CN212168957U - Numerical control binary channels hydraulic chuck for merry go round machine - Google Patents

Abstract

The utility model discloses a hydraulic chuck for numerical control double-channel vertical lathe, which comprises a numerical control double-channel vertical lathe body, a numerical control double-channel vertical lathe frame, a rotary worktable, a hydraulic chuck, a middle through plate, a cylinder, a motor, a fixed groove, a first telescopic pipe, a second telescopic pipe, a compression spring, a first concave fixed plate, a second concave fixed plate, a threaded column, a first self-locking nut, a second self-locking nut, a threaded hole, a baffle, a rubber pad and a metal pad, wherein one side of the top of the numerical control double-channel vertical lathe body is provided with the numerical control double-channel vertical lathe frame, the top of the numerical control double-channel vertical lathe frame is provided with the motor at both sides of the center, the cylinder is arranged at the center of the numerical control double-channel vertical lathe frame, the hydraulic chuck for numerical control double-channel vertical lathe is simple in structure, the clamping device avoids the factors of untightening clamping, inconvenient clamping and the like when the workpiece is installed, and is beneficial to the use of a user.

Description

Numerical control binary channels hydraulic chuck for merry go round machine

Technical Field

The utility model relates to a numerical control binary channels merry go round machine technical field specifically is a hydraulic chuck for numerical control binary channels merry go round machine.

Background

The conventional chuck of the rotary worktable of the traditional numerical control double-channel vertical lathe is manually screwed, wastes time and labor, is very easy to have the defects of untightening, inclining, slowing and the like of the workpiece, causes difficult clamping and increases time cost, cannot adjust the height of the chuck, is not beneficial to use of a user, has no protection device, is very easy to damage the chuck by external extrusion, and reduces the service life of the chuck; in view of the defects, it is necessary to design a hydraulic chuck for a numerical control double-channel vertical lathe.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a numerical control binary channels hydraulic chuck for vertical lathe to solve the problem that proposes among the above-mentioned background art.

In order to solve the technical problem, the utility model provides a following technical scheme: a hydraulic chuck for a numerical control double-channel vertical lathe comprises a numerical control double-channel vertical lathe body, a numerical control double-channel vertical lathe frame, a rotary workbench, a hydraulic chuck, a through plate, a cylinder, a motor, a fixed groove, a first telescopic pipe, a second telescopic pipe, a compression spring, a first concave fixed plate, a second concave fixed plate, a threaded column, a first self-locking nut, a second self-locking nut, a threaded hole, a baffle, a rubber pad and a metal pad, wherein the numerical control double-channel vertical lathe frame is arranged on one side of the top of the numerical control double-channel vertical lathe body, the motor is arranged on two sides of the top of the numerical control double-channel vertical lathe frame at the center, the cylinder is arranged at the center of the numerical control double-channel vertical lathe frame, the through plate is arranged on two sides of the surface of the numerical control double-channel vertical lathe frame at the center, the, the top of the rotary worktable is provided with a hydraulic chuck, the bottom of the hydraulic chuck is provided with a plurality of fixed grooves, the inner wall of the fixed grooves is welded with a first telescopic pipe, the bottom of the first telescopic pipe is sleeved with a second telescopic pipe, the outer sides of the first telescopic pipe and the second telescopic pipe are sleeved with a compression spring, the bottom of the second telescopic pipe is welded with a first concave fixed plate, the bottom of the first concave fixed plate is provided with a second concave fixed plate, both ends of the first concave fixed plate and the second concave fixed plate are provided with threaded holes, a threaded column is sleeved inside the threaded holes, both the top and the bottom of the threaded column are sleeved with a plurality of first self-locking nuts and second self-locking nuts, the first self-locking nuts and the second self-locking nuts are positioned at both sides of the first concave fixed plate and the second concave fixed plate, both ends of the threaded column are welded with, the bottom of the second concave fixing plate is bonded with a rubber pad, the bottom of the rubber pad is bonded with a metal pad, and the metal pad is connected with the top of the rotary workbench.

Furthermore, a wire is arranged at one end of the motor and connected with an external power supply.

Further, the top of the numerical control double-channel vertical lathe body is positioned at two sides of the center and provided with mounting holes, and the mounting holes are sleeved on the outer side of the bottom of the rotary workbench.

Furthermore, the two sides of one end of the numerical control double-channel vertical lathe frame, which are positioned at the center, are provided with tool rest guide rails, and the tool rest guide rails are connected with one side of the through plate.

Furthermore, an oil circuit block is arranged on one side of the bottom of the numerical control double-channel vertical lathe body and connected with the cylinder.

Compared with the prior art, the utility model discloses the beneficial effect who reaches is: the hydraulic chuck for the numerical control double-channel vertical lathe is simple in structure and convenient to operate, the double-channel vertical lathe can realize simultaneous turning and workpiece replacement, synchronous processing of different procedures and different workpieces, wider range of the rotation speed and feeding of a main shaft of the numerical control machine tool compared with a common lathe, simpler and firmer clamping by adopting the hydraulic chuck, more effective time cost saving, avoidance of loose clamping during workpiece installation, avoidance of factors such as inconvenient clamping and the like, and contribution to use by users, and the purpose of adjusting the height of the hydraulic chuck can be achieved by screwing the first self-locking nut and the second self-locking nut and adjusting the distance between the first concave fixing plate and the second concave fixing plate, the processing and the use are convenient, meanwhile, when the hydraulic chuck is extruded from the outside, the hydraulic chuck extrudes the compression spring, the compression spring provides elastic buffering extrusion force, the hydraulic chuck is protected, and the service life of the hydraulic chuck is prolonged.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention. In the drawings:

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

FIG. 2 is a schematic view of the hydraulic chuck structure of the present invention;

fig. 3 is an enlarged view of a first concave fixing plate according to the present invention;

in the figure: 1. a numerical control double-channel vertical lathe body; 2. a numerical control double-channel vertical lathe frame; 3. rotating the working table; 4. a hydraulic chuck; 5. a middle through plate; 6. a cylinder; 7. a motor; 8. fixing grooves; 9. a first telescopic tube; 10. a second telescopic tube; 11. a compression spring; 12. a first concave fixing plate; 13. a second concave fixing plate; 14. a threaded post; 15. a first self-locking nut; 16. a second self-locking nut; 17. a threaded hole; 18. a baffle plate; 19. a rubber pad; 20. a metal pad.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-3, the present invention provides a technical solution: a hydraulic chuck for a numerical control double-channel vertical lathe comprises a numerical control double-channel vertical lathe body 1, a numerical control double-channel vertical lathe frame 2, a rotary workbench 3, a hydraulic chuck 4, a middle through plate 5, a cylinder 6, a motor 7, a fixed groove 8, a first telescopic pipe 9, a second telescopic pipe 10, a compression spring 11, a first concave fixed plate 12, a second concave fixed plate 13, a threaded column 14, a first self-locking nut 15, a second self-locking nut 16, a threaded hole 17, a baffle plate 18, a rubber pad 19 and a metal pad 20, wherein the numerical control double-channel vertical lathe frame 2 is arranged on one side of the top of the numerical control double-channel vertical lathe body 1, the motor 7 is arranged on two sides of the top of the numerical control double-channel vertical lathe frame 2 at the center, a lead is arranged at one end of the motor 7 and connected with an external power source to facilitate the work of the motor 7, the cylinder 6 is arranged at the center of, and the oil circuit block is connected with the cylinder 6, which is beneficial to the work of the cylinder 6, the two sides of the surface of the numerical control double-channel vertical lathe frame 2, which are positioned at the center, are both provided with the middle through plate 5, one end of the numerical control double-channel vertical lathe frame 2, which is positioned at the two sides of the center, is both provided with the tool rest guide rail, which is connected with one side of the middle through plate 5, which is beneficial to the movement of the middle through plate 5, the two sides of the top of the numerical control double-channel vertical lathe body 1, which are positioned at the center, are both provided with the mounting holes, the mounting holes are sleeved outside the bottom of the rotary worktable 3, which is beneficial to the fixation of the rotary worktable 3, the top of the rotary worktable 3 is provided with the hydraulic chuck 4, the bottom of the hydraulic chuck 4 is provided with a plurality of fixed grooves 8, the inner wall, the outer sides of the first extension tube 9 and the second extension tube 10 are sleeved with a compression spring 11, the bottom of the second extension tube 10 is welded with a first concave fixing plate 12, the bottom of the first concave fixing plate 12 is provided with a second concave fixing plate 13, both ends of the first concave fixing plate 12 and the second concave fixing plate 13 are provided with threaded holes 17, the threaded holes 17 are sleeved with threaded columns 14, the top and the bottom of the threaded columns 14 are sleeved with a plurality of first self-locking nuts 15 and second self-locking nuts 16, and the first self-locking nut 15 and the second self-locking nut 16 are positioned at two sides of the first concave fixing plate 12 and the second concave fixing plate 13, two ends of the threaded column 14 are welded with the baffle plates 18, the baffle 18 is positioned on one side of the second self-locking nut 16, the bottom of the second concave fixing plate 13 is bonded with a rubber pad 19, the bottom of the rubber pad 19 is bonded with a metal pad 20, and the metal pad 20 is connected with the top of the rotary worktable 3; when the hydraulic chuck for the numerical control double-channel vertical lathe is used, a tool required by clamping a machine tool spindle manually rotates the first self-locking nut 15 and the second self-locking nut 16 clockwise, the first self-locking nut 15 and the second self-locking nut 16 drive the first concave fixing plate 12 and the second concave fixing plate 13 to move relatively, the first concave fixing plate 12 moves to extrude the compression spring 11, the compression spring 11 provides elasticity to jack up the hydraulic chuck 4 until the hydraulic chuck 4 is adjusted to a proper position, a processed workpiece is placed on the outer side of the hydraulic chuck 4 to be clamped, the rotary workbench 3 performs indexing positioning on the workpiece, the cutter lowering and lifting of the main shaft are completed by the up-and-down movement of the main shaft guide rail of the numerical control double-channel vertical lathe frame 2, the middle through plate 5 is matched with the main shaft guide rail of the numerical control double-channel vertical lathe frame 2 to move, when the tool needs to be changed, the tool rest is positioned to the required tool changing position through the mutual matching of the main shaft guide rails of the numerical control double-channel vertical lathe frame 2, so that the tool changing is completed.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (5)

1. The utility model provides a numerical control binary channels hydraulic chuck for merry go round machine, includes numerical control binary channels merry go round machine lathe bed (1), numerical control binary channels merry go round machine frame (2), rotary table (3), hydraulic chuck (4), well logical board (5), cylinder (6), motor (7), fixed slot (8), first flexible pipe (9), the flexible pipe of second (10), compression spring (11), first spill fixed plate (12), second spill fixed plate (13), screw thread post (14), first auto-lock nut (15), second auto-lock nut (16), screw hole (17), baffle (18), rubber pad (19) and metal pad (20), its characterized in that: the numerical control double-channel vertical lathe is characterized in that a numerical control double-channel vertical lathe frame (2) is arranged on one side of the top of the numerical control double-channel vertical lathe body (1), motors (7) are arranged on two sides of the top of the numerical control double-channel vertical lathe frame (2) located at the center, cylinders (6) are arranged at the center of the numerical control double-channel vertical lathe frame (2), through plates (5) are arranged on two sides of the surface of the numerical control double-channel vertical lathe frame (2) located at the center, rotary workbenches (3) are arranged on two sides of the top of the numerical control double-channel vertical lathe body (1) located at the center, a hydraulic chuck (4) is arranged at the top of the rotary workbench (3), a plurality of fixing grooves (8) are formed in the bottom of the hydraulic chuck (4), first telescopic pipes (9) are welded to the inner wall of the fixing grooves, second telescopic pipes (10) are sleeved at the bottoms of the first telescopic, a first concave fixing plate (12) is welded at the bottom of the second extension tube (10), a second concave fixing plate (13) is arranged at the bottom of the first concave fixing plate (12), threaded holes (17) are formed in the two ends of the first concave fixing plate (12) and the second concave fixing plate (13), threaded columns (14) are sleeved in the threaded holes (17), a plurality of first self-locking nuts (15) and second self-locking nuts (16) are sleeved at the top and the bottom of each threaded column (14), the first self-locking nuts (15) and the second self-locking nuts (16) are located on the two sides of the first concave fixing plate (12) and the second concave fixing plate (13), baffles (18) are welded at the two ends of each threaded column (14), the baffles (18) are located on one side of the second self-locking nuts (16), and rubber pads (19) are bonded at the bottom of the second concave fixing plate (13), the bottom of the rubber pad (19) is bonded with a metal pad (20), and the metal pad (20) is connected with the top of the rotary workbench (3).

2. The hydraulic chuck for the numerical control double-channel vertical lathe according to claim 1, wherein: and one end of the motor (7) is provided with a lead, and the lead is connected with an external power supply.

3. The hydraulic chuck for the numerical control double-channel vertical lathe according to claim 1, wherein: the top of the numerical control double-channel vertical lathe body (1) is positioned at the two sides of the center and is provided with mounting holes, and the mounting holes are sleeved on the outer side of the bottom of the rotary workbench (3).

4. The hydraulic chuck for the numerical control double-channel vertical lathe according to claim 1, wherein: numerical control binary channels merry go round machine frame (2) one end is located center department both sides and all is provided with the knife rest guide rail, and the knife rest guide rail is connected with well logical board (5) one side.

5. The hydraulic chuck for the numerical control double-channel vertical lathe according to claim 1, wherein: one side of the bottom of the numerical control double-channel vertical lathe body (1) is provided with an oil circuit block, and the oil circuit block is connected with the air cylinder (6).

Images