CN216705969U - Precise multi-station automatic machining center - Google Patents

Abstract

The utility model relates to the technical field of automatic machining centers, in particular to a precise multi-station automatic machining center which comprises a bedplate, wherein placing tables are respectively arranged on four sides of the bedplate, sliding grooves are respectively formed in the inner walls of two sides of four groups of placing tables, air cylinders are respectively arranged on two sides of the four groups of placing tables, push rods are respectively arranged at the output ends of eight groups of air cylinders, limiting plates are respectively arranged at one ends of eight groups of push rods, inclined plates are respectively arranged on two sides of eight groups of limiting plates, movable blocks are respectively arranged at one end of sixteen groups of inclined plates, a mounting column is arranged at the position, close to the middle, of the top end of the bedplate, four groups of extension plates are arranged at the position, close to the top end, of the outer surface of the mounting column, four groups of extension plates are respectively movably screwed with a screw rod inside, and mounting plates are respectively arranged at the bottom ends of the four groups of screw rods. The problem that multi-station machining cannot be carried out simultaneously and only one product can be machined at a time can be effectively solved under the setting effect of parts such as mounting plates, mounting grooves, sliding rails, sliding blocks, positioning columns and machining heads.

Description

Precise multi-station automatic machining center

Technical Field

The utility model relates to the technical field of automatic machining centers, in particular to a precise multi-station automatic machining center.

Background

The feeding processing route of the control lathe refers to a path through which the turning tool starts to move from a tool setting point (or a fixed origin of the machine tool) until the turning tool returns to the tool setting point and the processing program is finished, and comprises a cutting processing path and non-cutting idle stroke paths such as cutting in and cutting out of the tool. The feed path for finishing is basically performed sequentially along the contour of the part, so the work for determining the feed path is focused on determining the feed path for rough machining and idle stroke, but the existing automatic machining center has many problems, so further improvement is needed.

The existing automatic processing center has the problems that multi-station processing can not be carried out simultaneously, and only one product can be processed at a time, so that inconvenience is brought to actual operation; the utility model provides a precise multi-station automatic machining center for solving the problem that the existing automatic machining center cannot conveniently and quickly limit and clamp a product during machining, and inconvenience is brought to actual operation.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a precise multi-station automatic machining center to solve the problems in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme: a precise multi-station automatic machining center comprises a bedplate, wherein placing tables are respectively arranged on four sides of the bedplate, sliding grooves are respectively formed in the inner walls of two sides of four groups of placing tables, air cylinders are respectively arranged on two sides of four groups of placing tables, push rods are respectively arranged at the output ends of eight groups of air cylinders, limiting plates are respectively arranged at one ends of eight groups of push rods, inclined plates are respectively arranged on two sides of eight groups of limiting plates, movable blocks are respectively arranged at one ends of sixteen groups of inclined plates, mounting columns are arranged at the top ends of the bedplate close to the middle, four groups of extension plates are respectively arranged at the outer surfaces of the mounting columns close to the top ends, screw rods are movably screwed in the four groups of extension plates, mounting plates are respectively arranged at the bottom ends of the four groups of screw rods, mounting grooves are respectively formed in the bottom surfaces of the four groups of mounting plates, slide rails are respectively arranged on the inner walls of the top ends of the four groups of mounting grooves, and slide blocks are respectively connected to the outer surfaces of the four groups of slide rails in a sliding mode, four groups the reference column is all installed to the bottom of slider, four groups the processing head is all installed to the bottom of reference column, four groups the board is all installed by the position of one side to the bottom of mounting panel, four groups place the magnet piece all installed to the corresponding one side of board.

Preferably, sixteen groups of the movable blocks are equal in size, and the sixteen groups of the movable blocks are respectively located in the inner parts of the corresponding sliding grooves.

Preferably, the four groups of screws are equal in size, the bottom ends of the four groups of screws are sleeved with bearings, and the bottom ends of the four groups of screws are fixed to the top ends of the corresponding mounting plates through the corresponding bearings respectively.

Preferably, the inner walls of the four groups of the two sides of the placing table are provided with communicating grooves at positions close to the corresponding push rods, and one ends of the eight groups of the push rods respectively penetrate through the inner wall of the corresponding side of the corresponding placing table through the corresponding communicating grooves.

Preferably, the four groups of placing tables are equal in size, and the four groups of placing tables are arranged in a central symmetry manner by taking the central point of the mounting column as a central point.

Preferably, the four groups of extension plates are equal in size, and are arranged in a central symmetry manner by taking a central point of the mounting column as a central point.

Preferably, the four groups of positioning columns are equal in size, and the four groups of positioning columns are arranged in one-to-one correspondence with the corresponding placing tables.

Compared with the prior art, the utility model has the beneficial effects that:

1. the problem that multi-station machining cannot be carried out simultaneously and only one product can be machined at a time can be effectively solved under the setting effect of parts such as mounting plates, mounting grooves, sliding rails, sliding blocks, positioning columns and machining heads.

2. The problem that products cannot be conveniently and quickly clamped in a limiting mode when the products are machined can be effectively solved through the arrangement of the air cylinder, the push rod, the limiting plate, the inclined plate, the movable block and other parts.

Drawings

FIG. 1 is a schematic bottom perspective view of the main body of the present invention;

FIG. 2 is an enlarged view of the point A in FIG. 1;

FIG. 3 is a schematic top perspective view of the main body of the present invention;

FIG. 4 is an enlarged view of the point B in FIG. 3;

fig. 5 is a schematic structural section of the mounting plate of the present invention.

In the figure: 1. a platen; 2. a placing table; 21. a chute; 22. a cylinder; 23. a push rod; 24. a limiting plate; 25. a sloping plate; 26. a movable block; 3. mounting a column; 31. an extension plate; 32. a screw; 4. mounting a plate; 41. mounting grooves; 42. a slide rail; 43. a slider; 44. a positioning column; 45. a machining head; 46. placing the plate; 47. and a magnet block.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 5, the present invention provides a technical solution: a precise multi-station automatic processing center comprises a bedplate 1, wherein four sides of the bedplate 1 are respectively provided with a placing table 2, four groups of placing tables 2 are equal in size, the four groups of placing tables 2 are arranged in central symmetry by taking a central point of a mounting column 3 as a central point, the inner walls of two sides of the four groups of placing tables 2 are respectively provided with a chute 21, two sides of the four groups of placing tables 2 are respectively provided with an air cylinder 22, the output ends of eight groups of air cylinders 22 are respectively provided with a push rod 23, the inner walls of two sides of the four groups of placing tables 2 are respectively provided with a communicating groove by the position corresponding to the push rod 23, one end of each of the eight groups of push rods 23 respectively penetrates through the corresponding inner wall of the corresponding placing table 2 through the corresponding communicating groove, one end of each of the eight groups of push rods 23 is respectively provided with a limiting plate 24, two sides of each of the eight groups of limiting plates 24 are respectively provided with an inclined plate 25, one end of the sixteen groups of inclined plates 25 is provided with a movable block 26, the sixteen groups of movable blocks 26 are equal in size, and the sixteen groups of movable blocks 26 are respectively positioned in the corresponding chutes 21, the top end of the bedplate 1 is provided with a mounting column 3 near the middle, the outer surface of the mounting column 3 is provided with four groups of extension plates 31 near the top end, the four groups of extension plates 31 have the same size, the four groups of extension plates 31 are arranged in a central symmetry manner by taking the central point of the mounting column 3 as the central point, the four groups of extension plates 31 are movably screwed with screw rods 32, the four groups of screw rods 32 have the same size, the bottom ends of the four groups of screw rods 32 are sleeved with bearings, the bottom ends of the four groups of screw rods 32 are respectively fixed with the top ends of corresponding mounting plates 4 through corresponding bearings, the bottom ends of the four groups of screw rods 32 are respectively provided with a mounting plate 4, the bottom surfaces of the four groups of mounting plates 4 are respectively provided with mounting grooves 41, the inner walls of the top ends of the four groups of mounting grooves 41 are respectively provided with slide rails 42, the outer surfaces of the four groups of slide rails 42 are respectively connected with slide blocks 43 in a sliding manner, the bottom ends of the slide blocks 43 are respectively provided with positioning columns 44, and the four groups of positioning columns 44 have the same size, the four groups of positioning columns 44 are arranged in one-to-one correspondence with the corresponding placing tables 2, the bottom ends of the four groups of positioning columns 44 are respectively provided with a processing head 45, the positions of the bottom ends of the four groups of mounting plates 4 close to one side are respectively provided with a placing plate 46, and the corresponding sides of the four groups of placing plates 46 are respectively provided with a magnet block 47;

the working principle is as follows: in the using process, a user can simultaneously place four groups of workpieces in the corresponding placing table 2 respectively, then the air cylinders 22 arranged at two sides of the corresponding placing table 2 can be sequentially started, the corresponding push rods 23 can move to the corresponding side under the action of the corresponding two groups of air cylinders 22, and further the corresponding limiting plates 24 and the corresponding two groups of inclined plates 25 are driven to move, so that the corresponding limiting plates 24 and the corresponding two groups of inclined plates 25 can be attached to the surface of the corresponding side of the workpiece, thereby the workpiece is limited and clamped, in the moving process of the corresponding two groups of inclined plates 25, the corresponding movable blocks 26 can move in the corresponding chutes 21, so that the corresponding two groups of inclined plates 25 and the corresponding limiting plates 24 are more stable and are not easy to shake in the moving process, when the four groups of workpieces are all fixed by the limiting and clamping, the user can rotate the four groups of screw rods 32, under the rotation action of the four groups of screw rods 32, the four groups of mounting plates 4 can correspondingly move downwards, so that the corresponding positioning columns 44 and the corresponding processing heads 45 can be lowered to the designated height, and then the user can move the four groups of positioning columns 44 to the corresponding side, so that the four sets of positioning columns 44 can be separated from the corresponding magnet blocks 47, and then the user can perform processing treatment through the processing heads 45 arranged at the bottom ends of the four sets of positioning columns 44, when different positions of the workpiece are required to be machined, the corresponding positioning post 44 can be moved, so that the corresponding machining head 45 can move along with it, and machine different positions of the workpiece, during the movement the counter slide 43 will perform a corresponding movement on the surface of the counter slide 42, the corresponding positioning column 44 and the corresponding processing head 45 can be more stable and less prone to shaking in the moving process through the arrangement of the corresponding sliding block 43 and the corresponding sliding rail 42.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides a precision multistation automatic processing center, includes platen (1), its characterized in that: four sides of the bedplate (1) are respectively provided with a placing table (2), the inner walls of two sides of the four placing tables (2) are respectively provided with a sliding chute (21), two sides of the four placing tables (2) are respectively provided with a cylinder (22), the output ends of the eight cylinders (22) are respectively provided with a push rod (23), one end of each push rod (23) is respectively provided with a limit plate (24), two sides of each limit plate (24) are respectively provided with an inclined plate (25), one end of each inclined plate (25) is respectively provided with a movable block (26), the top end of the bedplate (1) is provided with a mounting column (3) near the middle position, the outer surface of the mounting column (3) is provided with four extending plates (31) near the top end, the insides of the four extending plates (31) are respectively movably screwed with a screw rod (32), and the bottom ends of the four screw rods (32) are respectively provided with a mounting plate (4), four sets mounting groove (41), four sets have all been seted up to the bottom surface of mounting panel (4) slide rail (42), four sets are all installed to the top inner wall of mounting groove (41) slide rail (42) the equal sliding connection in surface of slide rail (42) has slider (43), four sets reference column (44), four sets are all installed to the bottom of slider (43) processing head (45), four sets place board (46), four sets are all installed by the position of one side to the bottom of mounting panel (4) place magnet piece (47) all installed to the corresponding one side of board (46).

2. The precision multi-station automatic machining center according to claim 1, wherein: sixteen groups of the movable blocks (26) are equal in size, and the sixteen groups of the movable blocks (26) are respectively positioned in the corresponding sliding grooves (21).

3. The precision multi-station automatic machining center according to claim 1, wherein: the sizes of the four groups of screw rods (32) are equal, the bottom ends of the four groups of screw rods (32) are sleeved with bearings, and the bottom ends of the four groups of screw rods (32) are fixed with the top ends of the corresponding mounting plates (4) through the corresponding bearings respectively.

4. The precision multi-station automatic machining center according to claim 1, wherein: the inner walls of the two sides of the four groups of placing tables (2) are provided with communicating grooves by the positions corresponding to the push rods (23), and one ends of the eight groups of push rods (23) penetrate through the inner wall of the corresponding side of the corresponding placing table (2) through the corresponding communicating grooves respectively.

5. The precision multi-station automatic machining center according to claim 1, wherein: the four groups of placing tables (2) are equal in size, and the four groups of placing tables (2) are arranged in a central symmetry mode by taking the central point of the mounting column (3) as a central point.

6. The precision multi-station automatic machining center according to claim 1, wherein: the four groups of extension plates (31) are equal in size, and the four groups of extension plates (31) are arranged in a central symmetry mode by taking the central point of the mounting column (3) as a central point.

7. The precision multi-station automatic machining center according to claim 1, wherein: the four groups of positioning columns (44) are equal in size, and the four groups of positioning columns (44) are arranged in one-to-one correspondence with the corresponding placing tables (2).

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