CN216461781U - Numerical control lathe that observation window was prevented sheltering from - Google Patents

Abstract

The utility model discloses a numerical control lathe that shelters from is prevented to observation window relates to numerical control lathe technical field, including the lathe bed, the outside front surface mounting of lathe bed has the door plant that can the horizontal slip, and the scarf joint has the observation window on the door plant, and the inside front end of lathe bed is provided with the roller frame that can reciprocate, and the top surface welding of roller frame inboard has the spray pipe, and the bottom of roller frame inboard is rotated and is connected with the cleaning roller that is used for clean observation window. Through the inside setting at the lathe bed can reciprocate the roller frame, move down the in-process at the roller frame, pivoted cleaning roller utilizes the brush silk can be cleaned with water the back of observation window, thereby will adhere to the iron fillings brush away at the observation window back, the spray pipe can carry out the spray rinsing to the observation window again, thereby wash remaining iron fillings and cutting fluid, then in the numerical control lathe course of working, can utilize electronic mode to wash the back of observation window, thereby avoid iron fillings and cutting fluid to shelter from the observation window.

Description

Numerical control lathe that observation window was prevented sheltering from

Technical Field

The utility model relates to a numerical control lathe technical field especially relates to a numerical control lathe that observation window prevents sheltering from.

Background

The numerically controlled lathe is one of the widely used numerically controlled machine tools, and is mainly used for cutting and processing inner and outer cylindrical surfaces of shaft parts or disc parts, inner and outer conical surfaces with any taper angle, inner and outer curved surfaces of complex rotation, cylindrical threads, conical threads and the like, and can perform grooving, drilling, reaming, boring and the like.

When a workpiece is machined by the numerical control lathe, scrap iron and cutting fluid can splash onto the observation window on the door plate, so that the observation window is shielded by the scrap iron and the cutting fluid, the observation sight of workers is influenced, the current observation window is manually cleaned under the condition that the numerical control lathe is stopped, the workpiece machining efficiency is influenced, and therefore the numerical control lathe with the shielding-proof observation window is provided, and the technical problem is solved.

SUMMERY OF THE UTILITY MODEL

The utility model provides a numerical control lathe that observation window prevented sheltering from to the iron fillings and the cutting fluid that solve above-mentioned background art and propose shelter from the observation window, influence the problem of workman's observation sight.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a numerical control lathe that observation window was prevented sheltering from, includes the lathe bed, the outside front surface mounting of lathe bed has the door plant that can the horizontal slip, the scarf joint has the observation window on the door plant, the inside front end of lathe bed is provided with the roller frame that can reciprocate, the top surface welding of roller frame inboard has the spray pipe, the bottom of roller frame inboard is rotated and is connected with the cleaning roller that is used for clean observation window.

Furthermore, an opening is formed in the front end of the lathe bed and is located on the rear side of the door plate.

Furthermore, the roller frame is positioned at the rear side of the opening, brush wires are embedded in the outer circumferential surface of the cleaning roller, and the front ends of the brush wires penetrate through the opening and are in contact with the back surface of the observation window.

Furthermore, a plurality of water spraying ports are uniformly formed in the front surface of the water spraying pipe, and the water spraying ports face to the back surface of the observation window.

Furthermore, a plurality of sections of servo electric cylinders are embedded at the left end of the top of the lathe bed, and the bottoms of the servo electric cylinders penetrate into the inside of the lathe bed and are connected with the top of the roller frame.

Furthermore, a water tank is installed in the middle of the top of the lathe bed, a water pump is installed on the left side face of the water tank, a water pumping pipe is connected to a water inlet of the water pump in an inserting mode, and a spring pipe is connected to a water outlet of the water pump in an inserting mode.

Furthermore, the right end of the water pumping pipe penetrates through the inside of the water inlet tank, and the bottom of the spring pipe penetrates through the inside of the lathe bed and is connected with the back of the water spraying pipe in an inserting mode.

Furthermore, a motor is installed on the right side surface of the outer side of the roller frame, and a power output end of the motor penetrates through the roller frame and is connected with the right end of the cleaning roller.

Compared with the prior art, the utility model discloses the beneficial effect who realizes:

by arranging the roller frame capable of moving up and down in the bed body, the roller frame is provided with the cleaning roller capable of rotating, and a water spray pipe capable of spraying water, when the observation window needs to be cleaned, the multi-section servo electric cylinder can push the roller frame to move downwards, while the rotating cleaning roller can clean the back of the observation window by using the brush wire in the process of moving the roller frame downwards, thereby brushing away the scrap iron attached to the back of the observation window, simultaneously spraying clear water onto the observation window by the spray pipe, thus, after the observation window is cleaned by the cleaning roller, the observation window can be sprayed and washed by the water spraying pipe, so that residual scrap iron and cutting fluid are washed away, in the processing process of the numerical control lathe, the back surface of the observation window can be cleaned in an electric mode, thereby avoid iron fillings and cutting fluid to shelter from the observation window to still can not influence the machining efficiency of work piece during the washing.

Drawings

Fig. 1 is a schematic view of the whole side internal structure of the present invention.

Fig. 2 is a partially enlarged schematic view of a portion a of fig. 1 according to the present invention.

Fig. 3 is a schematic structural view of the front side of the roller frame of the present invention.

Fig. 4 is the schematic diagram of the positive external structure of the bed body of the present invention.

In FIGS. 1-4: 1-lathe bed, 101-opening, 2-door plate, 3-observation window, 4-roller frame, 5-cleaning roller, 501-brush wire, 6-water spray pipe, 601-water spray opening, 7-multi-section servo electric cylinder, 8-water tank, 9-water pump, 901-water suction pipe, 902-spring pipe and 10-motor.

Detailed Description

Please refer to fig. 1 to 4:

the utility model provides a numerical control lathe that observation window prevents sheltering from, including lathe bed 1, the door plant 2 that can the horizontal slip is installed to the front surface outside lathe bed 1, the rabbet has observation window 3 on the door plant 2, the front end inside lathe bed 1 is provided with the roller frame 4 that can reciprocate, the top surface welding of the roller frame 4 inboard has spray pipe 6, the bottom rotation of the roller frame 4 inboard is connected with the cleaning roller 5 that is used for cleaning observation window 3;

specifically, a plurality of sections of servo electric cylinders 7 are embedded at the left end of the top of the lathe bed 1, the bottoms of the servo electric cylinders 7 penetrate into the lathe bed 1 and are connected with the top of the roller frame 4, an opening 101 is formed in the front end of the lathe bed 1, the opening 101 is located on the rear side of the door plate 2, the roller frame 4 is located on the rear side of the opening 101, brush wires 501 are embedded on the outer circumferential surface of the cleaning roller 5, the front ends of the brush wires 501 penetrate through the opening 101 and are in contact with the back of the observation window 3, a motor 10 is installed on the right side surface of the outer side of the roller frame 4, and the power output end of the motor 10 penetrates into the roller frame 4 and is connected with the right end of the cleaning roller 5;

the multi-section servo electric cylinder 7 can push the roller frame 4 to move up and down, the motor 10 can drive the cleaning roller 5 to rotate, and the brush wires 501 on the cleaning roller 5 synchronously rotate, so that when the multi-section servo electric cylinder 7 pushes the roller frame 4 to move down, the rotating cleaning roller 5 can clean the back surfaces of the door plate 2 and the observation window 3 through the brush wires 501, scrap iron attached to the back surfaces of the door plate 2 and the observation window 3 is cleaned, and after the cleaning of the back surfaces of the door plate 2 and the observation window 3 is finished, the roller frame 4 moves up and returns to the topmost part of the opening 101;

according to the above, the front surface of the water spray pipe 6 is uniformly provided with a plurality of water spray ports 601, the water spray ports 601 face the back of the observation window 3, the middle part of the top of the lathe bed 1 is provided with the water tank 8, the left side surface of the water tank 8 is provided with the water pump 9, the water inlet of the water pump 9 is inserted with the water suction pipe 901, the water outlet of the water pump 9 is inserted with the spring pipe 902, the right end of the water suction pipe 901 penetrates through the inside of the water inlet tank 8, and the bottom of the spring pipe 902 penetrates through the inside of the lathe bed 1 and is inserted with the back of the water spray pipe 6;

specifically, the water tank 8 is filled with clean water, the water pump 9 can pump the clean water in the water tank 8 through the water pumping pipe 901, then the pumped clean water is discharged into the water spraying pipe 6 through the spring pipe 902, and the clean water in the water spraying pipe 6 is sprayed out through the water spraying holes 601;

therefore, when the roller frame 4 moves downwards and the cleaning roller 5 cleans the back surfaces of the door panel 2 and the observation window 3, the water spraying pipe 6 can also spray clean water to the back surfaces of the door panel 2 and the observation window 3, so that the back surfaces of the door panel 2 and the observation window 3 can be washed, the residual iron chips and cutting fluid can be washed away, and the cleaning effect is improved.

In summary, the multi-section servo electric cylinder 7, the water pump 9 and the motor 10 are all connected to a numerical control system of the numerical control lathe, so that the multi-section servo electric cylinder 7, the water pump 9 and the motor 10 can be controlled by the numerical control system of the numerical control lathe;

therefore, by arranging the roller frame 4 capable of moving up and down in the lathe bed 1, arranging the cleaning roller 5 capable of rotating and the water spraying pipe 6 capable of spraying water on the roller frame 4, when the observation window 3 needs to be cleaned, the multi-section servo electric cylinder 7 can push the roller frame 4 to move down, and in the process of moving down the roller frame 4, the rotating cleaning roller 5 can clean the back surface of the observation window 3 by using the brush wire 501, so that scrap iron attached to the back surface of the observation window 3 is brushed away, and meanwhile, the water spraying pipe 6 sprays clean water to the observation window 3, so that after the cleaning roller 5 cleans the observation window 3, the water spraying pipe 6 can spray the observation window 3, so as to wash away residual scrap iron and cutting fluid, thereby improving the cleaning effect, and therefore, in the machining process of the numerical control lathe, the back surface of the observation window 3 can be cleaned in an electric mode, thereby avoid iron fillings and cutting fluid to shelter from observation window 3 to still can not influence the machining efficiency of work piece during the washing.

Claims (8)

1. The utility model provides a numerical control lathe that observation window prevents sheltering from, includes lathe bed (1), its characterized in that:

the automatic cleaning machine is characterized in that a door plate (2) capable of sliding left and right is mounted on the front surface of the outer portion of the machine body (1), an observation window (3) is embedded in the door plate (2), a roller frame (4) capable of moving up and down is arranged at the front end of the inner portion of the machine body (1), a water spraying pipe (6) is welded on the top surface of the inner side of the roller frame (4), and a cleaning roller (5) used for cleaning the observation window (3) is rotatably connected to the bottom of the inner side of the roller frame (4).

2. The numerically controlled lathe with the view window being shielded as claimed in claim 1, wherein: an opening (101) is formed in the front end of the lathe bed (1), and the opening (101) is located on the rear side of the door panel (2).

3. The numerically controlled lathe with the view window being shielded as claimed in claim 2, wherein: the roller frame (4) is located on the rear side of the opening (101), brush wires (501) are embedded in the outer circumferential surface of the cleaning roller (5), and the front ends of the brush wires (501) penetrate through the opening (101) and are in contact with the back of the observation window (3).

4. The numerically controlled lathe with the view window being shielded as set forth in claim 3, wherein: the front surface of the water spray pipe (6) is uniformly provided with a plurality of water spray nozzles (601), and the water spray nozzles (601) face the back surface of the observation window (3).

5. The numerically controlled lathe with the view window being shielded as claimed in claim 1, wherein: the left end of the top of the lathe bed (1) is embedded with a plurality of sections of servo electric cylinders (7), and the bottoms of the servo electric cylinders (7) penetrate into the lathe bed (1) and are connected with the top of the roller frame (4).

6. The numerically controlled lathe with the view window being shielded as claimed in claim 1, wherein: the middle of the top of the lathe bed (1) is provided with a water tank (8), the left side surface of the water tank (8) is provided with a water pump (9), a water inlet of the water pump (9) is connected with a water pumping pipe (901) in an inserting mode, and a water outlet of the water pump (9) is connected with a spring pipe (902) in an inserting mode.

7. The numerically controlled lathe with the view window being shielded as set forth in claim 6, wherein: the right end of the water pumping pipe (901) penetrates through the inside of the water inlet tank (8), and the bottom of the spring pipe (902) penetrates through the inside of the lathe bed (1) and is connected with the back of the water spraying pipe (6) in an inserting mode.

8. The numerically controlled lathe with the view window being shielded as claimed in claim 1, wherein: the right side surface of the outer side of the roller frame (4) is provided with a motor (10), and the power output end of the motor (10) penetrates into the roller frame (4) and is connected with the right end of the cleaning roller (5).

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