CN112193300B

CN112193300B - Stacking device for automatic stacking hollow bricks

Info

Publication number: CN112193300B
Application number: CN202011150662.9A
Authority: CN
Inventors: 丁贵宝; 丁灵敏; 丁宗余
Original assignee: Wuwei Huabiao New Wall Material Co ltd
Current assignee: Wuwei Huabiao New Wall Material Co ltd
Priority date: 2020-10-24
Filing date: 2020-10-24
Publication date: 2023-07-04
Anticipated expiration: 2040-10-24
Also published as: CN112193300A

Abstract

The invention relates to a stacking device for automatic stacking of hollow bricks, which comprises a vehicle body, wherein a two-dimensional translation assembly is arranged on the vehicle body; the two-dimensional translation assembly is connected with a sliding base, and a middle plate, a left plate and a conveying belt are fixedly arranged on the sliding base; a second motor is arranged on the middle plate and connected with a main rocker, and the main rocker is matched with an upper sheave and a lower sheave; the upper grooved pulley is connected with a pushing component; a power transmission component connected with the lower grooved pulley and the conveyer belt is arranged between the lower grooved pulley and the conveyer belt. The invention has high degree of automation, and can control the transmission of the conveying belt and the reciprocating sliding of the main push rod to be alternately carried out on the basis of adjusting the heights and the horizontal positions of the sliding base and the inclined slide rail, thereby realizing the one-by-one feeding of the hollow bricks in a tidy stacking mode.

Description

Stacking device for automatic stacking hollow bricks

Technical Field

The invention relates to the field of construction machinery of engineering, in particular to a stacking device for automatic stacking of hollow bricks.

Background

The hollow bricks are widely applied to the building industry due to the advantages of light weight, high strength, heat preservation, noise reduction and the like, and when a large number of hollow bricks are transported to a building site by a transport vehicle, the hollow bricks are required to be thrown against a wall in a tidy and laminated mode for being convenient for workers, but the functions are generally difficult to realize for traditional engineering transport equipment.

Disclosure of Invention

In order to meet the above-mentioned stacking requirement for hollow bricks, the invention provides a stacking device for automatic stacking of hollow bricks.

The technical problems to be solved by the invention are realized by adopting the following technical scheme:

the stacking device for automatic stacking of the hollow bricks comprises a vehicle body, wherein a two-dimensional translation assembly is arranged on the vehicle body; the two-dimensional translation assembly is connected with a sliding base, and a middle plate, a left plate and a conveying belt are fixedly arranged on the sliding base; a second motor is arranged on the middle plate and connected with a main rocker, and the main rocker is matched with an upper sheave and a lower sheave; the upper grooved pulley is connected with a pushing component; a power transmission component connected with the lower grooved pulley and the conveyer belt is arranged between the lower grooved pulley and the conveyer belt.

The two-dimensional translation assembly comprises a hydraulic cylinder and a guide rod which are fixedly arranged on the vehicle body; the hydraulic cylinder is connected with a bearing seat which is vertically matched with the guide rod in a sliding way; a first motor and a guide rail are arranged on the bearing seat; the first motor is connected with a lead screw which is arranged on the bearing seat through a bearing; the sliding base is connected with the screw rod and is in horizontal sliding fit with the guide rail.

The left side and the right side of the conveying belt are respectively connected with a belt dividing wheel, the belt dividing wheels positioned on the right side of the two belt dividing wheels are coaxially connected with a first bevel gear, the first bevel gear is engaged and matched with a second bevel gear, the second bevel gear is connected with a short shaft, and an upper belt wheel is arranged on the short shaft; the upper belt pulley is connected with a belt, the belt is connected with a lower belt pulley, the lower belt pulley is connected with a lower shaft which is arranged on the middle plate through a bearing, and the lower sheave is arranged on the lower shaft.

A storage cylinder is arranged above the right side of the conveying belt; a supporting frame fixedly connected with the storage cylinder is welded on the sliding base; the short shaft is mounted on the support frame through a bearing.

The pushing component comprises a middle shaft and an upper shaft which are all arranged on the left plate through bearings; the upper grooved pulley is arranged on the middle shaft, the middle shaft is also provided with a large gear, the large gear is meshed with a small gear arranged on the upper shaft, and the upper shaft is also provided with a cam; the large surface of the cam is provided with a track groove which is matched with the shape of the cam; the track groove is in sliding fit with a main push rod; the sliding base is fixedly provided with a guide rail frame for sliding the main push rod back and forth.

And an inclined slideway arranged on the sliding base is arranged at the rear of the main push rod.

In the invention, four intermediate grooves are arranged on the upper grooved pulley and the lower grooved pulley; the main rocker is provided with a rocker key matched with the space groove. The main rocker is also provided with a self-locking cambered surface which is matched with the upper grooved pulley and the lower grooved pulley. A gap is arranged between the storage cylinder and the conveying belt, and the height of the gap is matched with the height of the hollow brick.

The beneficial effects of the invention are as follows:

the invention has high degree of automation, and can control the transmission of the conveying belt and the reciprocating sliding of the main push rod to be alternately carried out on the basis of adjusting the heights and the horizontal positions of the sliding base and the inclined slide rail, thereby realizing the one-by-one feeding of the hollow bricks in a tidy stacking mode.

Drawings

The invention will be further described with reference to the drawings and examples.

FIG. 1 is a front view of the present invention;

FIG. 2 is a top view of the present invention;

FIG. 3 is a perspective view of the present invention in a right-hand direction;

fig. 4 is a perspective view of the present invention in a front view;

FIG. 5 is an enlarged view of a portion at I of FIG. 4;

FIG. 6 is a perspective view of the present invention in a left-hand direction;

FIG. 7 is an enlarged view of a portion at II of FIG. 6;

fig. 8 is a schematic diagram of the implementation effect of the present invention.

In the figure: 1. a vehicle body; 2. a sliding base; 3. a hydraulic cylinder; 4. a guide rod; 5. a bearing seat; 6. a motor I; 7. a guide rail; 8. a screw rod; 9. a middle plate; 10. a left board; 11. a conveyor belt; 12. a motor II; 13. a main rocker; 14. an upper sheave; 15. a lower sheave; 16. a dividing wheel; 17. a first bevel gear; 18. a two-size bevel gear; 19. a short shaft; 20. an upper belt wheel; 21. a belt; 22. a lower belt wheel; 23. a lower shaft; 24. a storage cylinder; 25. a support frame; 26. a center shaft; 27. a large gear; 28. a pinion gear; 29. a cam; 30. a main push rod; 31. a guide rail frame; 32. an inclined slideway; 33. and (5) an upper shaft.

Detailed Description

In order to make the technical solution of the present invention better understood by a person skilled in the art, the present invention will be more clearly and more fully described below with reference to the accompanying drawings in the embodiments, and of course, the described embodiments are only a part of, but not all of, the present invention, and other embodiments obtained by a person skilled in the art without making any inventive effort are within the scope of the present invention.

As shown in fig. 1 to 7, the stacking device for automatically stacking hollow bricks comprises a vehicle body 1, wherein a two-dimensional translation assembly is arranged on the vehicle body 1; the two-dimensional translation assembly is connected with a sliding base 2, and a middle plate 9, a left plate 10 and a conveying belt 11 are fixedly arranged on the sliding base 2; a second motor 12 is arranged on the middle plate 9, the second motor 12 is connected with a main rocker 13, and the main rocker 13 is matched with an upper sheave 14 and a lower sheave 15; the upper sheave 14 has a push assembly connected thereto; a power transmission assembly connected with the lower sheave 15 and the conveyor belt 11 is arranged between the lower sheave and the conveyor belt 11.

The two-dimensional translation assembly comprises a hydraulic cylinder 3 and a guide rod 4 which are fixedly arranged on the vehicle body 1; the hydraulic cylinder 3 is connected with a bearing seat 5 which is vertically matched with the guide rod 4 in a sliding way; a first motor 6 and a guide rail 7 are arranged on the bearing seat 5; the motor I6 is connected with a screw rod 8 which is arranged on the bearing seat 5 through a bearing; the sliding base 2 is connected with the screw rod 8, and the sliding base 2 is horizontally matched with the guide rail 7 in a sliding manner.

The left side and the right side of the conveying belt 11 are respectively connected with a belt dividing wheel 16, the right side of the belt dividing wheel 16 in the two belt dividing wheels 16 is coaxially connected with a first bevel gear 17, the first bevel gear 17 is meshed and matched with a second bevel gear 18, the second bevel gear 18 is connected with a short shaft 19, and an upper belt wheel 20 is arranged on the short shaft 19; the upper pulley 20 is connected with a belt 21, the belt 21 is connected with a lower pulley 22, the lower pulley 22 is connected with a lower shaft 23 which is mounted on the middle plate 9 through a bearing, and the lower sheave 15 is mounted on the lower shaft 23.

A storage cylinder 24 is arranged above the right side of the conveyor belt 11; a supporting frame 25 fixedly connected with the storage cylinder 24 is welded on the sliding base 2; the stub shaft 19 is bearing mounted on a support frame 25.

The pushing component comprises a middle shaft 26 and an upper shaft 33 which are all arranged on the left plate 10 through bearings; the upper sheave 14 is mounted on the middle shaft 26, the middle shaft 26 is also mounted with a large gear 27, the large gear 27 is meshed with a small gear 28 mounted on an upper shaft 33, and the upper shaft 33 is also mounted with a cam 29; the large surface of the cam 29 is provided with a track groove 29a which is matched with the shape of the cam; the track groove 29a is in sliding fit with a main push rod 30; the slide base 2 is fixedly provided with a rail frame 31 for slidably mounting the main push rod 30 back and forth.

The rear of the main push rod 30 is provided with an inclined slideway 32 which is arranged on the sliding base 2.

In the invention, the upper sheave 14 and the lower sheave 15 are provided with four inter-grooves; the main rocker 13 is provided with a rocker key 13a adapted to the space. The main rocker 13 also has a self-locking cambered surface which is matched with the upper grooved pulley 14 and the lower grooved pulley 15. A gap is arranged between the storage cylinder 24 and the conveyor belt 11, and the height of the gap is matched with the height of the hollow bricks.

In the initial state, all the hollow bricks are required to be put into the storage cylinder 24 one by one in a vertical stacking mode, and the lowest hollow brick is positioned on the conveying belt 11.

Before use, the vehicle body 1 is moved to the side of the wall.

When the device is specifically used, the second motor 12 drives the main rocker 13 to rotate at a constant speed, so that the rocker key 13a is respectively matched with the grooves between the upper grooved pulley 14 and the lower grooved pulley 15 in an alternating manner.

Wherein, when the rocker key 13a of the main rocker 13 is rotatably engaged with the space of the lower sheave 15, the conveyor belt 11 is driven to operate by the belt 21 and the bevel gear, and a hollow brick is conveyed to the right rear side of the main push rod 30.

When the rocker key 13a of the main rocker 13 is rotationally matched with the space groove of the upper sheave 14, the cam 29 is driven to rotate for one circle through the variable speed transmission of the gear, and the track groove 29a rotates for one circle along with the cam 29 to drive the main push rod 30 to slide back and forth once, namely the corresponding hollow brick is pushed back to the inclined slide way 32, and slides down to a proper landing point through the inclined slide way 32.

In addition, during rotation of primary rocker 13 to a position not in engagement with either upper sheave 14 or lower sheave 15, the position of incline ramp 32 may be adjusted in two dimensions by: the sliding base 2 and the inclined slide way 32 are driven to lift by pushing and pulling through the hydraulic cylinder 3, or the sliding base 2 and the inclined slide way 32 are controlled to slide in the horizontal direction by driving the screw rod 8 to rotate through the motor 6. Namely, the placement position of the hollow bricks can be controlled through the operation, the effect of reasonably stacking the hollow bricks is realized, and a specific effect diagram is shown in fig. 8.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. Automatic range upon range of stacking of hollow brick is with stacking device, including automobile body (1), its characterized in that: a two-dimensional translation assembly is arranged on the vehicle body (1); the two-dimensional translation assembly is connected with a sliding base (2), and a middle plate (9), a left plate (10) and a conveying belt (11) are fixedly arranged on the sliding base (2); a second motor (12) is arranged on the middle plate (9), the second motor (12) is connected with a main rocker (13), and the main rocker (13) is matched with an upper sheave (14) and a lower sheave (15); the upper sheave (14) is connected with a pushing component; a power transmission component connected with the lower grooved pulley (15) and the conveyer belt (11) is arranged between the lower grooved pulley and the conveyer belt; the two-dimensional translation assembly comprises a hydraulic cylinder (3) and a guide rod (4) which are fixedly arranged on the vehicle body (1); the hydraulic cylinder (3) is connected with a bearing seat (5) which is vertically matched with the guide rod (4) in a sliding way; a first motor (6) and a guide rail (7) are arranged on the bearing seat (5); the first motor (6) is connected with a screw rod (8) which is arranged on the bearing seat (5) through a bearing; the sliding base (2) is connected with the screw rod (8), and the sliding base (2) is horizontally matched with the guide rail (7) in a sliding manner; the left side and the right side of the conveying belt (11) are connected with belt dividing wheels (16), the belt dividing wheels (16) positioned on the right side of the two belt dividing wheels (16) are coaxially connected with a first bevel gear (17), the first bevel gear (17) is meshed and matched with a second bevel gear (18), the second bevel gear (18) is connected with a short shaft (19), and an upper belt wheel (20) is arranged on the short shaft (19); the upper belt wheel (20) is connected with a belt (21), the belt (21) is connected with a lower belt wheel (22), the lower belt wheel (22) is connected with a lower shaft (23) which is arranged on the middle plate (9) through a bearing, and the lower sheave (15) is arranged on the lower shaft (23);

a storage cylinder (24) is arranged above the right side of the conveying belt (11); a supporting frame (25) fixedly connected with the storage cylinder (24) is welded on the sliding base (2); the short shaft (19) is arranged on the supporting frame (25) through a bearing;

the pushing assembly comprises a middle shaft (26) and an upper shaft (33) which are all arranged on the left plate (10) through bearings; the upper sheave (14) is arranged on the middle shaft (26), the middle shaft (26) is also provided with a large gear (27), the large gear (27) is meshed with a small gear (28) arranged on the upper shaft (33), and the upper shaft (33) is also provided with a cam (29); the large surface of the cam (29) is provided with a track groove (29 a) which is matched with the shape of the cam; the track groove (29 a) is in sliding fit with a main push rod (30); a guide rail frame (31) for sliding and installing the main push rod (30) back and forth is fixedly arranged on the sliding base (2);

an inclined slideway (32) arranged on the sliding base (2) is arranged at the rear part of the main push rod (30);

four inter-grooves are respectively arranged on the upper grooved pulley (14) and the lower grooved pulley (15); the main rocker (13) is provided with a rocker key (13 a) matched with the space groove; the main rocker (13) is also provided with a self-locking cambered surface which is matched with the upper grooved pulley (14) and the lower grooved pulley (15); a gap is arranged between the storage cylinder (24) and the conveying belt (11), and the height of the gap is matched with the height of the hollow bricks.