CN221810735U - Concrete pouring equipment - Google Patents

Abstract

The utility model discloses a concrete pouring device, comprising a supporting base, both sides of the supporting base are provided with protruding parts extending outwards and hanging rings are installed on the protruding parts, a mixing barrel is installed on the upper surface of the supporting base, a feeding hopper is provided on the outer surface of the mixing barrel and a sealing cover is installed at the feeding hopper, a discharging pipe is provided on the lower surface of the mixing barrel, a down pipe is provided on the bottom end of the discharging pipe and a casting pipe is installed on the end of the down pipe, a down pipe is provided in the down pipe for helping concrete to be discharged quickly, a tamping rod fixedly installed on the supporting base is provided on one side of the casting pipe, a vibrating mechanism for driving the tamping rod to move up and down to vibrate concrete is provided on the supporting base, by arranging the discharging pipe, the down pipe, the casting pipe and the down pipe mechanism, the mixed concrete falls into the inside of the down pipe through the discharging pipe, the down pipe can be used to quickly push the concrete into the casting pipe by using the down pipe mechanism, and the concrete discharge speed is improved.

Description

Concrete pouring equipment

Technical Field

The utility model relates to the technical field related to building construction, in particular to a concrete pouring device.

Background Art

Construction refers to the production activities in the implementation stage of engineering construction. It is the construction process of various buildings. It can also be said to be the process of turning various lines on the design drawings into physical objects at designated locations. It includes foundation engineering construction, main structure construction, roof engineering construction, decoration engineering construction, etc. The place of construction is called "construction site" or "construction site", also called construction site. Concrete is usually poured in the construction process. Concrete pouring refers to the process of pouring concrete into a mold until it is plasticized. In civil engineering, concrete and other materials are put into a mold to form a predetermined shape.

In order to eliminate the pores in the existing concrete during the pouring process, make it more solid and dense, and enhance the durability and strength of the concrete, it is necessary to use additional equipment for tamping to eliminate the bubbles and make the concrete densely combined, which is rather troublesome.

Utility Model Content

In order to solve the defects in the prior art, the utility model provides a concrete pouring equipment.

In order to solve the above technical problems, the utility model provides the following technical solutions:

The utility model discloses a concrete pouring device, comprising a support base, both sides of the support base are provided with protrusions extending outwards and hanging rings are installed on the protrusions, a mixing barrel is installed on the upper surface of the support base, a feeding hopper is provided on the outer surface of the mixing barrel and a sealing cover is installed at the feeding hopper, a discharge pipe is provided on the lower surface of the mixing barrel, a feeding pipe is installed at the bottom end of the discharge pipe and a casting pipe is installed at the end of the feeding pipe, a feeding mechanism for helping concrete to be quickly fed is provided in the feeding pipe, a tamping rod fixedly installed on the support base is provided on one side of the casting pipe, a vibrating mechanism for driving the tamping rod to move up and down to vibrate concrete is provided on the support base, and a driving mechanism for driving the feeding mechanism and the vibrating mechanism to operate is provided on the support base.

As a preferred technical solution of the utility model, a stirring rod is rotatably installed in the mixing barrel, a motor 1 is fixedly installed on one side of the mixing barrel, and the end of the stirring rod is fixedly connected to the output shaft of the motor 1.

In the above solution, it should be noted that the motor 1 is electrically connected to the external power supply.

As a preferred technical solution of the utility model, a cavity is opened in the support base and a threaded rod is rotatably installed in the cavity, a movable plate is threadedly installed on the outer surface of the threaded rod, and two connecting rods are rotatably installed on the movable plate. The two connecting rods are both slidably installed in the strip slide opened on the upper surface of the support base, and the top ends of the two connecting rods are respectively rotatably installed on both sides of the mixing barrel.

As a preferred technical solution of the utility model, guide rods are provided on both sides of the threaded rod, the two guide rods are fixedly mounted on the inner wall of the support base, and the movable plate is slidably mounted on the outer surfaces of the two guide rods.

As an optimal technical solution of the utility model, a protective shell is installed on the casting pipe, and a discharge port is opened at the upper and lower positions of the protective shell facing the casting pipe. A blade used in conjunction with the casting pipe is rotatably installed in the protective shell, and the end of the threaded rod is fixedly connected to the blade shaft.

As a preferred technical solution of the utility model, the unloading mechanism includes a push block slidably installed in the unloading tube, and a push rod sliding through the outside of the unloading tube is installed on the side of the push block, and a guide frame is fixedly installed on the side of the push rod, and a rotating shaft 1 is rotatably installed on the upper surface of the support base, a rotating rod is fixedly installed on the end of the rotating shaft 1, and a push rod sliding in the guide frame is installed on the rotating rod.

As an optimal technical solution of the utility model, the vibrating mechanism includes a rotating shaft 2 rotatably mounted on the upper surface of the supporting base, a turntable is fixedly mounted on the end of the rotating shaft 2 and a transmission rod is eccentrically rotated on the turntable, a connecting plate is fixedly mounted on the top end of the tamping rod, and the top end of the transmission rod is rotatably mounted on the connecting plate.

As a preferred technical solution of the utility model, the driving mechanism includes a second motor fixedly mounted on a supporting base, and the output shaft of the second motor is fixedly connected to a first rotating shaft, and bevel gears are fixedly mounted on the outer surfaces of the first rotating shaft and the second rotating shaft and the two bevel gears are meshed.

In the above solution, it should be noted that the second motor is electrically connected to the external power supply.

The beneficial effects of the utility model are:

1. This kind of concrete pouring equipment, by setting a discharge pipe, a feed pipe, a pouring pipe and a feed mechanism, the mixed concrete falls into the feed pipe through the discharge pipe, and the feed mechanism can be used to quickly push the concrete into the pouring pipe, which can increase the concrete feeding speed.

2. This kind of concrete pouring equipment is equipped with a tamping rod and a vibrating mechanism. The vibrating mechanism can drive the tamping rod to move up and down to vibrate the concrete, so as to eliminate bubbles inside the concrete and prevent the concrete from cracking in the later stage.

3. This kind of concrete pouring equipment, by setting a protective shell, blades, threaded rods, movable plates and connecting rods, uses the protective shell in conjunction with the pouring pipe, can drive the blades to rotate during the falling process of concrete, the rotation of the blades can be used to drive the rotation of the threaded rods, and the rotation of the threaded rods can drive the movable plate to move, and the movement of the movable plate drives one end of the mixing barrel to move through the connecting rod, so that the mixing barrel rotates, thereby realizing the adjustment of the angle of the mixing barrel. As the concrete is gradually discharged, the angle of the mixing barrel can gradually change at the same time, which is beneficial to the discharge of concrete at the bottom of the mixing barrel and improves the discharge speed.

BRIEF DESCRIPTION OF THE DRAWINGS

The accompanying drawings are used to provide a further understanding of the present invention and constitute a part of the specification. Together with the embodiments of the present invention, they are used to explain the present invention and do not constitute a limitation of the present invention. In the accompanying drawings:

FIG1 is a schematic structural diagram of a concrete pouring device according to the present invention;

FIG2 is a schematic cross-sectional view of a support base of a concrete pouring equipment according to the present invention;

FIG3 is a schematic cross-sectional view of a mixing barrel of a concrete pouring device according to the present invention;

FIG4 is a schematic structural diagram of a threaded rod of a concrete pouring device according to the present invention;

FIG. 5 is a schematic structural diagram of a tamping rod of a concrete pouring device according to the present invention.

In the figure: 1. Support base; 2. Hanging ring; 3. Mixing barrel; 4. Feed hopper; 5. Stirring rod; 6. Motor 1; 7. Discharge pipe; 8. Down pipe; 9. Casting pipe; 10. Protective shell; 11. Blade; 12. Threaded rod; 13. Guide rod; 14. Moving plate; 15. Connecting rod; 16. Rotating shaft 1; 17. Rotating rod; 18. Push rod; 19. Guide frame; 20. Push rod; 21. Push block; 22. Bevel gear; 23. Rotating shaft 2; 24. Turntable; 25. Transmission rod; 26. Connecting plate; 27. Ramming rod; 28. Motor 2.

DETAILED DESCRIPTION

The preferred embodiments of the present invention are described below in conjunction with the accompanying drawings. It should be understood that the preferred embodiments described herein are only used to illustrate and explain the present invention, and are not used to limit the present invention.

Embodiment: As shown in Figures 1, 2, 3, 4 and 5, the utility model is a concrete pouring equipment, including a support base 1, both sides of the support base 1 extend outwardly with protrusions and the protrusions are equipped with hanging rings 2, the upper surface of the support base 1 is equipped with a mixing barrel 3, the outer surface of the mixing barrel 3 is provided with a feeding hopper 4 and the feeding hopper 4 is equipped with a sealing cover, the lower surface of the mixing barrel 3 is provided with a discharge pipe 7, the bottom end of the discharge pipe 7 is equipped with a discharge pipe 8 and the end of the discharge pipe 8 is equipped with a pouring pipe 9, a discharge mechanism for helping concrete to be discharged quickly is provided in the discharge pipe 8, a tamping rod 27 fixedly installed on the support base 1 is provided on one side of the pouring pipe 9, and a device for driving the tamping rod 27 to move up and down is provided on the support base 1 A vibrating mechanism is provided for vibrating concrete, and a driving mechanism for driving the feeding mechanism and the vibrating mechanism to operate is provided on the supporting base 1. By setting a mixing barrel 3, the mixing barrel 3 is used to mix the raw materials so that the mixing is more sufficient and convenient for subsequent use. By setting a discharge pipe 7, a feeding pipe 8, a casting pipe 9 and a feeding mechanism, the mixed concrete falls into the feeding pipe 8 through the discharge pipe 7. The feeding mechanism can quickly push the concrete into the casting pipe 9, which can increase the concrete feeding speed. By setting a tamping rod 27 and a vibrating mechanism, the vibrating mechanism can drive the tamping rod 27 to move up and down to vibrate the concrete, so as to eliminate bubbles inside the concrete and prevent problems such as cracking of the concrete in the later stage.

Among them, a stirring rod 5 is rotatably installed in the mixing barrel 3, a motor 6 is fixedly installed on one side of the mixing barrel 3, and the end of the stirring rod 5 is fixedly connected to the output shaft of the motor 6. By setting the motor 6 and the stirring rod 5, the motor 6 is used to drive the stirring rod 5 to rotate. The rotation of the stirring rod 5 can stir the raw materials inside the mixing barrel 3 to make them fully mixed for direct use.

Among them, a cavity is opened in the support base 1 and a threaded rod 12 is rotatably installed in the cavity, and a movable plate 14 is threadedly installed on the outer surface of the threaded rod 12. Two connecting rods 15 are rotatably installed on the movable plate 14. The two connecting rods 15 are slidably installed in the strip slideway opened on the upper surface of the support base 1, and the top ends of the two connecting rods 15 are rotatably installed on both sides of the mixing barrel 3. By arranging the threaded rod 12, the movable plate 14 and the connecting rod 15, the rotation of the threaded rod 12 can drive the movable plate 14 to move. The movement of the movable plate 14 drives one end of the mixing barrel 3 to move through the connecting rod 15, so that the mixing barrel 3 rotates, thereby realizing the adjustment of the angle of the mixing barrel 3, facilitating better discharge of the internal concrete and improving the unloading speed.

Among them, guide rods 13 are provided on both sides of the threaded rod 12, and the two guide rods 13 are fixedly installed on the inner wall of the support base 1. The movable plate 14 is slidably installed on the outer surfaces of the two guide rods 13. By setting the guide rods 13, the guide rods 13 are used to limit and guide the movable plate 14, so as to avoid the problem of the movable plate 14 following the rotation or deviation of the threaded rod 12 during the movement, so as to improve the stability of the movement of the movable plate 14.

Among them, a protective shell 10 is installed on the pouring tube 9, and a discharge port is opened at the upper and lower positions of the protective shell 10 facing the pouring tube 9. A blade 11 used in conjunction with the pouring tube 9 is rotatably installed in the protective shell 10, and the end of the threaded rod 12 is fixedly connected to the blade axis of the blade 11. By setting the protective shell 10 and the blade 11, and using the protective shell 10 in conjunction with the pouring tube 9, the blade 11 can be driven to rotate during the falling process of concrete, and the rotation of the blade 11 can be used to drive the threaded rod 12 to rotate, thereby realizing the adjustment of the angle of the mixing barrel 3. As the concrete is gradually discharged, the angle of the mixing barrel 3 can gradually change at the same time, which is beneficial to the discharge of concrete at the bottom of the mixing barrel 3.

Among them, the unloading mechanism includes a push block 21 slidably installed in the unloading pipe 8, and a push rod 20 that slides through the outside of the unloading pipe 8 is installed on the side of the push block 21, and a guide frame 19 is fixedly installed on the side of the push rod 20. A rotating shaft 16 is rotatably installed on the upper surface of the support base 1, and a rotating rod 17 is fixedly installed on the end of the rotating shaft 16, and a push rod 18 that slides in the guide frame 19 is installed on the rotating rod 17. By setting the rotating shaft 16, the rotating rod 17, the push rod 18 and the push block 21, the rotation of the rotating shaft 16 drives the rotating rod 17 to rotate, and the rotation of the rotating rod 17 drives the push rod 18 to drive the push block 21 to slide inside the unloading pipe 8, which can help the concrete inside the unloading pipe 8 to be quickly pushed into the casting pipe 9, thereby improving the concrete unloading efficiency.

Among them, the vibrating mechanism includes a rotating shaft 23 rotatably installed on the upper surface of the supporting base 1, a turntable 24 is fixedly installed on the end of the rotating shaft 23, and a transmission rod 25 is eccentrically rotated on the turntable 24, a connecting plate 26 is fixedly installed on the top of the tamping rod 27, and the top of the transmission rod 25 is rotatably installed on the connecting plate 26. By setting the rotating shaft 23, the turntable 24, the transmission rod 25 and the connecting plate 26, the rotating shaft 23 is used to drive the turntable 24 to rotate, and the rotating rod 17 drives the transmission rod 25 to follow the movement. When the transmission rod 25 moves, it drives the connecting plate 26 to move up and down. The movement of the connecting plate 26 drives the tamping rod 27 to move up and down synchronously, thereby realizing the vibration of the concrete.

Among them, the driving mechanism includes a motor 28 fixedly mounted on the supporting base 1, and the output shaft of the motor 28 is fixedly connected to the rotating shaft 16, and the outer surfaces of the rotating shaft 16 and the rotating shaft 23 are fixedly mounted with bevel gears 22 and the two bevel gears 22 are meshed. By setting the motor 28 and the bevel gear 22, the motor 28 is used to drive the rotating shaft of the rotating shaft 16, and while the rotating shaft 16 rotates, the bevel gear 22 drives the rotating shaft 23 to rotate synchronously, thereby realizing the synchronization of the unloading mechanism and the vibration work, improving the work efficiency, and eliminating the need for staff to perform additional operations, thereby reducing the workload.

During operation, the raw materials are poured into the mixing barrel 3, and then the motor 16 is turned on. The motor 16 drives the stirring rod 5 to rotate to mix the raw materials in the mixing barrel 3. After the mixing is completed, the support base 1 is moved to the working position through the hanging ring by using the equipment, and the motor 28 is turned on. The motor 28 drives the rotating shaft 16 to rotate. The rotation of the rotating shaft 16 drives the rotating rod 17 to rotate. The rotation of the rotating rod 17 drives the push rod 18 to drive the push block 21 to slide inside the discharge pipe 8. When the push block 21 is away from the discharge pipe 7, the concrete inside the mixing barrel 3 is stirred. The concrete falls into the discharge pipe 8 through the discharge pipe 7, and the push block 21 moves to push the concrete into the casting pipe 9. At the same time, the rotation of the rotating shaft 16 drives the rotating rod 17 to rotate. The rotation of the rotating rod 17 drives the push rod 18 to drive the push block 21 to slide inside the discharge pipe 8. The rotating shaft 23 drives the turntable 24 to rotate, and the rotating rod 17 drives the transmission rod 25 to follow the movement. The movement of the transmission rod 25 drives the connecting plate 26 to move up and down. The movement of the connecting plate 26 drives the tamping rod 27 to move up and down synchronously, thereby realizing the vibration and tamping of the concrete.

Finally, it should be noted that the above are only preferred embodiments of the present invention and are not intended to limit the present invention. Although the present invention has been described in detail with reference to the above embodiments, those skilled in the art can still modify the technical solutions described in the above embodiments or replace some of the technical features therein by equivalents. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention shall be included in the protection scope of the present invention.

Claims (8)

1. A concrete pouring device, comprising a support base (1), both sides of the support base (1) have protruding parts extending outwards and the protruding parts are equipped with hanging rings (2), characterized in that a mixing barrel (3) is installed on the upper surface of the support base (1), a feeding hopper (4) is provided on the outer surface of the mixing barrel (3), and a sealing cover is installed at the feeding hopper (4), a discharge pipe (7) is provided on the lower surface of the mixing barrel (3), a feeding pipe (8) is installed at the bottom end of the feeding pipe (7), and a casting pipe (9) is installed at the end of the feeding pipe (8), a feeding mechanism for helping concrete to be quickly discharged is provided in the feeding pipe (8), a tamping rod (27) fixedly installed on the support base (1) is provided on one side of the casting pipe (9), a vibrating mechanism for driving the tamping rod (27) to move up and down to vibrate the concrete is provided on the support base (1), and a driving mechanism for driving the feeding mechanism and the vibrating mechanism to operate is provided on the support base (1). 2. A concrete pouring equipment according to claim 1, characterized in that a stirring rod (5) is rotatably installed in the mixing barrel (3), a motor (6) is fixedly installed on one side of the mixing barrel (3), and the end of the stirring rod (5) is fixedly connected to the output shaft of the motor (6). 3. A concrete pouring equipment according to claim 1, characterized in that a cavity is opened in the support base (1) and a threaded rod (12) is rotatably installed in the cavity, a movable plate (14) is threadedly installed on the outer surface of the threaded rod (12), and two connecting rods (15) are rotatably installed on the movable plate (14), and the two connecting rods (15) are both slidably installed in a strip slide opened on the upper surface of the support base (1) and the top ends of the two connecting rods (15) are rotatably installed on both sides of the mixing barrel (3). 4. A concrete pouring equipment according to claim 3, characterized in that guide rods (13) are provided on both sides of the threaded rod (12), the two guide rods (13) are fixedly mounted on the inner wall of the support base (1), and the movable plate (14) is slidably mounted on the outer surfaces of the two guide rods (13). 5. A concrete pouring equipment according to claim 4, characterized in that a protective shell (10) is installed on the pouring pipe (9), and a discharge port is opened on the protective shell (10) at the upper and lower positions opposite to the pouring pipe (9), and a blade (11) used in conjunction with the pouring pipe (9) is rotatably installed in the protective shell (10), and the end of the threaded rod (12) is fixedly connected to the blade shaft of the blade (11). 6. A concrete pouring equipment according to claim 1, characterized in that the feeding mechanism includes a push block (21) slidably installed in a feeding pipe (8), and a push rod (20) is installed on the side of the push block (21) and slides through the outside of the feeding pipe (8), and a guide frame (19) is fixedly installed on the side of the push rod (20), and a rotating shaft (16) is rotatably installed on the upper surface of the support base (1), a rotating rod (17) is fixedly installed at the end of the rotating shaft (16), and a push rod (18) sliding in the guide frame (19) is installed on the rotating rod (17). 7. A concrete pouring equipment according to claim 1, characterized in that the vibrating mechanism includes a rotating shaft (23) rotatably mounted on the upper surface of the supporting base (1), a turntable (24) is fixedly mounted on the end of the rotating shaft (23), and a transmission rod (25) is eccentrically rotated on the turntable (24), a connecting plate (26) is fixedly mounted on the top end of the tamping rod (27), and the top end of the transmission rod (25) is rotatably mounted on the connecting plate (26). 8. A concrete pouring equipment according to claim 1, characterized in that the driving mechanism comprises a second motor (28) fixedly mounted on a supporting base (1), and the output shaft of the second motor (28) is fixedly connected to the first rotating shaft (16), and the outer surfaces of the first rotating shaft (16) and the second rotating shaft (23) are fixedly mounted with bevel gears (22) and the two bevel gears (22) are meshed with each other.