CN218225749U - Lathe cutting and slag discharging assembly - Google Patents

Abstract

The utility model discloses a lathe cutting and slag discharging component, belonging to the technical field of lathe processing; comprises a turning device and a slag discharging device; the turning device comprises a base, a machine body, a three-jaw chuck and a slide rail; the machine body is fixedly connected with the machine base; the two slide rails are respectively positioned at two sides of the three-jaw chuck and fixedly connected with the base; the slag discharging device comprises a slag discharging sliding block, an operating block, a sliding rail, a moving block, a sliding chute, a slag discharging brush, a slag discharging box and a box groove; the slag discharge sliding block is connected with the sliding rail in a sliding way; the two operation blocks are respectively arranged at two ends of the slag discharging sliding block and are fixedly connected with the slag discharging sliding block; a sliding groove is arranged in the operating block, and the moving block is arranged in a sliding manner with the sliding groove; the slag discharge brush is fixedly connected with the moving block; a box groove is formed in the side wall of the machine body, and the slag discharging box is arranged in a sliding manner with the box groove; arrange the sediment slider through the setting, pile up the clearance fast to the sediment brush is arranged in the setting, sweeps remaining smear metal into and arranges the sediment box, can solve artifical cleaning efficiency low, and has the problem of potential safety hazard.

Description

Lathe cutting and slag discharging assembly

Technical Field

The utility model provides a sediment subassembly is arranged to lathe smear metal belongs to lathe processing technology field.

Background

In the process of machining and producing parts by using lathe equipment, a lot of cuttings are generated, and the machining and producing are seriously influenced by the untimely cleaning of the cuttings; the existing lathe equipment can be arranged at the bottom of a lathe and is provided with a slag discharging box, the cutting scraps generated during machining can directly fall into the slag discharging box, then all the cutting scraps can not fall into the slag discharging box due to the existence of the slide rail, a small amount of cutting scraps can fall onto the slide rail, and if the cutting scraps cannot be cleared up in time, the small cutting scraps on the slide rail can enter the gap between other parts of the lathe and the slide rail, so that the normal work is influenced.

The existing technology for cleaning the chips on the slide rail is that an operator uses a brush to sweep the chips on the slide rail, the efficiency is low, and when the chips near a chuck are cleaned, the hand of the operator needs to be close to the chuck working at work, so that an accident is easily caused, and therefore an assembly capable of quickly cleaning the chips on the slide rail is needed, and potential safety hazards cannot exist.

SUMMERY OF THE UTILITY MODEL

The utility model provides a pair of sediment subassembly is arranged to lathe smear metal, simple structure arranges the sediment slider through setting up, piles up the clearance fast to set up and arrange the sediment brush, sweep remaining smear metal into and arrange the sediment box, can solve artifical cleaning efficiency low, and have the problem of potential safety hazard.

The utility model discloses a solve above-mentioned problem, the technical scheme who proposes is: a lathe cutting and slag discharging assembly comprises a turning device and a slag discharging device; the turning device comprises a base, a machine body, a turning tool rest, a tool rest sliding block, a three-jaw chuck and a sliding rail; the machine body is arranged on one side of the machine base and is fixedly connected with the machine base; the three-jaw chuck is arranged on the side wall of the machine base and fixedly connected with the machine base, and the three-jaw chuck is positioned in the machine body; the two sliding rails are respectively positioned at two sides of the three-jaw chuck and fixedly connected with the base; the tool rest sliding block is arranged on the sliding rail and is connected with the sliding rail in a sliding manner; the turning tool rest is arranged on the tool rest sliding block and is arranged with the tool rest sliding block in a sliding manner; the slag discharging device comprises a slag discharging sliding block, an operating block, a push-pull handle, a connecting column, a moving block, a through hole, a sliding chute, a slag discharging brush, a slag discharging box and a box groove; the slag discharging sliding block is arranged on the sliding rail, is perpendicular to the sliding rail and is connected with the sliding rail in a sliding manner; the two operating blocks are respectively arranged at two ends of the slag discharging sliding block, the operating blocks are fixedly connected with the slag discharging sliding block, and the two operating blocks are respectively positioned at the outer sides of the two sliding rails; a sliding groove is formed in the operating block, the moving block is located in the sliding groove, and the moving block and the sliding groove are arranged in a sliding mode; the sliding chute is downwards provided with a through hole, the slag discharging hairbrush is positioned in the through hole, and the slag discharging hairbrush is fixedly connected with the moving block; the connecting column is arranged in parallel with the slag discharging slide block and is fixedly connected with the moving block; the push-pull handle is arranged at the end part of the connecting column and is fixedly connected with the connecting column; a box groove is formed in the side wall of the machine body, the slag discharging box is positioned in the box groove, and the slag discharging box and the box groove are arranged in a sliding mode;

the length of the connecting column is greater than the maximum distance from the operating block to the sliding rail;

the deslagging box is a cover-free box body and is made of alloy steel;

the bottom of the slag discharge brush is in contact with the slide rail;

the slag discharge sliding block is tightly attached to the sliding rail without a gap;

a gap is formed between the moving block and the sliding groove.

The utility model has the advantages that:

the slag discharging sliding block is arranged on the sliding rail and is in sliding connection with the sliding rail, the slag discharging sliding block can quickly accumulate and gather the chips on the sliding rail when sliding on the sliding rail, and meanwhile, some chips are pushed down by the slag discharging sliding block and fall into the slag discharging box; the slag discharging box is made of alloy steel, has strong wear resistance and impact resistance, and is not easy to damage; the slag discharging sliding block is tightly attached to the sliding rail and is arranged without a gap, so that small chips cannot enter a gap between the slag discharging sliding block and the sliding rail to influence normal work; two operation pieces are respectively fixed connection in arranging sediment slider both ends, and two operation pieces are located two slide rail outsides respectively, and operating personnel direct operation piece can, kept away from the three-jaw chuck, eliminated the potential safety hazard.

The moving block is arranged with the sliding groove in a sliding mode, a slag discharging brush is fixedly connected to the lower portion of the moving block, the moving block can drive the slag discharging brush to move in the direction perpendicular to the sliding rail, and chips stacked after the slag discharging sliding block slides are quickly swept into the slag discharging box.

To sum up, the utility model discloses can solve artifical cleaning efficiency low, and have the problem of potential safety hazard.

Drawings

Fig. 1 is a top view of the lathe cutting and slag discharging assembly of the present invention.

Fig. 2 is a front view of the cutting and residue discharging assembly of the lathe of the present invention.

Fig. 3 is a partial sectional view of the cutting and residue discharging assembly of the lathe of the present invention.

Fig. 4 is an internal schematic view of an operation block of the lathe cutting and residue discharging assembly of the present invention.

1. A machine base; 2. a body; 3. turning a tool rest; 4. a tool rest slide block; 5. a three-jaw chuck; 6. a slag discharge sliding block; 7. an operation block; 8. a slide rail; 9. a push-pull handle; 10. connecting columns; 11. a moving block; 12. a through hole; 13. a chute; 14. a slag discharging brush; 15. a slag discharging box; 16. a box groove.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings.

According to the illustrations of FIGS. 1-4: the utility model provides a sediment subassembly is arranged to lathe smear metal: comprises a turning device and a slag discharging device; the turning device comprises a base 1, a machine body 2, a turning tool rest 3, a tool rest slide block 4, a three-jaw chuck 5 and a slide rail 8; the machine body 2 is arranged on one side of the machine base 1 and is fixedly connected with the machine base 1; the three-jaw chuck 5 is arranged on the side wall of the machine base 1, the three-jaw chuck 5 is fixedly connected with the machine base 1, and the three-jaw chuck 5 is positioned in the machine body 2; the two slide rails 8 are respectively positioned at two sides of the three-jaw chuck 5, and the slide rails 8 are fixedly connected with the machine base 1; the tool rest sliding block 4 is arranged on the sliding rail 8 and is in sliding connection with the sliding rail 8; the turning tool rest 3 is arranged on the tool rest sliding block 4, and the turning tool rest 3 and the tool rest sliding block 4 are arranged in a sliding mode; the slag discharging device comprises a slag discharging sliding block 6, an operating block 7, a push-pull handle 9, a connecting column 10, a moving block 11, a through hole 12, a sliding groove 13, a slag discharging brush 14, a slag discharging box 15 and a box groove 16; the slag discharging slide block 6 is arranged on the slide rail 8, the slag discharging slide block 6 is vertical to the slide rail 8, and the slag discharging slide block 6 is connected with the slide rail 8 in a sliding manner; the two operation blocks 7 are respectively arranged at two ends of the slag discharge sliding block 6, the operation blocks 7 are fixedly connected with the slag discharge sliding block 6, and the two operation blocks 7 are respectively positioned at the outer sides of the two slide rails 8; a sliding groove 13 is arranged in the operating block 7, the moving block 11 is positioned in the sliding groove 13, and the moving block 11 and the sliding groove 13 are arranged in a sliding manner; the chute 13 is provided with a through hole 12 downwards, the slag-discharging brush 14 is positioned in the through hole 12, and the slag-discharging brush 14 is fixedly connected with the moving block 11; the connecting column 10 is arranged in parallel with the slag discharge sliding block 6, and the connecting column 10 is fixedly connected with the moving block 11; the push-pull handle 9 is arranged at the end part of the connecting column 10, and the push-pull handle 9 is fixedly connected with the connecting column 10; a box groove 16 is formed in the side wall of the machine body 2, the slag discharging box 15 is located in the box groove 16, and the slag discharging box 15 and the box groove 16 are arranged in a sliding mode; the length of the connecting column 10 is larger than the maximum distance from the operating block 7 to the slide rail 8; the slag discharging box 15 is a cover-free box body, and the slag discharging box 15 is made of alloy steel; the bottom of the deslagging brush 14 is contacted with the slide rail 8; the slag discharge sliding block 6 is tightly attached to the sliding rail 8 without a gap; the moving block 11 and the sliding groove 13 are provided with a gap.

The principle of the utility model

In an initial state, the slag discharge sliding block 6 is positioned right below the three-jaw chuck 5, the tool rest sliding block 4 and the turning tool rest 3 normally slide on the sliding rail 8, and a part clamped by the three-jaw chuck 5 is subjected to cutting machining; during the cutting process, most of the chips directly fall into the slag discharging box 15, but a small part of the chips still remain on the slide rail 8; at this time, the operation block 7 is moved to enable the slag discharging sliding block 6 to slide towards a position far away from the three-jaw chuck 5, the slag discharging sliding block 6 pushes the cutting scraps on the sliding rail 8 to move in the sliding process, a part of the cutting scraps fall into the slag discharging box 15 in the pushing process, and a part of the cutting scraps remain at the position where the slag discharging sliding block 6 stays, at this time, the push-pull handle 9 is moved to enable the moving block 11 to slide in the sliding groove 13, so that the slag discharging brush 14 is driven to move in the direction vertical to the sliding rail 8, and the remaining cutting scraps are pushed to fall.

The present invention and the embodiments thereof have been described above, but the description is not limited thereto, and the embodiment shown in the drawings is only one of the embodiments of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should understand that they should not be limited to the embodiments described above, and that they can design the similar structure and embodiments without departing from the spirit of the invention.

Claims (6)

1. A lathe cutting and deslagging assembly is characterized in that: comprises a turning device and a slag discharge device; the turning device comprises a base (1), a machine body (2), a turning tool rest (3), a tool rest sliding block (4), a three-jaw chuck (5) and a sliding rail (8); the machine body (2) is arranged on one side of the machine base (1) and is fixedly connected with the machine base (1); the three-jaw chuck (5) is arranged on the side wall of the machine base (1), the three-jaw chuck (5) is fixedly connected with the machine base (1), and the three-jaw chuck (5) is positioned in the machine body (2); the two sliding rails (8) are respectively positioned at two sides of the three-jaw chuck (5), and the sliding rails (8) are fixedly connected with the machine base (1); the tool rest sliding block (4) is arranged on the sliding rail (8) and is connected with the sliding rail (8) in a sliding manner; the turning tool rest (3) is arranged on the tool rest sliding block (4), and the turning tool rest (3) and the tool rest sliding block (4) are arranged in a sliding manner; the slag discharging device comprises a slag discharging sliding block (6), an operating block (7), a push-pull handle (9), a connecting column (10), a moving block (11), a through hole (12), a sliding groove (13), a slag discharging brush (14), a slag discharging box (15) and a box groove (16); the slag discharging sliding block (6) is arranged on the sliding rail (8), the slag discharging sliding block (6) is perpendicular to the sliding rail (8), and the slag discharging sliding block (6) is connected with the sliding rail (8) in a sliding manner; the two operation blocks (7) are respectively arranged at two ends of the slag discharging sliding block (6), the operation blocks (7) are fixedly connected with the slag discharging sliding block (6), and the two operation blocks (7) are respectively positioned at the outer sides of the two sliding rails (8); a sliding groove (13) is formed in the operating block (7), the moving block (11) is located in the sliding groove (13), and the moving block (11) and the sliding groove (13) are arranged in a sliding mode; the chute (13) is provided with a through hole (12) downwards, the slag-discharging brush (14) is positioned in the through hole (12), and the slag-discharging brush (14) is fixedly connected with the moving block (11); the connecting column (10) is arranged in parallel with the slag discharge sliding block (6), and the connecting column (10) is fixedly connected with the moving block (11); the push-pull handle (9) is arranged at the end part of the connecting column (10), and the push-pull handle (9) is fixedly connected with the connecting column (10); a box groove (16) is formed in the side wall of the machine body (2), the slag discharging box (15) is located in the box groove (16), and the slag discharging box (15) and the box groove (16) are arranged in a sliding mode.

2. The lathe chip evacuation assembly of claim 1, wherein: the length of the connecting column (10) is larger than the maximum distance from the operating block (7) to the sliding rail (8).

3. The lathe swarf residue removal assembly of claim 1, wherein: the deslagging box (15) is a cover-free box body, and the deslagging box (15) is made of alloy steel.

4. The lathe chip evacuation assembly of claim 1, wherein: the bottom of the slag discharge brush (14) is in contact with the slide rail (8).

5. The lathe swarf residue removal assembly of claim 1, wherein: the slag discharging sliding block (6) is tightly attached to the sliding rail (8) without clearance.

6. The lathe swarf residue removal assembly of claim 1, wherein: a gap is arranged between the moving block (11) and the sliding groove (13).

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