CN220943199U

CN220943199U - Small movable numerical control lathe

Info

Publication number: CN220943199U
Application number: CN202322615112.5U
Authority: CN
Inventors: 韩胜利; 田雪猛
Original assignee: Suzhou Maxsin Machine Tool Co ltd
Current assignee: Suzhou Maxsin Machine Tool Co ltd
Priority date: 2023-09-26
Filing date: 2023-09-26
Publication date: 2024-05-14
Anticipated expiration: 2033-09-26

Abstract

The utility model relates to the field of numerical control machine tools and discloses a small movable numerical control lathe, which comprises a machining seat, wherein a machining plate is arranged at the top of the machining seat, a supporting frame is arranged on one side of the machining plate, a movable frame is arranged at the top of the supporting frame, a lifter is arranged on one side of the movable frame, a machining device is arranged on one side of the lifter far away from the movable frame, a machining head is arranged at the bottom of the machining device, a control screen is arranged at one end of the machining seat, a pushing handle is arranged at the upper end of the control screen, a movable base is arranged at the bottom of the machining seat, the movable base is arranged in a trapezoid shape, a motor is arranged on one side of the movable base, a lifting structure is arranged in the movable base, wheels are arranged at two ends of the bottom of the movable base, and the movable base can move by changing the height of the wheels through the lifting structure.

Description

Small movable numerical control lathe

Technical Field

The utility model relates to the field of numerical control machine tools, in particular to a small movable numerical control lathe.

Background

The numerical control machine tool is a short name of a numerical control machine tool (Computer numerical control machine tools), and is an automatic machine tool provided with a program control system. The control system can logically process and decode programs specified by control codes or other symbol instructions, and the programs are represented by coded numbers, and the numerical control machine tool well solves the problems of complex, precise, small batch and multi-variety part processing by inputting the information carrier into a numerical control device, is a flexible and high-efficiency automatic machine tool, represents the development direction of the modern machine tool control technology, and is a typical electromechanical integrated product.

The existing numerical control lathe is heavy in general quality, the position of the existing numerical control lathe cannot be easily moved, a larger crane is needed when the existing numerical control lathe needs to be moved, but the workshop space is narrow and the movement of the lathe is difficult to achieve, and the existing numerical control lathe is inconvenient in daily use.

Disclosure of utility model

Aiming at the defects of the prior art, the utility model provides a small movable numerical control lathe, which solves the problems.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a small-size movable numerical control lathe, includes the processing seat, the top fixedly connected with processing board of processing seat, one side of processing board is equipped with the support frame, the top of support frame is equipped with the adjustable shelf, one side of adjustable shelf is equipped with the lift, one side that the adjustable shelf was kept away from to the lift is equipped with processingequipment, processingequipment's bottom is equipped with the processing head, the one end fixedly connected with control panel of processing seat, the upper end of control panel is equipped with the pushing hands, the bottom fixedly connected with of processing seat removes the base, it is trapezoidal setting to remove the base, one side of removing the base is equipped with the motor, the inside of removing the base is equipped with elevation structure, the bottom both ends of removing the base are equipped with the wheel.

Preferably, the bottom of the support frame is fixedly connected with the processing plate, the top of the support frame is fixedly connected with the bottom of the movable frame, and the support frame and the movable frame are arranged in a trapezoid.

Preferably, the lifter is connected with the movable frame in a sliding way, the processing device is connected with the lifter in a sliding way, the bottom of the processing device is fixedly connected with the top of the processing head, the bottom of the control screen is rotationally connected with the processing seat, and the pushing handle is fixedly connected with one end of the processing seat.

Preferably, the top fixed connection of motor is in the bottom of support frame, and the output fixedly connected with adapter of motor, the output fixedly connected with dwang of adapter, dwang extend to the removal base inside.

Preferably, the lifting structure comprises a threaded rod, a first moving block, a second moving block, a linkage plate, a linkage block, a cross beam and a longitudinal beam, wherein longitudinal and transverse grooves are formed in the moving base, the cross beam and the longitudinal beam are in sliding connection in the grooves, two ends of the longitudinal beam extend downwards to form an L-shaped arrangement, two ends of the longitudinal beam are connected with wheels in a rotating mode through connecting rods, and the top of the longitudinal beam is fixedly connected with two ends of the cross beam.

Preferably, the top center of the cross beam is fixedly connected with the bottom of the linkage block, two ends of the linkage block are respectively and rotatably connected with the bottom of the linkage plate, and the top of the linkage block is respectively and rotatably connected with two ends of the first moving block and the second moving block.

Preferably, the threaded rod is fixedly connected inside the rotating rod, the first moving block is connected with the threaded rod through forward threads, and the second moving block is connected with the threaded rod through reverse threads.

Compared with the prior art, the utility model provides a small movable numerical control lathe, which has the following beneficial effects:

This small-size movable numerical control lathe, when removing, at first, the motor is through the rotatory pole of adapter banded, when the dwang rotates, drive the threaded rod and rotate, when needs remove, control the threaded rod and rotate clockwise, through the positive and negative screw thread relation of first movable block and second movable block, make it be close to, when first movable block is close to with the second movable block, drive the crossbeam through the linkage version and descend, the rising and the decline of crossbeam drive the longeron and rise and descend, when the longeron descends, the ascending both ends of longeron drive wheel decline and ground contact, make it can drive the lathe and remove, when needs to fix, control the threaded rod anticlockwise rotation, through the positive and negative screw thread relation of first movable block and second movable block, it is kept away from to make it is ascending through linkage version drive linkage block and crossbeam, the crossbeam longeron rises and makes the wheel rise to keep away from ground, make the bottom and the ground contact of moving the base fix, need not use great loop wheel machine when needs to remove, can realize the lathe removal, daily convenient use has been provided when needing.

Drawings

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

FIG. 2 is a schematic diagram of the structure of the present utility model;

FIG. 3 is a schematic diagram of the structure of the present utility model.

In the figure: 1. a processing seat; 2. processing a plate; 3. a support frame; 4. a movable frame; 5. a lifter; 6. a processing device; 7. a processing head; 8. a control screen; 9. a movable base; 10. a motor; 11. an adapter; 12. a rotating lever; 13. a threaded rod; 14. a first moving block; 15. a second moving block; 16. linkage plate; 17. a linkage block; 18. a cross beam; 19. a longitudinal beam; 20. a wheel; 21. pushing hands.

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. 1-3, a small movable numerical control lathe comprises a processing seat 1, a processing plate 2 is fixedly connected to the top of the processing seat 1, a supporting frame 3 is arranged on one side of the processing plate 2, a movable frame 4 is arranged on the top of the supporting frame 3, a lifter 5 is arranged on one side of the movable frame 4, a processing device 6 is arranged on one side of the lifter 5 away from the movable frame 4, a processing head 7 is arranged at the bottom of the processing device 6, a control screen 8 is fixedly connected to one end of the processing seat 1, a pushing handle 21 is arranged at the upper end of the control screen 8, a movable base 9 is fixedly connected to the bottom of the processing seat 1, the movable base 9 is in a trapezoid shape, a motor 10 is arranged on one side of the movable base 9, a lifting structure is arranged in the movable base 9, wheels 20 are arranged at two ends of the bottom of the movable base 9, the movable position can be changed by changing the height of the wheels 20 through the lifting structure, and lathe movement can be realized without using a large crane when movement is needed.

Further, the bottom of support frame 3 is in the same place with processing board 2 fixed connection, and the top of support frame 3 is in the same place with the bottom fixed connection of movable frame 4, and support frame 3 is trapezoidal setting with movable frame 4, effectively reduces the area of lathe.

Further, the lifter 5 is slidably connected with the movable frame 4, the processing device 6 is slidably connected with the lifter 5, the bottom of the processing device 6 is fixedly connected with the top of the processing head 7, the bottom of the control screen 8 is rotatably connected with the processing seat 1, the pushing handle 21 is fixedly connected with one end of the processing seat 1, and the pushing handle 21 is pushed to enable the device to move during movement.

Further, the top fixed connection of motor 10 is in the bottom of support frame 3, and the output fixedly connected with adapter 11 of motor 10, the output fixedly connected with dwang 12 of adapter 11, dwang 12 extend to the removal base 9 inside, and when removing, at first start motor 10, motor 10 passes through adapter 11 and drives dwang 12 rotation.

Further, the lifting structure comprises a threaded rod 13, a first moving block 14, a second moving block 15, a linkage plate 16, a linkage block 17, a cross beam 18 and a longitudinal beam 19, longitudinal and transverse grooves are formed in the moving base 9, the cross beam 18 and the longitudinal beam 19 are slidably connected in the grooves, two ends of the longitudinal beam 19 extend downwards to form an L-shaped arrangement, two ends of the longitudinal beam 19 are rotationally connected with wheels 20 through connecting rods, the tops of the longitudinal beam 19 are fixedly connected with two ends of the cross beam 18, when the longitudinal beam 19 descends, the two downward ends of the longitudinal beam 19 drive the wheels 20 to descend to contact with the ground, so that the wheels 20 can be driven to move by a lathe, and when the longitudinal beam 19 needs to be fixed, the wheels 20 are controlled to ascend to be far away from the ground, and the bottoms of the moving base 9 are fixed by contacting with the ground.

Further, the top center of the cross beam 18 is fixedly connected with the bottom of the linkage block 17, two ends of the linkage block 17 are respectively and rotatably connected with the bottom of the linkage plate 16, the top of the linkage block 17 is respectively and rotatably connected with two ends of the first moving block 14 and the second moving block 15, and the ascending and descending of the cross beam 18 drive the longitudinal beam 19 to ascend and descend.

Further, the threaded rod 13 is fixedly connected inside the rotating rod 12, the first moving block 14 is connected with the threaded rod 13 through forward threads, the second moving block 15 is connected with the threaded rod 13 through reverse threads, when the rotating rod 12 rotates, the threaded rod 13 is driven to rotate, when the rotating rod 12 needs to move, the threaded rod 13 is controlled to rotate clockwise, the threaded rod is close to the threaded rod through the forward and reverse threads of the first moving block 14 and the second moving block 15, when the first moving block 14 and the second moving block 15 are close to each other, the cross beam 18 is driven to descend through the linkage plate 16, when the threaded rod 13 needs to be fixed, the threaded rod 13 is controlled to rotate anticlockwise, and when the threaded rod rotates anticlockwise, the threaded rod is far away from the threaded rod through the forward and reverse threads of the first moving block 14 and the second moving block 15, and the first moving block 14 and the second moving block 15 drive the linkage plate 16 to ascend through the linkage plate 17 and the cross beam 18.

Working principle: when moving, firstly, the motor 10 is started, the motor 10 drives the rotating rod 12 to rotate through the adapter 11, when the rotating rod 12 rotates, the threaded rod 13 is driven to rotate, when the rotating rod 12 needs to move, the threaded rod 13 is controlled to rotate clockwise, the threaded rod 13 is close to the second moving block 15 through the positive and negative threaded relation of the first moving block 14, when the first moving block 14 is close to the second moving block 15, the cross beam 18 is driven to descend through the linkage plate 16, the cross beam 18 is driven to ascend and descend through the ascending and descending of the cross beam 18, when the cross beam 19 descends, the wheels 20 are driven to descend at the downward two ends of the cross beam 19 to be in contact with the ground, so that the threaded rod can be driven to move by the lathe, when the rotating rod is required to be fixed, the threaded rod 13 is controlled to rotate anticlockwise, when the rotating rod is required to move anticlockwise, the first moving block 14 and the second moving block 15 drive the cross beam 18 to ascend through the linkage plate 16, the cross beam 18 and the cross beam 19 ascends, so that the wheels 20 ascend to be far away from the ground, the bottom of the moving base 9 is enabled to contact with the ground, and the movable support frame 4 is set to be convenient, and the movable support frame 4 is realized when the moving is required to be convenient, and the moving is realized.

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

1. The utility model provides a small-size movable numerical control lathe, includes processing seat (1), its characterized in that: the top fixedly connected with processing board (2) of processing seat (1), one side of processing board (2) is equipped with support frame (3), the top of support frame (3) is equipped with adjustable shelf (4), one side of adjustable shelf (4) is equipped with lift (5), one side that adjustable shelf (4) was kept away from to lift (5) is equipped with processingequipment (6), the bottom of processingequipment (6) is equipped with processing head (7), the one end fixedly connected with control screen (8) of processing seat (1), the upper end of control screen (8) is equipped with pushing hands (21), the bottom fixedly connected with of processing seat (1) removes base (9), remove base (9) and be trapezoidal setting, one side of removing base (9) is equipped with motor (10), the inside of removing base (9) is equipped with elevation structure, the bottom both ends of removing base (9) are equipped with wheel (20).

2. The small-sized movable numerically controlled lathe as in claim 1, wherein: the bottom of support frame (3) is in the same place with processing board (2) fixed connection, and the top of support frame (3) is in the same place with the bottom fixed connection of movable frame (4), and support frame (3) are trapezoidal setting with movable frame (4).

3. The small-sized movable numerically controlled lathe as in claim 2, wherein: the lifter (5) is connected with the movable frame (4) in a sliding mode, the machining device (6) is connected with the lifter (5) in a sliding mode, the bottom of the machining device (6) is fixedly connected with the top of the machining head (7), the bottom of the control screen (8) is connected with the machining seat (1) in a rotating mode, and the pushing handle (21) is fixedly connected with one end of the machining seat (1).

4. The small-sized movable numerically controlled lathe as in claim 1, wherein: the top fixed connection of motor (10) is in the bottom of support frame (3), and the output fixedly connected with adapter (11) of motor (10), the output fixedly connected with dwang (12) of adapter (11), dwang (12) extend to inside moving base (9).

5. The small and mobile numerically controlled lathe as in claim 4, further comprising: the lifting structure comprises a threaded rod (13), a first moving block (14), a second moving block (15), a linkage plate (16), a linkage block (17), a cross beam (18) and a longitudinal beam (19), longitudinal and transverse grooves are formed in the moving base (9), the cross beam (18) and the longitudinal beam (19) are slidably connected inside the grooves, two ends of the longitudinal beam (19) extend downwards to form an L-shaped structure, two ends of the longitudinal beam (19) are rotationally connected with wheels (20) through connecting rods, and the tops of the longitudinal beam (19) are fixedly connected with two ends of the cross beam (18).

6. The small and mobile numerically controlled lathe as in claim 5, further comprising: the top center of the cross beam (18) is fixedly connected with the bottom of the linkage block (17), two ends of the linkage block (17) are respectively and rotatably connected with the bottom of the linkage plate (16), and the top of the linkage block (17) is respectively and rotatably connected with two ends of the first moving block (14) and the second moving block (15).

7. The small and mobile numerically controlled lathe as in claim 6, further comprising: the threaded rod (13) is fixedly connected inside the rotating rod (12), the first moving block (14) is connected with the threaded rod (13) in a forward threaded mode, and the second moving block (15) is connected with the threaded rod (13) in a reverse threaded mode.