CN220481077U - Numerical control lathe capable of automatically supplying oil - Google Patents

Abstract

The utility model discloses a numerical control lathe capable of automatically supplying oil, and relates to the technical field of numerical control lathes. This but automatic oil feeding's numerical control lathe, including digit control machine tool and wait the part of turning, install the motor on the inner wall of digit control machine tool, be connected with dwang one on the output of motor, the blowing platform is installed to the one end of dwang one, the outer wall and the outer wall connection of part of blowing platform, install bevel gear one on the outer wall of dwang one, the meshing is connected with bevel gear two on one side outer wall of bevel gear one, the outside of bevel gear two is provided with the gear, be connected with the rack on the outer wall of gear, install the conveyer pipe on the inner wall of digit control machine tool, the shower nozzle is installed to the one end of conveyer pipe, prolongs the life of lathe tool, can carry out the oil feeding automatically, and does not need extra power component, reduces the programming degree of difficulty, improves resource utilization when saving equipment cost.

Description

Numerical control lathe capable of automatically supplying oil

Technical Field

The utility model relates to the technical field of numerically controlled lathes, in particular to a numerically controlled lathe capable of automatically supplying oil.

Background

The numerical control machine tool is short for numerical control machine tool, and is an automatic machine tool with a program control system. The control system can logically process and decode programs specified by control codes or other symbol instructions, and input the programs into the numerical control device through an information carrier, and the conventional numerical control lathe usually sprays cutting oil through an independent power system in the use process, and needs to be matched with a power system for driving a turning tool, so that the programming is troublesome, the equipment cost is increased, and the numerical control lathe capable of automatically supplying oil is provided.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model provides the numerical control lathe capable of automatically supplying oil, and solves the problems that the prior numerical control lathe is usually used for spraying cutting oil through an independent power system, needs to be matched with the power system for driving a turning tool, is troublesome to program and increases the equipment cost.

In order to achieve the above purpose, the utility model is realized by the following technical scheme: the utility model provides a but automatic oil feeding's numerical control lathe, includes the digit control machine tool and waits the part of turning, install the motor on the inner wall of digit control machine tool, be connected with dwang one on the output of motor, the blowing platform is installed to the one end of dwang one, the outer wall and the outer wall connection of part of blowing platform, install bevel gear one on the outer wall of dwang one, the meshing is connected with bevel gear two on one side outer wall of bevel gear one, the outside of bevel gear two is provided with the gear, be connected with the rack on the outer wall of gear, install the conveyer pipe on the inner wall of digit control machine tool, the shower nozzle is installed to the one end of conveyer pipe.

Preferably, the clamping plate is arranged on the inner wall of the discharging table, one end of the clamping plate penetrates through the discharging table, the double-headed screw is arranged on the inner wall of the clamping plate, and the outer wall of the double-headed screw is connected with the inner wall of the discharging table.

Preferably, one end of the double-end screw rod sequentially penetrates through the discharging table and the clamping plate, threads on two sides of the double-end screw rod are oppositely arranged, a handle is installed at one end of the double-end screw rod, and an inserting hole is formed in the outer wall of the handle.

Preferably, the inner wall of the jack is connected with a bolt, one side outer wall of the bolt is arranged on the inner wall of the discharging table, one side outer wall of the bolt is provided with a first spring, and the other end of the first spring is arranged on the inner wall of the discharging table.

Preferably, a second rotating rod is installed on the outer wall of one side of the second bevel gear, the outer wall of the second rotating rod is installed on the inner wall of the numerical control machine, one end of the second rotating rod penetrates through the numerical control machine, and one end of the second rotating rod is installed on the outer wall of one side of the gear.

Preferably, a positioning rod is arranged on the inner wall of the rack, one end of the positioning rod is arranged on the outer wall of the numerical control machine tool, one end of the positioning rod penetrates through the rack, and a second spring is arranged on the outer wall of one side of the positioning rod.

Preferably, the other end of the second spring is arranged on the inner wall of the rack, the outer wall of the rack is connected with an oil storage barrel through a sealing ring, the outer wall of the oil storage barrel is arranged on the outer wall of the numerical control machine tool, a piston is arranged at one end of the rack, and the outer wall of the piston is connected with the inner wall of the oil storage barrel.

Preferably, the main body movable door is arranged on the inner wall of the numerical control machine tool, the cylinder assemblies are arranged on the main body movable door and the outer wall of the numerical control machine tool, the peripheral sliding door assembly is arranged on the outer wall of the numerical control machine tool, and the oil receiving groove is arranged below the peripheral sliding door assembly.

The utility model provides a numerical control lathe capable of automatically supplying oil. Compared with the prior art, the method has the following beneficial effects:

(1) This but automatic oil feed's numerical control lathe through setting up digit control machine tool, main part floating gate, cylinder subassembly, peripheral push-and-pull door subassembly, oil receiving groove, part, motor, dwang one, the blowing platform, splint, double-end screw rod, the handle, the bolt, spring one, through placing the part of waiting the turning on the blowing bench, carry out the centre gripping to the part through two sets of splint, avoid carrying out the in-process of turning to the part, the centre gripping to the part appears not hard up, make the main part floating gate can the numerical control open and close through the cylinder subassembly, make peripheral push-and-pull door can the numerical control locking or unblock through peripheral push-and-pull door subassembly, collect the lubricating oil of overabundance through the oil receiving groove, and is simple convenient, easy operation.

(2) This but automatic oil feeding's numerical control lathe through setting up bevel gear one, bevel gear two, dwang two, the gear, the rack, the locating lever, spring two, the piston, the oil storage bucket, when dwang one is driven the part rotation, can drive the piston and remove, make the piston will store the cutting oil in the oil storage bucket to the shower nozzle department through the conveyer pipe, and spout the place of part and lathe tool contact from the shower nozzle department, lubricate its position, thereby guarantee the normal operation of lathe, the life of extension lathe tool, can carry out the oil supply voluntarily, and need not extra power component, the programming degree of difficulty is reduced, improve resource utilization in the time of saving equipment cost, it is more energy-concerving and environment-protective.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a side elevational view of the motor of the present utility model;

FIG. 3 is an internal structural view of the rack of the present utility model;

fig. 4 is an enlarged view of the present utility model a.

In the figure: 1. a numerical control machine tool; 2. a main body moving door; 3. a cylinder assembly; 4. a peripheral sliding door assembly; 5. an oil receiving groove; 6. a part; 7. a motor; 8. rotating the first rod; 9. a discharging table; 10. a clamping plate; 11. a double-ended screw; 12. a grip; 13. a plug pin; 14. a first spring; 15. a first bevel gear; 16. a second bevel gear; 17. a second rotating rod; 18. a gear; 19. a rack; 20. a positioning rod; 21. a second spring; 22. a piston; 23. and an oil storage barrel.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-2 and fig. 4, the present utility model provides a technical solution: the utility model provides an automatic oiling numerical control lathe, including digit control machine tool 1 and wait part 6 of turning, sliding mounting a main part dodge gate 2 on the inner wall of digit control machine tool 1, part of cylinder subassembly 3 is fixed mounting respectively on main part dodge gate 2, digit control machine tool 1's outer wall, cylinder subassembly 3 includes main part dodge gate inductive switch, the cylinder support, the cylinder, peripheral push-and-pull door subassembly 4 of fixed mounting on digit control machine tool 1's the outer wall, peripheral push-and-pull door subassembly 4 includes peripheral door frame, peripheral push-and-pull door, the metal guide pulley, go up spacing gyro wheel, peripheral door inductive switch, be provided with the oil receiving groove 5 in the below of peripheral push-and-pull door subassembly 4, one side outer wall fixed mounting of oil receiving groove 5 is on digit control machine tool 1's outer wall, digit control machine tool 1's inner wall and motor 7's outer wall fixed connection, motor 7's output and dwang one 8's one end pass through the shaft coupling fixed connection, the outer wall of the rotating rod I8 is movably arranged on the inner wall of the numerical control machine tool 1 through a bearing, one end of the rotating rod I8 is fixedly arranged on the outer wall of the discharging table 9, the outer wall of the discharging table 9 is in sliding connection with the outer wall of the part 6, the inner wall of the discharging table 9 is in sliding connection with the outer wall of the clamping plate 10, one end of the clamping plate 10 penetrates through the outer wall of the discharging table 9 to extend into the inner part of the discharging table 9, the inner wall of the clamping plate 10 is in threaded connection with the outer wall of the double-end screw 11, the outer wall of the double-end screw 11 is movably connected with the inner wall of the discharging table 9 through the bearing, one end of the double-end screw 11 sequentially penetrates through the outer wall of the discharging table 9 and the outer wall of the clamping plate 10 to extend into the inner part of the discharging table 9, threads on two sides of the double-end screw 11 are oppositely arranged, a handle 12 is fixedly arranged on one end of the double-end screw 11, a jack is arranged on the outer wall of the handle 12, the inner wall of the jack is in sliding connection with the outer wall of the bolt 13, the outer wall of one side of the bolt 13 is slidably arranged on the inner wall of the discharging table 9, the outer wall of one side of the bolt 13 is fixedly connected with one end of the first spring 14, and the other end of the first spring 14 is fixedly arranged on the inner wall of the discharging table 9.

When the automatic turning device is used, a part 6 to be turned is placed on the discharging table 9, then the plug pin 13 is moved away from the holding table 12, the holding table 12 is rotated to drive the double-ended screw 11 to rotate, the two groups of clamping plates 10 clamp the part 6 through sliding fit between the clamping plates 10 and the discharging table 9, then the plug pin 13 is loosened, the plug pin 13 is enabled to be ejected from the discharging table 9 to be clamped into the holding table 12 under the action of the first spring 14, the holding table 12 is fixed, loosening of the clamping of the part 6 is avoided in the process of turning the part 6, the first rotating rod 8 is driven to rotate by starting the motor 7, the discharging table 9 is driven to rotate by the first rotating rod 8, the part 6 is driven to rotate, the part 6 is processed by controlling the position of the turning tool, the main body moving door 2 can be opened and closed in a numerical control mode through the cylinder assembly 3, the peripheral sliding door assembly 4 can be locked or unlocked in a numerical control mode, the peripheral sliding door can not be opened during the operation of the machine tool, the safety of the operation is improved, and excessive lubricating oil is collected by the oil receiving groove 5.

As shown in fig. 1 to 4, the technical solution of the present embodiment different from the first embodiment includes: the outer wall of the rotating rod I8 is fixedly connected with the inner wall of the bevel gear I15, the bevel gear I15 is meshed with the bevel gear II 16, one side outer wall of the bevel gear II 16 is fixedly arranged at one end of the rotating rod II 17, the outer wall of the rotating rod II 17 is movably arranged on the inner wall of the numerically-controlled machine tool 1 through a bearing, one end of the rotating rod II 17 penetrates through the inner wall of the numerically-controlled machine tool 1 to the outside of the numerically-controlled machine tool 1, one end of the rotating rod II 17 is fixedly arranged on one side outer wall of the gear 18, the gear 18 is meshed with the rack 19, a conveying pipe is fixedly arranged on the inner wall of the numerically-controlled machine tool 1, one end of the conveying pipe is fixedly provided with a spray head, the spray head faces to the part 6 which is contacted with a turning tool, the inner wall of the rack 19 is in sliding connection with the outer wall of the positioning rod 20, one end of the positioning rod 20 is fixedly arranged on the outer wall of the numerically-controlled machine tool 1, one end of the positioning rod 20 penetrates through the inner wall of the rack 19, one side outer wall of the positioning rod 20 is fixedly connected with one end of the spring II 21, the other end of the spring II 21 is fixedly arranged on the inner wall of the rack 19, the outer wall of the rack 19 is slidably arranged on the inner wall of the part of the rack 23 through a sealing ring, the inner wall 23 is fixedly arranged on the inner wall of the cylinder 23, and the piston 22 is fixedly arranged on the outer wall of the piston 22.

When the numerical control machine tool is used, when the rotating rod I8 drives the part 6 to rotate, the rotating rod I8 drives the bevel gear I15 to rotate, the bevel gear I15 drives the bevel gear II 16 to rotate, the bevel gear II 16 drives the rotating rod II 17 to rotate, the rotating rod II 17 drives the gear 18 to rotate, the gear 18 drives the rack 19 to move, the positioning rod 20 and the rack 19 are in sliding fit and limit the rack 19, the rack 19 can only move linearly under the action of external force, the rack 19 drives the piston 22 to move, the piston 22 sends cutting oil in the oil storage barrel 23 to a spray head through a conveying pipe and is sprayed to a place where the part 6 contacts a turning tool from the spray head, when the gear 18 and the rack 19 are in a non-meshing state, the rack 19 drives the piston 22 to reset to the position shown in fig. 2 under the action of the spring II 21, the cutting oil in the oil storage barrel 23 can enter the oil storage barrel 23 to lubricate the position, and the normal operation of the numerical control machine tool 1 is ensured.

And all that is not described in detail in this specification is well known to those skilled in the art.

It is noted that relational terms such as first and second, and the like are 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. Moreover, 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.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein 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 (8)

1. The utility model provides a but automatic oiling's numerical control lathe, includes digit control machine tool (1) and waits part (6) of turning, its characterized in that: install motor (7) on the inner wall of digit control machine tool (1), be connected with dwang one (8) on the output of motor (7), blowing platform (9) are installed to the one end of dwang one (8), the outer wall of blowing platform (9) is connected with the outer wall of part (6), install bevel gear one (15) on the outer wall of dwang one (8), meshing is connected with bevel gear two (16) on the outer wall of one side of bevel gear one (15), the outside of bevel gear two (16) is provided with gear (18), be connected with rack (19) on the outer wall of gear (18), install the conveyer pipe on the inner wall of digit control machine tool (1), the shower nozzle is installed to the one end of conveyer pipe.

2. The automatic oil supply numerically controlled lathe as in claim 1, wherein: install splint (10) on the inner wall of blowing platform (9), the one end of splint (10) runs through blowing platform (9) and sets up, install double-end screw rod (11) on the inner wall of splint (10), the outer wall of double-end screw rod (11) is connected with the inner wall of blowing platform (9).

3. The automatic oil supply numerically controlled lathe as in claim 2, wherein: one end of the double-end screw rod (11) sequentially penetrates through the discharging table (9) and the clamping plate (10), threads on two sides of the double-end screw rod (11) are oppositely arranged, a handle (12) is installed at one end of the double-end screw rod (11), and an inserting hole is formed in the outer wall of the handle (12).

4. A numerically controlled lathe capable of automatically supplying oil according to claim 3, wherein: the inner wall of the jack is connected with a plug pin (13), one side outer wall of the plug pin (13) is installed on the inner wall of the discharging table (9), one side outer wall of the plug pin (13) is provided with a first spring (14), and the other end of the first spring (14) is installed on the inner wall of the discharging table (9).

5. The automatic oil supply numerically controlled lathe as in claim 1, wherein: a second rotating rod (17) is arranged on the outer wall of one side of the second bevel gear (16), the outer wall of the second rotating rod (17) is arranged on the inner wall of the numerical control machine tool (1), one end of the second rotating rod (17) penetrates through the numerical control machine tool (1) and the other end of the second rotating rod (17) is arranged on the outer wall of one side of the gear (18).

6. The automatic oil supply numerically controlled lathe as in claim 1, wherein: install locating lever (20) on the inner wall of rack (19), the one end of locating lever (20) is installed on the outer wall of digit control machine tool (1), the one end of locating lever (20) runs through rack (19) setting, install spring two (21) on the outer wall of one side of locating lever (20).

7. The automatic oil supply numerically controlled lathe as in claim 6, wherein: the other end of the second spring (21) is arranged on the inner wall of the rack (19), an oil storage barrel (23) is connected to the outer wall of the rack (19) through a sealing ring, the outer wall of the oil storage barrel (23) is arranged on the outer wall of the numerical control machine tool (1), a piston (22) is arranged at one end of the rack (19), and the outer wall of the piston (22) is connected with the inner wall of the oil storage barrel (23).

8. The automatic oil supply numerically controlled lathe as in claim 1, wherein: the automatic oil receiving device is characterized in that a main body moving door (2) is arranged on the inner wall of the numerical control machine tool (1), air cylinder assemblies (3) are arranged on the outer walls of the main body moving door (2) and the numerical control machine tool (1), a peripheral sliding door assembly (4) is arranged on the outer wall of the numerical control machine tool (1), and an oil receiving groove (5) is arranged below the peripheral sliding door assembly (4).