilizing block (552), one side of the stabilizing block (552) away from the installation shell (553) is fixedly connected with a buffer seat (554), the bottom of the buffer seat (554) is fixedly connected with a rotator (555), and one end of the rotator (555) away from the buffer seat (554) is fixedly connected with an adjusting disc (556).