CN215433629U

CN215433629U - Adjustable PC component placing rack

Info

Publication number: CN215433629U
Application number: CN202120350724.4U
Authority: CN
Inventors: 杨咏; 赵雷
Original assignee: Zhejiang Huanyu Zhuyou Construction Technology Co ltd
Current assignee: Zhejiang Huanyu Zhuyou Construction Technology Co ltd
Priority date: 2021-02-08
Filing date: 2021-02-08
Publication date: 2022-01-07
Anticipated expiration: 2031-02-08

Abstract

The utility model discloses an adjustable PC component placing rack, which comprises a bottom plate, a baffle fixed at one end of the bottom plate and an adjustable device arranged at the other end of the bottom plate, wherein the adjustable device comprises a first rotating plate and a first motor, a first groove is formed in the upper surface of the bottom plate, one end of the first rotating plate is arranged in the first groove in a sliding manner, a first sliding groove is formed in the side wall of the first groove, a first sliding block is arranged in the first sliding groove in a sliding manner, a driving groove is formed in the inner wall of the first sliding groove, a concave hole is formed in one end, close to the first rotating plate, of the first sliding block, the first motor is fixed in the concave hole, an output shaft of the first motor is fixed with the rotating plate, a second groove is formed in one side of the rotating plate, an air cylinder is fixed in the second groove, a second sliding groove is formed in the bottom wall of the second groove, a second sliding block is arranged in the second sliding manner, a piston rod of the air cylinder is fixed with the second sliding block, a lifting plate is arranged in the second groove, and a rotating rod is arranged between the second sliding block, the two ends of the rotating rod I are respectively hinged with the sliding block II and the lifting plate, and the PC component has the advantages of being adjustable and convenient to take down.

Description

Adjustable PC component placing rack

Technical Field

The utility model relates to the technical field of PC components, in particular to an adjustable PC component placing frame.

Background

PC is the english abbreviation for precast concrete (precast concrete) and is known in the field of housing industrialization as a PC member. Such as prefabricated reinforced concrete column foundation, prefabricated steel structure steel column foundation, street lamp billboard column reinforced concrete foundation and prefabricated floor slab. The corresponding traditional cast-in-place concrete needs site moulding, site pouring and site maintenance. The concrete prefabricated member is widely applied to the fields of buildings, traffic, water conservancy and the like, and plays an important role in national economy.

The PC component needs to be placed on the rack after being produced, the size of the existing rack is fixed, the PC component cannot be adjusted according to the size of the PC component, the application range is small, and the PC component is inconvenient to take down from the rack.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an adjustable PC component placing frame which has the advantages of adjustability and convenience in taking down PC components.

The technical purpose of the utility model is realized by the following technical scheme:

an adjustable PC component placing frame comprises a bottom plate, a baffle fixed at one end of the bottom plate and an adjustable device arranged at the other end of the bottom plate, wherein the adjustable device comprises a rotating plate and a first motor, the upper surface of the bottom plate is provided with a first groove, one end of the rotating plate is arranged in the first groove in a sliding manner, the side wall of the first groove is provided with a first sliding groove, the first sliding groove is internally provided with a first sliding block in a sliding manner, the inner wall of the first sliding groove is provided with a driving groove, a driving assembly used for moving the first sliding block is arranged in the driving groove, one end of the first sliding block, which is close to the rotating plate, is provided with a concave hole, the first motor is fixed in the concave hole, an output shaft of the first motor is fixed with the rotating plate, one end of the rotating plate, which is far away from the bottom plate, is provided with a clamping assembly used for clamping a PC component, one side of the rotating plate is provided with a second groove, and a cylinder is fixed in the second groove, the second bottom wall of the groove is provided with a second sliding groove, a second sliding block is arranged in the second sliding groove, a piston rod of the cylinder is fixed with the second sliding block, a lifting plate is arranged in the second groove in a sliding mode, a first rotating rod is arranged between the second groove and the second sliding block, two ends of the first rotating rod are hinged to the second sliding block and the lifting plate respectively, and a conveying assembly used for conveying the PC component is arranged on the lifting plate.

By adopting the technical scheme, the PC component is placed on the bottom plate after production is finished, the baffle and the rotating plate clamp and limit the PC component at the moment, when the PC component needs to be taken down from the bottom plate, one end of the PC component is clamped through the clamping assembly, then the first motor is started, the output shaft of the first motor rotates to drive the rotating plate to rotate until the rotating plate rotates to the horizontal state, the PC component rotates to the horizontal state along with the PC component along with the rotating plate, the cylinder is started at the moment, the piston rod of the cylinder extends out to drive the second slider to move along the chute, the second slider moves to drive the first rotating rod to rotate, the rotating rod rotates to drive the lifting plate to ascend, the lifting plate drives the conveying assembly to ascend until the conveying assembly props up the PC component, finally the conveying assembly is started, the conveying assembly conveys the PC component away from the rotating plate, after the PC component is conveyed away, the conveying assembly is closed, the piston rod of the cylinder retracts to drive the second slider to move back, the second sliding block moves back to drive the first rotating rod to rotate reversely, the first rotating rod rotates reversely to drive the lifting plate to move downwards, the lifting plate drives the conveying assembly to descend, the first motor is started reversely, and the output shaft of the first motor rotates reversely to drive the rotating plate to rotate back to the vertical state.

Preferably, the driving assembly comprises a second motor, a first bevel gear and a second bevel gear, the second motor is fixed on the side wall of the bottom plate, an output shaft of the second motor penetrates through the inner wall of the driving groove and is fixed with the first bevel gear, a first threaded rod is rotatably arranged in the driving groove and is fixed with the second bevel gear, the first bevel gear is meshed with the second bevel gear, a driving block is slidably arranged in the driving groove and is in threaded fit with the first threaded rod, and the driving block is fixed with the first sliding block.

By adopting the technical scheme, the motor II is started, the output shaft of the motor II rotates to drive the bevel gear I to rotate, the bevel gear I rotates to drive the bevel gear II to rotate, the bevel gear II rotates to drive the threaded rod I to rotate, the threaded rod I rotates to drive the driving block to move along the driving groove, and the driving block moves to drive the sliding block I to move, so that the effect of driving the sliding block I to move is achieved.

Preferably, the clamping assembly comprises a third motor and a bidirectional threaded rod, the third motor is fixed on the rotating plate, a third sliding groove is formed in the side wall of the rotating plate, an output shaft of the third motor penetrates through the three bottom walls of the sliding grooves, a third bevel gear is fixed on the output shaft of the third motor, the bidirectional threaded rod is rotatably arranged in the third sliding groove, a fourth bevel gear is fixed on the bidirectional threaded rod, the third bevel gear is meshed with the fourth bevel gear, a first sliding block and a second sliding block are arranged in the third sliding groove in a sliding mode, the first sliding block and the second sliding block are in threaded fit with the bidirectional threaded rod, and a first clamping plate and a second clamping plate are fixed on the first sliding block and the second sliding block respectively.

By adopting the technical scheme, the third motor is started, the third bevel gear is driven to rotate by the rotation of the output shaft of the third motor, the fourth bevel gear is driven to rotate by the rotation of the third bevel gear, the four bevel gear drives the two-way threaded rod to rotate, the first sliding block and the second sliding block are driven to move along the three sliding grooves by the rotation of the two-way threaded rod, the first sliding block drives the clamping plate to move towards the PC component, and the second sliding block drives the clamping plate to move towards the PC component until the PC component is clamped by the first clamping plate and the second clamping plate, so that the PC component is clamped.

As preferred, the conveying assembly includes extension board one and extension board two, extension board one and extension board two all are fixed in on the lifter plate, the one end of extension board one is fixed with motor four, be fixed with belt pulley one on the output shaft of motor four, it is provided with a plurality of dwang two, a plurality of to rotate between extension board one and the extension board two the one end of dwang two all runs through extension board one, and is a plurality of the one end of dwang two all is fixed with belt pulley two, be provided with belt one between belt pulley one and the belt pulley two, belt pulley one and belt pulley two pass through belt one and connect, all be fixed with the transfer roller on the dwang two.

By adopting the technical scheme, the motor IV is started, the output shaft of the motor IV rotates to drive the belt pulley I to rotate, the belt pulley I rotates to drive the belt pulley I to transmit, the belt pulley I transmits to drive the belt pulley II to rotate, the belt pulley II rotates to drive the rotating rod II to rotate, the rotating rod II rotates to drive the conveying roller to rotate, the conveying roller rotates to drive the PC component to move, and the effect of moving the PC component is achieved.

Preferably, one side, far away from the second groove, of the rotating plate is provided with a third groove, a fifth motor is fixed in the third groove, a fifth bevel gear is fixed on an output shaft of the fifth motor, a third rotating rod is rotatably arranged in the third groove, a sixth bevel gear is fixed on the third rotating rod, the fifth bevel gear is meshed with the sixth bevel gear, and supporting legs are fixed at two ends of the third rotating rod.

By adopting the technical scheme, when the rotating plate rotates to a horizontal state, the rotating plate needs to be supported, the motor V is started, the output shaft of the motor V rotates to drive the bevel gear V to rotate, the bevel gear V rotates to drive the bevel gear VI to rotate, the bevel gear VI rotates to drive the rotating rod III to rotate, and the rotating rod III rotates to drive the supporting legs to rotate until the supporting legs and the rotating plate are in a vertical state.

Preferably, a controller is fixed to the base plate.

By adopting the technical scheme, the controller plays a role in controlling the first motor, the second motor, the third motor, the fourth motor and the cylinder.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment;

FIG. 2 is a schematic diagram for showing positions of a first motor, a first groove, a first sliding block, a driving groove, a driving assembly, a concave hole, a second motor, a first bevel gear, a second bevel gear, a first threaded rod and a driving block;

FIG. 3 is a schematic view showing the structure of the clamping assembly;

FIG. 4 is a schematic diagram showing the positions of a third groove, a fifth motor, a fifth bevel gear, a third rotating rod, a sixth bevel gear and a support leg;

FIG. 5 is a schematic view showing the structure of the transfer assembly;

FIG. 6 is a schematic diagram showing the positions of the lifting plate, the driving block and the second support plate;

fig. 7 is a schematic structural diagram for showing a.

Reference numerals: 1. a base plate; 2. a baffle plate; 3. an adjustable device; 4. rotating the plate; 5. a first motor; 6. a first groove; 7. a first sliding chute; 8. a first sliding block; 9. a drive slot; 10. a drive assembly; 11. concave holes; 13. a clamping assembly; 14. a second groove; 15. a cylinder; 16. a second chute; 17. a second sliding block; 18. a lifting plate; 19. rotating the first rod; 20. a transfer assembly; 21. a second motor; 22. a first bevel gear; 23. a second bevel gear; 24. a first threaded rod; 25. a drive block; 26. a third motor; 27. a bidirectional threaded rod; 28. a third chute; 29. a third bevel gear; 30. a fourth bevel gear; 31. a first sliding block; 32. a second sliding block; 33. a first clamping plate; 34. a second clamping plate; 35. a first support plate; 36. a support plate II; 37. a fourth motor; 38. a first belt pulley; 39. rotating the second rod; 40. a second belt pulley; 41. a first belt; 42. a third groove; 43. a fifth motor; 44. a fifth bevel gear; 45. rotating the rod III; 46. a sixth bevel gear; 47. a support leg; 48. a controller; 49. and (6) conveying rollers.

Detailed Description

The following description is only a preferred embodiment of the present invention, and the protection scope is not limited to the embodiment, and any technical solution that falls under the idea of the present invention should fall within the protection scope of the present invention. It should also be noted that modifications and embellishments within the scope of the utility model may occur to those skilled in the art without departing from the principle of the utility model.

Referring to fig. 1 to 7, an adjustable PC component placement frame comprises a bottom plate 1, a baffle plate 2 fixed at one end of the bottom plate 1, and an adjustable device 3 arranged at the other end of the bottom plate 1, wherein the adjustable device 3 comprises a rotating plate 4 and a motor I5, the upper surface of the bottom plate 1 is provided with a groove I6, one end of the rotating plate 4 is slidably arranged in the groove I6, a PC component can be placed on the bottom plate 1 after production is completed, the baffle plate 2 and the rotating plate 4 clamp and limit the PC component, one end of the rotating plate 4, which is far away from the bottom plate 1, is provided with a clamping assembly 13 for clamping the PC component, the clamping assembly 13 comprises a motor III 26 and a bidirectional threaded rod 27, the motor III 26 is fixed on the rotating plate 4, the side wall of the rotating plate 4 is provided with a sliding groove III 28, an output shaft of the motor III 26 penetrates through the bottom wall of the sliding groove III 28, a bevel gear III 29 is fixed on the output shaft of the motor III 26, and a controller 48 is fixed on the bottom plate 1, when the PC component needs to be taken down from the bottom plate 1, the controller 48 is pressed to start the motor III 26, the output shaft of the motor III 26 rotates to drive the bevel gear III 29 to rotate, the two-way threaded rod 27 is rotatably arranged in the chute III 28, the bevel gear IV 30 is fixedly arranged on the two-way threaded rod 27, the bevel gear III 29 is meshed with the bevel gear IV 30, the bevel gear IV 29 rotates to drive the bevel gear IV 30 to rotate, the bevel gear IV 30 rotates to drive the two-way threaded rod 27 to rotate, the chute III 28 is internally and slidably provided with a sliding block I31 and a sliding block II 32, the sliding block I31 and the sliding block II 32 are both in threaded fit with the two-way threaded rod 27, the two-way threaded rod 27 rotates to drive the sliding block I31 and the sliding block II 32 to move along the chute III 28, the sliding block I31 and the sliding block II 32 are respectively fixedly provided with a clamping plate I33 and a clamping plate II 34, the sliding block I31 moves to drive the clamping plate I33 to move towards the PC component, the sliding block II 32 moves to move towards the PC component, until the PC component is clamped by the first clamp 33 and the second clamp 34.

As shown in fig. 5, a first sliding groove 7 is formed in the side wall of the first groove 6, a first sliding block 8 is slidably disposed in the first sliding groove 7, a concave hole 11 is formed in one end, close to the rotating plate 4, of the first sliding block 8, the first motor 5 is fixed in the concave hole 11, an output shaft of the first motor 5 is fixed with the rotating plate 4, then the first motor 5 is started, the output shaft of the first motor 5 rotates to drive the rotating plate 4 to rotate until the rotating plate 4 rotates to a horizontal state, as the rotating plate 4 rotates, the PC component rotates to a horizontal state along with the PC component, a third groove 42 is formed in one side, far away from the second groove 14, of the rotating plate 4, a fifth motor 43 is fixed in the third groove 42, a fifth bevel gear 44 is fixed on the output shaft of the fifth motor 43, a third rotating rod 45 is rotatably disposed in the third groove 42, a sixth bevel gear 46 is fixed on the third rotating rod 45, the fifth bevel gear 44 is meshed with the sixth bevel gear 46, and support legs 47 are fixed at both ends of the third rotating rod 45, starting a fifth motor 43, driving a fifth bevel gear 44 to rotate by rotating an output shaft of the fifth motor 43, driving a sixth bevel gear 46 to rotate by rotating the fifth bevel gear 44, driving a third rotating rod 45 to rotate by rotating the third rotating rod 45, driving a supporting leg 47 to rotate until the supporting leg 47 is perpendicular to the rotating plate 4, supporting the rotating plate 4 by the supporting leg 47, forming a second groove 14 on one side of the rotating plate 4, fixing a cylinder 15 in the second groove 14, forming a second sliding groove 16 on the bottom wall of the second groove 14, slidably arranging a second sliding block 17 in the second sliding groove 16, fixing a piston rod of the cylinder 15 with the second sliding block 17, starting the cylinder 15, driving the second sliding block 17 to move along the sliding groove by extending the piston rod of the cylinder 15, slidably arranging a lifting plate 18 in the second groove 14, arranging a first rotating rod 19 between the second groove 14 and the second sliding block 17, and hinging both ends of the first rotating rod 19 with the second sliding block 17 and the lifting plate 18 respectively, the second slide block 17 moves to drive the first rotating rod 19 to rotate, and the first rotating rod 19 rotates to drive the lifting plate 18 to ascend.

As shown in fig. 5 to 7, a conveying assembly 20 for conveying PC components is arranged on the lifting plate 18, the conveying assembly 20 includes a first support plate 35 and a second support plate 36, the first support plate 35 and the second support plate 36 are both fixed on the lifting plate 18, one end of the first support plate 35 is fixed with a motor four 37, an output shaft of the motor four 37 is fixed with a belt pulley first 38, the lifting plate 18 ascends to drive the first support plate 35, the second support plate 36, the motor four 37, the belt pulley first 38, the belt pulley second 40 and a belt first 41 to ascend, a controller 48 is pressed to start the motor four 37, the output shaft of the motor four 37 rotates to drive the belt pulley first 38 to rotate, a plurality of rotating rods two 39 are rotatably arranged between the first support plate 35 and the second support plate 36, one ends of the plurality of rotating rods two 39 all penetrate through the first support plate 35, one ends of the plurality of rotating rods two 39 are all fixed with the belt pulley second 40, a belt first belt 41 is arranged between the belt pulley first 38 and the belt pulley second belt pulley 40, the first belt pulley 38 and the second belt pulley 40 are connected through a first belt 41, the first belt pulley 38 rotates to drive the first belt 41 to transmit, the first belt 41 transmits to drive the second belt pulley 40 to rotate, the second belt pulley 40 rotates to drive the second rotating rod 39 to rotate, the second rotating rod 39 is fixedly provided with a transmission roller 49, the second rotating rod 39 rotates to drive the transmission roller 49 to rotate, the transmission roller 49 rotates to drive the PC component to move until the PC component is moved out of the rotating plate 4, and after the PC component is sent away, and turning off the motor IV 37, retracting the piston rod of the air cylinder 15 to drive the sliding block II 17 to move back, moving back the sliding block II 17 to drive the rotating rod I19 to rotate reversely, rotating the rotating rod I19 to drive the lifting plate 18 to move downwards, driving the supporting plate I35, the supporting plate II 36, the motor IV 37, the belt pulley I38, the belt pulley II 40 and the belt I41 to descend until the belt I enters the groove III 42, starting the motor I5 reversely, and driving the rotating plate 4 to rotate back to the vertical state by reversely rotating the output shaft of the motor I5.

As shown in fig. 2 and 3, when the next PC component is to be moved out, a driving slot 9 is formed in the inner wall of the sliding slot one 7, a driving component 10 for moving the sliding block one 8 is arranged in the driving slot 9, the driving component comprises a motor two 21, a bevel gear one 22 and a bevel gear two 23, the motor two 21 is fixed on the side wall of the bottom plate 1, an output shaft of the motor two 21 penetrates through the inner wall of the driving slot 9 and is fixed with the bevel gear one 22, the motor two 21 is started, the output shaft of the motor two 21 rotates to drive the bevel gear one 22 to rotate, a threaded rod one 24 is arranged in the driving slot 9 in a rotating manner, the threaded rod one 24 is fixed with the bevel gear two 23, the bevel gear one 22 is meshed with the bevel gear two 23, the bevel gear two 23 rotates to drive the threaded rod one 24 to rotate, a driving block 25 is arranged in the driving slot 9 in a sliding manner, the driving block 25 is in threaded fit with the threaded rod one 24, and the driving block 25 is fixed with the sliding block one 8, the first threaded rod 24 rotates to drive the driving block 25 to move along the driving groove 9, the driving block 25 moves to drive the first sliding block 8 to move, the first sliding block 8 moves to drive the rotating plate 4 to move until the rotating plate moves to the designated position, and then the steps are circulated until all the PC components are removed from the bottom plate 1.

Claims

1. An adjustable PC component placing frame comprises a bottom plate (1) and a baffle (2) fixed at one end of the bottom plate (1), and is characterized by further comprising an adjustable device (3) arranged at the other end of the bottom plate (1), wherein the adjustable device (3) comprises a rotating plate (4) and a motor I (5), a groove I (6) is formed in the upper surface of the bottom plate (1), one end of the rotating plate (4) is arranged in the groove I (6) in a sliding mode, a sliding groove I (7) is formed in the side wall of the groove I (6), a sliding block I (8) is arranged in the sliding groove I (7) in a sliding mode, a driving groove (9) is formed in the inner wall of the sliding groove I (7), a driving assembly (10) used for moving the sliding block I (8) is arranged in the driving groove (9), a concave hole (11) is formed in one end, close to the rotating plate (4), of the sliding block I (8), the motor I (5) is fixed in the concave hole (11), an output shaft of the motor I (5) is fixed with the rotating plate (4), one end of the rotating plate (4) far away from the bottom plate (1) is provided with a clamping assembly (13) for clamping a PC component, a second groove (14) is formed in one side of the rotating plate (4), an air cylinder (15) is fixed in the second groove (14), a second sliding groove (16) is formed in the bottom wall of the second groove (14), a second sliding block (17) is arranged in the second sliding groove (16) in a sliding manner, a piston rod of the air cylinder (15) is fixed with a second sliding block (17), a lifting plate (18) is arranged in the second groove (14) in a sliding manner, a first rotating rod (19) is arranged between the second groove (14) and the second sliding block (17), two ends of the rotating rod I (19) are respectively hinged with the sliding block II (17) and the lifting plate (18), the lifting plate (18) is provided with a conveying assembly (20) for conveying PC components.

2. The adjustable PC component placing frame according to claim 1, wherein the driving assembly (10) comprises a second motor (21), a first bevel gear (22) and a second bevel gear (23), the second motor (21) is fixed on the side wall of the bottom plate (1), an output shaft of the second motor (21) penetrates through the inner wall of the driving groove (9) and is fixed with the first bevel gear (22), a first threaded rod (24) is arranged in the driving groove (9) in a rotating mode, the first threaded rod (24) is fixed with the second bevel gear (23), the first bevel gear (22) is meshed with the second bevel gear (23), a driving block (25) is arranged in the driving groove (9) in a sliding mode, the driving block (25) is in threaded fit with the first threaded rod (24), and the driving block (25) is fixed with the first sliding block (8).

3. The adjustable PC component placing frame according to claim 2, wherein the clamping assembly (13) comprises a third motor (26) and a bidirectional threaded rod (27), the third motor (26) is fixed on the rotating plate (4), a third sliding groove (28) is formed in the side wall of the rotating plate (4), an output shaft of the third motor (26) penetrates through the bottom wall of the third sliding groove (28), a third bevel gear (29) is fixed on the output shaft of the third motor (26), the bidirectional threaded rod (27) is rotatably arranged in the third sliding groove (28), a fourth bevel gear (30) is fixed on the bidirectional threaded rod (27), the third bevel gear (29) is meshed with the fourth bevel gear (30), a first sliding block (31) and a second sliding block (32) are arranged in the third sliding groove (28) in a sliding manner, and both the first sliding block (31) and the second sliding block (32) are in threaded fit with the bidirectional threaded rod (27), and a first clamping plate (33) and a second clamping plate (34) are respectively fixed on the first sliding block (31) and the second sliding block (32).

4. The adjustable PC component placing frame according to claim 3, wherein the conveying assembly (20) comprises a first support plate (35) and a second support plate (36), the first support plate (35) and the second support plate (36) are both fixed on the lifting plate (18), one end of the first support plate (35) is fixed with a fourth motor (37), an output shaft of the fourth motor (37) is fixed with a first belt pulley (38), a plurality of second rotating rods (39) are rotatably arranged between the first support plate (35) and the second support plate (36), one ends of the plurality of second rotating rods (39) penetrate through the first support plate (35), one ends of the plurality of second rotating rods (39) are both fixed with a second belt pulley (40), a first belt (41) is arranged between the first belt pulley (38) and the second belt pulley (40), and the first belt pulley (38) and the second belt pulley (40) are connected through the first belt (41), and conveying rollers (49) are fixed on the second rotating rod (39).

5. The adjustable PC component placing frame according to claim 4, wherein one side, away from the second groove (14), of the rotating plate (4) is provided with a third groove (42), a fifth motor (43) is fixed in the third groove (42), a fifth bevel gear (44) is fixed on an output shaft of the fifth motor (43), a third rotating rod (45) is arranged in the third groove (42) in a rotating mode, a sixth bevel gear (46) is fixed on the third rotating rod (45), the fifth bevel gear (44) is meshed with the sixth bevel gear (46), and support legs (47) are fixed at two ends of the third rotating rod (45).

6. The adjustable PC component placement frame according to claim 5, wherein a controller (48) is fixed on the base plate (1).