CN214979596U - Efficient double-end aluminum alloy machining center - Google Patents

Abstract

The utility model discloses an efficient double-end aluminum alloy machining center, including machining center main part, first grid, main shaft and storage bucket, the workstation has been seted up at the top of machining center main part, and the left and right sides of workstation is provided with splint to first grid is installed at the top of workstation, the middle part of first grid is provided with the second grid, and one side of second grid contacts with the machining center main part through the spiral spring. This efficient double-end aluminum alloy machining center is provided with first grid and second grid in the inside of workstation for the piece that produces man-hour can fall the bottom of workstation, can not influence the effect that processing part was put, simultaneously under the promotion of ejector pin, make the second grid can use spiral scroll spring to rotate as the center, thereby make the second grid take place the slope and change, be favorable to the device can automatic unloading, thereby improve work efficiency.

Description

Efficient double-end aluminum alloy machining center

Technical Field

The utility model relates to a machining center technical field specifically is an efficient double-end aluminum alloy machining center.

Background

The machining center is developed from a numerical control milling machine, the greatest difference with the numerical control milling machine is that the machining center has the capability of automatically exchanging machining tools, multiple machining functions are realized, but a common machining center is a single-head machining center, so that the working efficiency is low, a double-head machining center is researched and developed, the aluminum alloy can be efficiently machined, and the common double-head aluminum alloy machining center in the market still has the following problems:

1. when the device works, more chips are generated, so that the working table surface becomes uneven, the arrangement of a machined part is influenced, and meanwhile, the excessive chips need to be cleaned manually, so that time is wasted;

2. after the processing is finished, manual blanking is needed, so that the blanking time is longer, and the working efficiency is reduced.

Aiming at the problems, the novel design is carried out on the basis of the original double-head aluminum alloy machining center.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an efficient double-end aluminum alloy machining center, with solve common double-end aluminum alloy machining center on the existing market that proposes in the above-mentioned background, at the device during operation, can produce more pieces, thereby it is not flat to make table surface become the concavity, thereby can influence putting of machined part, too much piece needs artifical clearance simultaneously, thereby more waste time, simultaneously after processing is accomplished, need artifical unloading, make the time comparison of unloading long, thereby reduce work efficiency's problem.

In order to achieve the above object, the utility model provides a following technical scheme: a high-efficiency double-head aluminum alloy machining center comprises a machining center main body, a first grid, a main shaft and a storage barrel, wherein a workbench is arranged at the top of the machining center main body, clamping plates are arranged on the left side and the right side of the workbench, the first grid is arranged at the top of the workbench, a second grid is arranged in the middle of the first grid, one side of the second grid is in contact with the machining center main body through a volute spiral spring, a motor is arranged inside the machining center main body, the top of the motor is connected with the main shaft, a supporting plate is arranged on the main shaft, a push block is arranged on the supporting plate, the surface of the supporting plate is in contact with a push rod, the top of the push rod penetrates through the workbench to be in contact with the second grid, the outer surface of the main shaft is connected with a half gear through a belt pulley, one side of the half gear is in contact with a reduction gear, and the reduction gear is welded and fixed with the storage barrel, one side of the storage barrel is connected with the cleaning brush through the tension rope, one side of the cleaning brush is connected with the machining center through the telescopic spring, and the waste discharge port is formed in the bottom of the cleaning brush.

Preferably, the workstation look sideways at and is trapezoidal form, and the workstation link up each other with the waste discharge opening to the waste discharge opening symmetric distribution is in the both sides of workstation, the mutual block of workstation and first grid simultaneously.

Preferably, the main shaft and the supporting plate are of an integrated structure, the pushing blocks are symmetrically distributed on the supporting plate, the overlooking of the pushing blocks is arc-shaped, and meanwhile, two sides of the pushing blocks are obliquely arranged.

Preferably, the supporting plate is attached to the bottom of the ejector rod, the ejector rod is in sliding connection with the workbench, the top of the ejector rod is attached to the second grating, and the second grating and the machining center main body form a rotating structure through a volute spiral spring.

Preferably, the half gear and the main shaft form a linkage structure through a belt pulley, the half gear is in an incomplete tooth angle shape, the half gear and the reduction gear are in meshed connection, and the diameter of the half gear is larger than that of the reduction gear.

Preferably, the storage barrel forms a linkage structure with the cleaning brush through the tension rope, the cleaning brush forms a telescopic structure with the machining center main body through the telescopic spring, and a bottom brush of the cleaning brush is attached to the surface of the workbench.

Compared with the prior art, the beneficial effects of the utility model are that: the high-efficiency double-end aluminum alloy machining center,

1. the first grating and the second grating are arranged in the workbench, so that scraps generated during machining can fall to the bottom of the workbench, the placing effect of machined parts cannot be influenced, and the second grating can rotate by taking the volute spiral spring as the center under the pushing of the ejector rod, so that the second grating is inclined and changed, the automatic blanking of the device is facilitated, and the working efficiency is improved;

2. be provided with clearance brush and waste opening in the bottom of workstation, rotation through the containing barrel for the containing barrel passes through the pulling force rope and drives the clearance brush and remove inside the workstation, and the elastic action of rethread extension spring makes the clearance brush reset, is favorable to the round trip movement of clearance brush, thereby makes the clearance brush can sweep the piece of workstation bottom to the inside waste opening of arranging and discharge, is favorable to the automatic clearance of device, improves the practicality of device.

Drawings

FIG. 1 is a schematic view of the overall front cross-sectional structure of the present invention;

FIG. 2 is a schematic view of the overall side view cross-section structure of the present invention;

FIG. 3 is a schematic view of a second grid and volute spiral spring connection structure according to the present invention;

FIG. 4 is an enlarged schematic view of the structure at A in FIG. 2 according to the present invention;

FIG. 5 is a schematic view of the top-down connection structure of the supporting plate and the pushing block of the present invention;

fig. 6 is a schematic view of the overlooking connection structure of the half gear and the reduction gear of the present invention.

In the figure: 1. a machining center main body; 2. a work table; 3. a splint; 4. a first grid; 5. a second grid; 6. a volute spiral spring; 7. a motor; 8. a main shaft; 9. a support plate; 10. a push block; 11. a top rod; 12. a belt pulley; 13. a half gear; 14. a reduction gear; 15. a storage barrel; 16. a tension rope; 17. cleaning a brush; 18. a tension spring; 19. a waste discharge port.

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. 1-6, the present invention provides a technical solution: a high-efficiency double-head aluminum alloy machining center comprises a machining center main body 1, a first grid 4, a main shaft 8 and a containing barrel 15, wherein a workbench 2 is arranged at the top of the machining center main body 1, clamping plates 3 are arranged on the left side and the right side of the workbench 2, the first grid 4 is arranged at the top of the workbench 2, a second grid 5 is arranged in the middle of the first grid 4, one side of the second grid 5 is in contact with the machining center main body 1 through a volute spiral spring 6, a motor 7 is arranged inside the machining center main body 1, the top of the motor 7 is connected with the main shaft 8, a supporting plate 9 is arranged on the main shaft 8, a push block 10 is arranged on the supporting plate 9, the surface of the supporting plate 9 is in contact with a push rod 11, the top of the push rod 11 penetrates through the workbench 2 to be in contact with the second grid 5, and the outer surface of the main shaft 8 is connected with a semi-gear 13 through a belt pulley 12, and one side of the half gear 13 contacts with the reduction gear 14, the reduction gear 14 is welded and fixed with the storage barrel 15, one side of the storage barrel 15 is connected with the cleaning brush 17 through the tension rope 16, one side of the cleaning brush 17 is connected with the machining center main body 1 through the telescopic spring 18, and the bottom of the cleaning brush 17 is provided with a waste discharge port 19.

Workstation 2 looks sideways at and is the trapezoidal form, and workstation 2 link up each other with waste discharge outlet 19 to waste discharge outlet 19 symmetric distribution is in the both sides of workstation 2, and workstation 2 is favorable to workstation 2 to clastic collection work with first grid 4 block each other simultaneously.

The main shaft 8 and the supporting plate 9 are of an integrated structure, the pushing blocks 10 are symmetrically distributed on the supporting plate 9, the pushing blocks 10 are arc-shaped when viewed from above, and meanwhile, the two sides of the pushing blocks 10 are arranged in an inclined mode, so that the main shaft 8 can drive the pushing blocks 10 to rotate conveniently.

The bottom of layer board 9 and ejector pin 11 is laminated each other, and ejector pin 11 and workstation 2 are sliding connection to the top of ejector pin 11 and the mutual laminating of second grid 5, second grid 5 passes through volute spiral spring 6 simultaneously and constitutes revolution mechanic with machining center main part 1, is favorable to second grid 5 to carry out unloading work to the part of processing.

The half gear 13 and the main shaft 8 form a linkage structure through the belt pulley 12, the half gear 13 is in an incomplete tooth angle shape, the half gear 13 is in meshed connection with the reduction gear 14, and meanwhile, the diameter of the half gear 13 is larger than that of the reduction gear 14, so that when the half gear 13 rotates to the state that a part with a tooth angle is in contact with the reduction gear 14, the reduction gear 14 can be driven to rotate.

Storage bucket 15 constitutes linkage through pulling force rope 16 and clearance brush 17, and clearance brush 17 passes through expanding spring 18 and constitutes extending structure with machining center main part 1 to the bottom brush of clearance brush 17 laminates with 2 surfaces of workstation each other, is favorable to clearance brush 17 to carry out automatic cleaning work to workstation 2.

The working principle is as follows: according to the drawings 1-5, firstly, a worker needs to place the machining center main body 1 at a proper position, then an external power supply is connected, then machining parts are placed on the surfaces of the first grating 4 and the second grating 5, so that the clamping plate 3 can clamp the parts, when the device works, more chips are generated, the chips fall to the bottom of the workbench 2 through the first grating 4 and the second grating 5 to be collected, after machining is finished, the motor 7 can be opened, the motor 7 drives the supporting plate 9 to rotate through the main shaft 8, so that the supporting plate 9 drives the push block 10 to rotate, when the push block 10 is contacted with the bottom of the push rod 11, the push block 10 can push the push rod 11, so that the push rod 11 pushes the second grating 5, the second grating 5 can conveniently rotate by taking the scroll spring 6 as the center, and the second grating 5 is inclined, when the push block 10 is not contacted with the bottom of the ejector rod 11, the second grating 5 can reset under the elastic action of the volute spiral spring 6, and the next blanking work of the second grating 5 is facilitated;

according to the figures 1 and 6, when the scraps at the bottom of the workbench 2 need to be cleaned, the main shaft 8 drives the half gear 13 to rotate through the belt pulley 12, when the half gear 13 rotates to a part with a tooth angle, the half gear 13 drives the storage barrel 15 to rotate through the reduction gear 14, the storage barrel 15 is favorable for pulling the cleaning brush 17 through the pull rope 16, the cleaning brush 17 is convenient for stretching the expansion spring 18, when the half gear 13 rotates to a part without the tooth angle, the cleaning brush 17 is favorable for resetting under the elastic action of the expansion spring 18, the cleaning brush 17 is favorable for reciprocating at the bottom of the workbench 2, the cleaning brush 17 is convenient for sweeping the scraps at the bottom of the workbench 2 into the waste discharge port 19, the automatic cleaning of the machining center main body 1 is favorable, the practicability of the device is improved, and the whole working process is completed, and those not described in detail in this specification are well within the skill of those in the art.

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 invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides an efficient double-end aluminum alloy machining center, includes machining center main part (1), first grid (4), main shaft (8) and containing bucket (15), its characterized in that: the machining center comprises a machining center main body (1), a workbench (2) is arranged at the top of the machining center main body (1), clamping plates (3) are arranged on the left side and the right side of the workbench (2), a first grid (4) is installed at the top of the workbench (2), a second grid (5) is arranged in the middle of the first grid (4), one side of the second grid (5) is in contact with the machining center main body (1) through a volute spiral spring (6), a motor (7) is installed inside the machining center main body (1), the top of the motor (7) is connected with a main shaft (8), a supporting plate (9) is installed on the main shaft (8), a push block (10) is arranged on the supporting plate (9), the surface of the supporting plate (9) is in contact with a push rod (11), the top of the push rod (11) penetrates through the workbench (2) to be in contact with the second grid (5), the outer surface of the main shaft (8) is connected with a half gear (13) through a belt pulley (12), and one side of the half gear (13) is contacted with the reduction gear (14), the reduction gear (14) is welded and fixed with the storage barrel (15), one side of the storage barrel (15) is connected with the cleaning brush (17) through the tension rope (16), one side of the cleaning brush (17) is connected with the machining center main body (1) through the telescopic spring (18), and the bottom of the cleaning brush (17) is provided with a waste discharge port (19).

2. The high efficiency double-ended aluminum alloy machining center of claim 1, wherein: workstation (2) look sideways at and are the trapezoidal form, and workstation (2) link up each other with waste discharge (19) to waste discharge (19) symmetric distribution is in the both sides of workstation (2), and workstation (2) and first grid (4) block each other simultaneously.

3. The high efficiency double-ended aluminum alloy machining center of claim 1, wherein: the spindle (8) and the supporting plate (9) are of an integrated structure, the supporting plate (9) is symmetrically provided with the push blocks (10), the push blocks (10) are arc-shaped in a overlooking mode, and meanwhile two sides of each push block (10) are obliquely arranged.

4. The high efficiency double-ended aluminum alloy machining center of claim 1, wherein: the bottom of layer board (9) and ejector pin (11) is laminated each other, and ejector pin (11) and workstation (2) are sliding connection to the top and the second grid (5) of ejector pin (11) are laminated each other, and second grid (5) constitute revolution mechanic through volute spiral spring (6) and machining center main part (1) simultaneously.

5. The high efficiency double-ended aluminum alloy machining center of claim 1, wherein: the half gear (13) and the main shaft (8) form a linkage structure through the belt pulley (12), the half gear (13) is in an incomplete tooth angle shape, the half gear (13) is in meshed connection with the reduction gear (14), and meanwhile the diameter of the half gear (13) is larger than that of the reduction gear (14).

6. The high efficiency double-ended aluminum alloy machining center of claim 1, wherein: storage barrel (15) constitute linkage structure through pulling force rope (16) and cleaning brush (17), and cleaning brush (17) constitute extending structure through expanding spring (18) and machining center main part (1) to the bottom brush of cleaning brush (17) is laminated with workstation (2) surface each other.

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