CN214770701U - Full-automatic numerical control drilling and tapping all-in-one machine - Google Patents

Abstract

The utility model discloses an all-in-one is attacked to full-automatic numerical control brill, including flange end plate conveying mechanism, flange end plate conveying mechanism one side is provided with the numerical control and bores and attack the mechanism, and the numerical control is bored and is attacked the mechanism and keep away from flange end plate conveying mechanism one side is provided with the flange and deposits the mechanism, the mechanism is attacked including the equipment chassis to the numerical control brill, be provided with flange end plate fixed establishment on the equipment chassis, equipment chassis upper portion is provided with the side auxiliary frame, two be provided with top support frame on the side auxiliary frame, it bores and attacks integrative subassembly to be provided with the flange end plate on the top support frame. The beneficial effects of the utility model are that, the utility model discloses simple structure, the practicality is stronger, and the precision of processing hole is higher, has realized the automated processing to the flange end plate upper hole, utilizes this full-automatic numerical control to bore and attack the all-in-one, has effectively replaced when processing tubular pile flange end plate, and the manual work has reduced the cost of labor to the transport and the clamping of flange end plate, has also improved the machining efficiency and the machining precision of flange end plate simultaneously.

Description

Full-automatic numerical control drilling and tapping all-in-one machine

Technical Field

The utility model relates to a mechanical equipment technical field, especially a full-automatic numerical control bores attacks all-in-one.

Background

The manufacturing process of the tubular pile flange end plate comprises the steps of rolling a plate into a tubular shape, cutting the plate into a tubular pile flange end plate blank, welding the joint of the blank to form a complete tubular pile flange end plate blank ring, and milling the upper surface and the lower surface of the circumferential weld of the blank to obtain the tubular pile flange end plate.

The pipe pile flange end plate is widely applied to two ends of a high-strength prestressed cement pipe pile, is an indispensable disc-shaped metal component and has large market demand; usually, the tubular pile flange end plate is a circular ring-shaped sheet steel plate, stretching bolt holes corresponding to the number of prestressed main reinforcements forming a reinforcement cage in the tubular pile are formed in the circumference of the ring surface with the equal diameter, prestressed main reinforcement anchor holes communicated with the stretching bolt holes are formed in one side of each stretching bolt hole, and one end of each anchor hole is provided with a counter bore for anchoring the prestressed main reinforcements; the hole process of processing on the tubular pile flange end plate among the prior art is many, and the course of working needs frequent transport and clamping, and workman's physical demands is big, and production efficiency is low, and current machine tool can not satisfy the needs of production development already.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the problem, a full-automatic numerical control bores and attacks all-in-one has been designed.

Realize above-mentioned purpose the technical scheme of the utility model be, a full-automatic numerical control bores and attacks all-in-one, including flange end plate conveying mechanism, flange end plate conveying mechanism one side is provided with the numerical control and bores the mechanism of attacking, the numerical control is bored and is attacked the mechanism and keep away from flange end plate conveying mechanism one side is provided with the flange and deposits the mechanism, the mechanism is attacked including the equipment chassis to the numerical control brill, be provided with flange end plate fixed establishment on the equipment chassis, equipment chassis upper portion is provided with the side auxiliary frame, two be provided with top support frame on the side auxiliary frame, it bores and attacks integrative subassembly to be provided with the flange end plate on the top support frame.

As a further description of the present invention, both sides are provided with the guide rail on the top support frame, be provided with the two-way movement handling mechanism on the guide rail, the two-way movement handling mechanism includes forward movement handling mechanism and reverse movement handling mechanism.

As a further description of the present invention, the forward moving and carrying mechanism includes a first power cylinder disposed on the guide rail, and an output end of the first power cylinder is disposed with the moving and carrying assembly.

As a further description of the present invention, the reverse movement carrying mechanism includes a second power cylinder provided on the guide rail, and an output end of the second power cylinder is provided with the movement carrying assembly.

As the utility model discloses a further description, remove the transport subassembly including setting up the removal slider on guide rail, be provided with on the removal slider and remove the frame, be provided with flange transport manipulator on removing the frame.

As the utility model discloses a further description, it is provided with supplementary lifting unit to be close to numerical control brill on the flange end plate conveying mechanism and attack mechanism one side, supplementary lifting unit is including setting up the cylinder fixed plate in flange end plate conveying mechanism one side, be provided with the lift cylinder on the cylinder fixed plate, the output of lift cylinder is provided with lifting support.

As a further description of the utility model, the mechanism is deposited to flange includes the support frame, the both sides of support frame are provided with supplementary guide arm, be provided with supplementary cylinder on the support frame, supplementary cylinder's output is provided with deposits the supporting component, deposit the last lifting slide who is connected with the cooperation of supplementary guide arm that is provided with of supporting component.

As a further description of the utility model, it includes the auxiliary frame of being connected with the lifting slide to deposit supporting component, auxiliary frame one side is provided with the accessory plate, be provided with the delivery cylinder on the accessory plate, the output of delivery cylinder is provided with supplementary rack, still be provided with on the accessory plate with supplementary rack both sides engaged with supplementary gear, each be provided with the storage rack on the supplementary gear.

The beneficial effects of the utility model reside in that, the utility model provides a full-automatic numerical control bores and attacks all-in-one simple structure, the practicality is stronger, and the precision of processing hole is higher, has realized the automated processing to the flange end plate upper hole, and the all-in-one is attacked to this full-automatic numerical control of application brill has effectively replaced when processing tubular pile flange end plate, and artifical transport and the clamping to the flange end plate have reduced the cost of labor, have also improved the machining efficiency and the machining precision of flange end plate simultaneously.

Drawings

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

fig. 2 is a schematic structural view of the flange storage mechanism of the present invention;

fig. 3 is a schematic structural view of the bidirectional moving carrying mechanism of the present invention;

fig. 4 is a schematic view of the installation structure of the auxiliary rack and the auxiliary gear of the present invention.

In the figure, 1, a flange end plate conveying mechanism; 2. a numerical control drilling and tapping mechanism; 3. a flange storage mechanism; 4. an equipment chassis; 5. a flange end plate fixing mechanism; 6. a side auxiliary frame; 7. a top support frame; 8. drilling and tapping the flange end plate into an integrated assembly; 9. a guide rail; 10. a bidirectional moving and carrying mechanism; 11. a forward movement carrying mechanism; 12. a reverse movement carrying mechanism; 13. a first power cylinder; 14. moving the carrying assembly; 15. a second power cylinder; 16. moving the slide block; 17. a movable frame; 18. a flange carrying manipulator; 19. an auxiliary lifting assembly; 20. a cylinder fixing plate; 21. a lifting cylinder; 22. a lifting support; 23. a support frame; 24. an auxiliary guide bar; 25. storing the support assembly; 26. a lifting slide block; 27. an auxiliary frame; 28. an auxiliary plate; 29. an output cylinder; 30. an auxiliary rack; 31. an auxiliary gear; 32. and (4) a storage rack.

Detailed Description

Firstly, the design of the utility model is designed originally, the pipe pile flange end plate is widely applied to two ends of the high-strength prestressed cement pipe pile, is an indispensable disc-shaped metal component and has large market demand; usually, tubular pile flange end plate is ring shape slice steel sheet, and equal-diameter circumference department opens the corresponding stretch-draw bolt hole of prestressing force owner muscle quantity with the reinforcing cage in the constitution tubular pile on the anchor ring, and the hole process of processing on the tubular pile flange end plate among the prior art is many, and the course of working needs frequent transport and clamping, and workman's physical demands is big, and production efficiency is low, and current machine tool can not satisfy the needs of production development already, consequently, the utility model discloses a full-automatic numerical control bores attacks all-in-one.

The utility model discloses it is right to combine the attached drawing below to describe specifically the utility model, as shown in fig. 1-4, a full-automatic numerical control bores attacks all-in-one, including flange end plate conveying mechanism 1, be used for carrying the flange end plate of treating processing, in order to realize the processing to the flange end plate, it attacks mechanism 2 to be provided with the numerical control at flange end plate conveying mechanism 1 one side and bore, the specific structure that mechanism 2 was attacked to the numerical control will be introduced in detail below, the numerical control is bored and is attacked mechanism 2 and include equipment chassis 4, be provided with side auxiliary frame 6 on equipment chassis 4, the upper portion of side auxiliary frame 6 is provided with top support frame 7, it attacks integrative subassembly 8 to be provided with the flange end plate on top support frame 7, it attacks integrative subassembly 8 to bore through the flange end plate, accomplish the drilling and the tapping of flange end plate.

Before the flange end plate is processed, the flange end plate conveyed by the flange end plate conveying mechanism 1 needs to be fixed, so that a flange end plate fixing mechanism 5 is arranged on the equipment chassis 4, the flange end plate fixing mechanism 5 is arranged below the flange end plate drilling and tapping integrated set, and the flange end plate is fixed through the flange end plate fixing mechanism 5.

Flange end plate after processing, need deposit the flange end plate, consequently, the mechanism 2 is attacked to the numerical control is bored and is kept away from 1 one side of flange end plate conveying mechanism is provided with the flange and deposits mechanism 3, will introduce the flange in detail below and deposit the concrete structure of mechanism 3, and mechanism 3 is deposited including support frame 23 to the flange, is provided with auxiliary guide rod 24 in the both sides of support frame 23, is provided with auxiliary cylinder on support frame 23, and auxiliary cylinder's output is provided with deposits supporting component 25, deposit the lifting slide 26 that is provided with on the supporting component 25 and is connected with auxiliary guide rod 24 cooperation, deposit the lift of supporting component 25 through auxiliary cylinder drive, deposit the flange end plate after the processing through depositing supporting component 25, will introduce the concrete structure of depositing supporting component 25 in detail below.

The storage supporting assembly 25 comprises an auxiliary frame 27 connected with the lifting slide block 26, an auxiliary plate 28 is arranged on one side of the auxiliary frame 27, an output cylinder 29 is arranged on the auxiliary plate 28, an auxiliary rack 30 is arranged at the output end of the output cylinder 29, auxiliary gears 31 meshed with two sides of the auxiliary rack 30 are further arranged on the auxiliary plate 28, a storage rack 32 is arranged on each auxiliary gear 31, the auxiliary rack 30 is driven to move in a telescopic mode through the output cylinder 29, the auxiliary gears 31 are driven to rotate, the auxiliary gears 31 rotate to further drive the storage racks 32 to clamp and open, and therefore the machined flange end plates are clamped and stored.

In order to place the flange end plates on the flange end plate conveying mechanism 1 on the flange end plate fixing mechanism 5 and convey the processed flange end plates to the flange storage mechanism 3, a conveying mechanism is also needed, therefore, a guide rail 9 is arranged on the top support frame 7, a bidirectional moving conveying mechanism 10 is arranged on the guide rail 9, the bidirectional moving conveying mechanism 10 comprises a forward moving conveying mechanism 11 and a reverse moving conveying mechanism 12, the flange end plates on the flange end plate conveying mechanism 1 are conveyed to the flange end plate fixing mechanism 5 through the forward moving conveying mechanism 11, and the processed flange end plates are conveyed to the flange storage mechanism 3 through the reverse moving conveying mechanism 12.

The specific structure of the forward moving and carrying mechanism 11 and the reverse moving and carrying mechanism 12 will be described in turn, the forward moving and carrying mechanism 11 includes a first power cylinder 13 disposed on the guide rail 9, the output end of the first power cylinder 13 is provided with a moving and carrying assembly 14, the reverse moving and carrying mechanism 12 includes a second power cylinder 15 disposed on the guide rail 9, the output end of the second power cylinder 15 is provided with a moving and carrying assembly 14, the moving and carrying assembly 14 is driven by the first power cylinder 13 to move, the moving and carrying assembly 14 is driven by the second power cylinder 15 to move, the specific structure of the moving and carrying assembly 14 will be described in detail below, the moving and carrying assembly 14 includes a moving slide 16 disposed on the guide rail 9, a moving frame 17 is disposed on the moving slide 16, a flange carrying manipulator 18 is disposed on the moving frame 17, clamping of the flange end plates is achieved by the flange handling robot 18.

Before the flange end plate is carried to positive removal transport mechanism 11, need carry out the lifting to the flange end plate of carrying on the flange end plate conveying mechanism 1, the transport of the positive removal transport mechanism 11 of being convenient for, consequently, it is provided with supplementary lifting unit 19 to be close to numerical control brill on flange end plate conveying mechanism 1 and attacks mechanism 2 one side, supplementary lifting unit 19 is including setting up the cylinder fixed plate 20 in flange end plate conveying mechanism 1 one side, be provided with lift cylinder 21 on cylinder fixed plate 20, the output of lift cylinder 21 is provided with lifting support 22, drive lifting support 22 elevating movement through lift cylinder 21, thereby with the flange end plate lifting on lifting support 22, the transport of getting to the flange end plate of positive removal transport mechanism 11 of being convenient for.

The utility model provides an all-in-one is attacked to full-automatic numerical control brill simple structure, the practicality is stronger, and the precision of processing hole is higher, has realized the automated processing to the flange end plate upper hole, utilizes this all-in-one is attacked to full-automatic numerical control brill, has effectively replaced when processing tubular pile flange end plate, and the manual work has reduced the cost of labor to the transport and the clamping of flange end plate, has also improved the machining efficiency and the machining precision of flange end plate simultaneously.

Above-mentioned technical scheme has only embodied the utility model discloses technical scheme's preferred technical scheme, some changes that this technical field's technical personnel probably made to some parts wherein have all embodied the utility model discloses a principle belongs to within the protection scope of the utility model.

Claims (8)

1. The utility model provides a full-automatic numerical control bores and attacks all-in-one, includes flange end plate conveying mechanism (1), its characterized in that, flange end plate conveying mechanism (1) one side is provided with the numerical control and bores and attack mechanism (2), the numerical control is bored and is attacked mechanism (2) and keep away from flange end plate conveying mechanism (1) one side is provided with flange storage mechanism (3), the numerical control is bored and is attacked mechanism (2) and is included equipment chassis (4), be provided with flange end plate fixed establishment (5) on equipment chassis (4), equipment chassis (4) upper portion is provided with side auxiliary frame (6), two be provided with top support frame (7) on side auxiliary frame (6), it bores and attacks integrative subassembly (8) to be provided with the flange end plate on top support frame (7).

2. The fully-automatic numerical control drilling and tapping all-in-one machine as claimed in claim 1, wherein guide rails (9) are arranged on two sides of the top support frame (7), a bidirectional moving carrying mechanism (10) is arranged on each guide rail (9), and each bidirectional moving carrying mechanism (10) comprises a forward moving carrying mechanism (11) and a reverse moving carrying mechanism (12).

3. The machine for fully automatically and numerically controlling drilling and tapping as claimed in claim 2, wherein the forward movement carrying mechanism (11) comprises a first power cylinder (13) arranged on the guide rail (9), and the output end of the first power cylinder (13) is provided with a movement carrying assembly (14).

4. The machine for fully automatically and numerically controlling drilling and tapping as claimed in claim 2, wherein the reverse movement carrying mechanism (12) comprises a second power cylinder (15) arranged on the guide rail (9), and the output end of the second power cylinder (15) is provided with a movement carrying assembly (14).

5. The machine for fully automatically and numerically controlling drilling and tapping according to claim 3, wherein the moving and carrying assembly (14) comprises a moving slide block (16) arranged on the guide rail (9), a moving frame (17) is arranged on the moving slide block (16), and a flange carrying manipulator (18) is arranged on the moving frame (17).

6. The full-automatic numerical control drilling and tapping integrated machine according to claim 1, wherein an auxiliary lifting assembly (19) is arranged on one side, close to the numerical control drilling and tapping mechanism (2), of the flange end plate conveying mechanism (1), the auxiliary lifting assembly (19) comprises a cylinder fixing plate (20) arranged on one side of the flange end plate conveying mechanism (1), a lifting cylinder (21) is arranged on the cylinder fixing plate (20), and a lifting support (22) is arranged at an output end of the lifting cylinder (21).

7. The full-automatic numerical control drilling and tapping integrated machine according to claim 1, wherein the flange storage mechanism (3) comprises a support frame (23), auxiliary guide rods (24) are arranged on two sides of the support frame (23), an auxiliary cylinder (33) is arranged on the support frame (23), a storage support assembly (25) is arranged at the output end of the auxiliary cylinder (33), and a lifting slide block (26) which is connected with the auxiliary guide rods (24) in a matched mode is arranged on the storage support assembly (25).

8. The fully-automatic numerical control drilling and tapping all-in-one machine as claimed in claim 7, wherein the storage support assembly (25) comprises an auxiliary frame (27) connected with a lifting slider (26), an auxiliary plate (28) is arranged on one side of the auxiliary frame (27), an output cylinder (29) is arranged on the auxiliary plate (28), an auxiliary rack (30) is arranged at the output end of the output cylinder (29), auxiliary gears (31) meshed with two sides of the auxiliary rack (30) are further arranged on the auxiliary plate (28), and a storage rack (32) is arranged on each auxiliary gear (31).

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