CN210024433U - Automatic numerical control lathe polishes - Google Patents

Automatic numerical control lathe polishes Download PDF

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Publication number
CN210024433U
CN210024433U CN201920354516.4U CN201920354516U CN210024433U CN 210024433 U CN210024433 U CN 210024433U CN 201920354516 U CN201920354516 U CN 201920354516U CN 210024433 U CN210024433 U CN 210024433U
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CN
China
Prior art keywords
sliding
slide
frame
lead screw
screw motor
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Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
Application number
CN201920354516.4U
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Chinese (zh)
Inventor
杨娅
曾繁春
刘丽梅
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Huizhou Lianshuo Technology Co Ltd
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Huizhou Lianshuo Technology Co Ltd
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Priority to CN201920354516.4U priority Critical patent/CN210024433U/en
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Publication of CN210024433U publication Critical patent/CN210024433U/en
Expired - Fee Related legal-status Critical Current
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Abstract

The utility model relates to an automatic numerical control lathe polishes, be in including frame and setting the workstation of frame upper end, workstation one side is equipped with the base, be equipped with rotary mechanism on the base and with the fixture that rotary mechanism connects, the workstation opposite side is equipped with glide machanism, be equipped with on the glide machanism first snatch mechanism, second and snatch mechanism, processing mechanism and grinding machanism, frame one side just is close to first snatch mechanism department and be equipped with first storage mechanism, the frame opposite side just is close to base department is equipped with second storage mechanism, grinding machanism is including locating on the glide machanism and be located the pusher of fixture below, the last push plate that is equipped with of pusher, be equipped with the abrasive machine on the push plate. The utility model discloses following beneficial effect has: the adaptability is strong, the surface of the processed product is smooth, the manual operation steps are reduced, and the working efficiency is improved; and a large amount of labor is not needed, and the operation cost is reduced.

Description

Automatic numerical control lathe polishes
Technical Field
The utility model belongs to the technical field of the lathe, especially, relate to an automatic numerical control lathe polishes.
Background
The lathe is mainly used for machining workpieces, and with the progress of the times, the manual machining lathe is eliminated, the automatic machining lathe becomes the mainstream, and the automatic machining lathe is widely applied to machining factories. The existing lathe is mostly operated manually, a worker compiles a program on the lathe according to the size of a workpiece to be machined and starts the program, the worker puts a bar-shaped workpiece blank into a chuck for fixing, a turning tool is arranged at an initial position, the turning tool moves according to a lathe initial button, the chuck rotates to start machining the bar-shaped workpiece blank, the chuck stops after the machining is finished, the turning tool returns to the initial position for stopping, the worker takes out the machined bar-shaped workpiece finished product from the chuck, and the machined bar-shaped workpiece has a rough surface and needs to be subjected to the next polishing operation; then the next bar-shaped workpiece blank is put into the chuck for fixing, the lathe starting button is pressed, the lathe tool moves, the chuck rotates to start processing the bar-shaped workpiece blank, and the operation is circulated. At present, the lathe has the following defects: poor machining adaptability; the manual operation steps are complicated, a large amount of time is needed, and the working efficiency is low; manual operations are also labor intensive and costly to operate.
SUMMERY OF THE UTILITY MODEL
The utility model aims to provide an automatic polishing numerical control lathe, aiming at solving the problem of poor machining adaptability of the existing lathe; the surface of the processed bar-shaped workpiece is rough; the manual operation steps are complicated, a large amount of time is needed, and the working efficiency is low; a large amount of labor is consumed and the operation cost is high.
The utility model discloses a realize like this, an automatic numerical control lathe polishes, be in including frame and setting the workstation of frame upper end, workstation one side is equipped with the base, be equipped with rotary mechanism on the base and with the fixture that rotary mechanism connects, the workstation opposite side is equipped with glide machanism, be equipped with on the glide machanism first snatch mechanism, second snatch mechanism, processing agency and grinding machanism, frame one side just is close to first snatch mechanism department and be equipped with first storage mechanism, the frame opposite side just is close to base department is equipped with second storage mechanism, grinding machanism is including locating on the glide machanism and be located the pusher of fixture below, the last push plate that is equipped with of pusher, be equipped with the abrasive machine on the push plate.
The utility model discloses a further technical scheme is: the pushing device comprises a pushing cylinder, and the pushing cylinder is arranged on the sliding mechanism through a positioning plate.
The utility model discloses a further technical scheme is: the sliding mechanism comprises a first sliding mechanism arranged on the workbench and a second sliding mechanism horizontally and vertically arranged above the first sliding mechanism, the positioning plate is arranged on the first sliding mechanism and arranged in parallel with the second sliding mechanism, and the first grabbing mechanism, the second grabbing mechanism and the machining mechanism are arranged on the second sliding mechanism.
The utility model discloses a further technical scheme is: the first sliding mechanism comprises a first bottom plate, a first lead screw motor arranged on the first bottom plate, a first sliding rail arranged in parallel with the first lead screw motor, and a first sliding block matched with the first sliding rail.
The utility model discloses a further technical scheme is: the first sliding rails are arranged on the first base plate in parallel, and the first screw rod motor is arranged between the two first sliding rails in parallel.
The utility model discloses a further technical scheme is: the second glide machanism is including setting up on the first slider and with first bottom plate is the second bottom plate that the cross was arranged, sets up second lead screw motor on the second bottom plate, with second lead screw motor parallel arrangement's second slide rail and with the second slider of second slide rail adaptation, second slider top is equipped with the movable plate, first snatch mechanism, second snatch mechanism and processing agency and all set up on the movable plate, the second bottom plate with first lead screw motor is connected, the movable plate with the second lead screw motor is connected.
The utility model discloses a further technical scheme is: the second slide rails are arranged on the second bottom plate in parallel, and the second lead screw motor is arranged between the two second slide rails in parallel.
The utility model discloses a further technical scheme is: the processing mechanism comprises a tool rest and a turning tool, wherein the tool rest is arranged on the moving plate and is positioned between the first grabbing mechanism and the second grabbing mechanism, and the turning tool is arranged on the tool rest.
The utility model discloses a further technical scheme is: the first storage mechanism and the second storage mechanism are respectively installed on two sides of the rack through hopper supports.
The utility model discloses a further technical scheme is: the clamping mechanism comprises a pneumatic chuck, wherein one end of the pneumatic chuck is provided with a rotating shaft, and the rotating shaft is connected with the rotating mechanism through a coupler.
The utility model has the advantages that: the utility model drives the first grabbing mechanism to grab the product to be processed from the first storage mechanism to the clamping mechanism and process the product through the processing mechanism by the movement of the sliding mechanism; after the product is processed, the grinding machine moves to the position near the product through the pushing device to polish the processed product, the polished product is grabbed by the second grabbing mechanism, and the first grabbing mechanism returns to the first storage mechanism to grab the product to be processed at the same time; the sliding mechanism moves, the second grabbing mechanism puts the processed product into the second storage mechanism, and meanwhile, the first grabbing mechanism puts the product to be processed into the clamping mechanism for circular operation. The automatic processing lathe is strong in adaptability, the surface of a processed product is smooth, manual operation steps are reduced, the required time is short, and the working efficiency is improved; and a large amount of labor is not needed, and the operation cost is reduced.
Drawings
Fig. 1 is a schematic structural view of an automatic grinding numerically controlled lathe according to an embodiment of the present invention;
fig. 2 is a schematic view of another state structure of the automatic grinding numerically controlled lathe according to the embodiment of the present invention;
fig. 3 is a front view of an automatic grinding numerically controlled lathe according to an embodiment of the present invention.
The names of the components in the figure are as follows:
1-a frame; 2-a workbench; 3-a base; 4-a rotating mechanism; 5-a clamping mechanism; 6-a sliding mechanism; 7-a first gripping mechanism; 8-a second grasping mechanism; 9-a processing mechanism; 10-a polishing mechanism; 11-a first storage mechanism; 12-a second storage mechanism; 101-a pushing device; 102-a push plate; 103-a grinder; 13-positioning plate; 61-a first glide mechanism; 62-a second glide mechanism; 611-a first backplane; 612-a first lead screw motor; 613-first slide rail; 614-first slider; 621-a second backplane; 622-second screw motor; 623-a second slide rail; 624-second slider; 14-moving the plate; 91-a tool holder; 92-a turning tool; 15-a hopper support; 16-coupling.
Detailed Description
The embodiments of the present invention will be described with reference to the accompanying drawings.
As shown in fig. 1, the automatic grinding numerically controlled lathe in this embodiment includes a frame 1 and a workbench 2 disposed at an upper end of the frame 1, a base 3 is disposed on one side of the workbench 2, a rotating mechanism 4 and a clamping mechanism 5 connected to the rotating mechanism 4 are disposed on the base 3, a sliding mechanism 6 is disposed on the other side of the workbench 2, a first grabbing mechanism 7, a second grabbing mechanism 8, a processing mechanism 9 and a grinding mechanism 10 are disposed on the sliding mechanism 6, a first storage mechanism 11 is disposed on one side of the frame 1 and near the first grabbing mechanism 7, a second storage mechanism 12 is disposed on the other side of the frame 1 and near the base 3, the grinding mechanism 10 includes a pushing device 101 disposed on the sliding mechanism 6 and below the clamping mechanism 5, a pushing plate 102 is disposed on the pushing device 101, a grinder 103 is arranged on the pushing plate 102. That is to say, in this embodiment, before working, the product to be processed is placed in the first storage mechanism 11, the automatic grinding numerically controlled lathe is started, and through the movement of the sliding mechanism 6, the raw material clamping jaw of the first gripping mechanism 7 moves to the bottom end of the first storage mechanism 11 to clamp the product to be processed; after clamping, the raw material clamping jaw is driven to move to the clamping mechanism 5 and a product to be processed is placed into the clamping mechanism 5 through the movement of the sliding mechanism 6, the sliding mechanism 6 is moved until the processing mechanism 9 above the sliding mechanism 6 moves to one end of the clamping mechanism 5 for clamping the product to be processed, the rotating mechanism 4 comprises a rotating motor, the clamping mechanism 5 comprises a pneumatic chuck, one end of the pneumatic chuck is provided with a rotating shaft and is connected with the rotating motor of the rotating mechanism 4 through a coupler 16, the rotating motor drives the pneumatic chuck to rotate so as to drive the product to be processed to rotate, and the turning tool 92 of the processing mechanism 9 processes the product to be processed; after machining, the grinding machine 103 is pushed to the vicinity of the machined product (namely, the port of the pneumatic chuck) through the pushing device 101, and the machined product is ground; and after polishing, grabbing by the second grabbing mechanism 8, moving the first grabbing mechanism 7 just below the first storage mechanism 11 to grab the next product to be processed, moving the sliding mechanism 6, putting the processed product into the second storage mechanism 12 by the second grabbing mechanism 8, putting the product to be processed into the clamping mechanism 5 by the first grabbing mechanism 7, and performing the above operation in a circulating manner. Implement the utility model discloses an automatic numerical control lathe of polishing has following beneficial effect: the adaptability is strong, the surface of the processed product is smooth, the manual operation steps are reduced, and the working efficiency is improved; and a large amount of labor is not needed, and the operation cost is reduced.
In the present embodiment, as shown in fig. 1 and fig. 2, the pushing device 101 includes a pushing cylinder, and the pushing cylinder is disposed on the sliding mechanism 6 through a positioning plate 13. That is, when polishing a processed product, the grinder 103 is pushed to the vicinity of the air chuck by the pushing cylinder.
In the present embodiment, as shown in fig. 1 to 3, the sliding mechanism 6 includes a first sliding mechanism 61 disposed on the work table 2 and a second sliding mechanism 62 disposed horizontally and vertically above the first sliding mechanism 61, the positioning plate 13 is disposed on the first sliding mechanism 61 and is disposed in parallel with the second sliding mechanism 62, and the first grasping mechanism 7, the second grasping mechanism 8, and the processing mechanism 9 are disposed on the second sliding mechanism 62. The first sliding mechanism 61 includes a first bottom plate 611, a first lead screw motor 612 disposed on the first bottom plate 611, a first slide rail 613 disposed in parallel with the first lead screw motor 612, and a first slider 614 adapted to the first slide rail 613. The first slide rails 613 are disposed in parallel on the first bottom plate 611, and the first lead screw motor 612 is disposed in parallel between the two first slide rails 613. The second sliding mechanism 62 comprises a second bottom plate 621 arranged on the first sliding block 614 and in a cross shape with the first bottom plate 611, a second lead screw motor 622 arranged on the second bottom plate 621, a second sliding rail 623 arranged in parallel with the second lead screw motor 622, and a second sliding block 624 adapted to the second sliding rail 623, a moving plate 14 is arranged above the second sliding block 624, the first grabbing mechanism 7, the second grabbing mechanism 8 and the processing mechanism 9 are all arranged on the moving plate 14, the first grabbing mechanism 7 comprises a raw material clamping jaw, the second grabbing mechanism 8 comprises a finished product clamping jaw, the raw material clamping jaw and the finished product clamping jaw are all mounted on the moving plate 14 through a fixed bracket, and as the raw material clamping jaw clamps the product to be processed from the bottom end of the first storage mechanism 7, the finished product clamping jaw puts the processed product into the second storage mechanism 8 from the top, the fixing support at the finished jaw is thus higher than the fixing support at the raw material jaw. The second bottom plate 621 is connected to the first lead screw motor 612, and the moving plate 14 is connected to the second lead screw motor 622. The second slide rails 623 are arranged in parallel on the second base plate 621, and the second lead screw motor 622 is arranged in parallel between the two second slide rails 623.
In the present embodiment, as shown in fig. 1, the processing mechanism 9 includes a tool holder 91 provided on the moving plate 14 and located between the first gripping mechanism 7 and the second gripping mechanism 8, and a turning tool 92 provided on the tool holder 91.
In the present embodiment, as shown in fig. 1, the first storage mechanism 11 and the second storage mechanism 12 are respectively mounted on both sides of the frame 1 through hopper brackets 15. First storage mechanism 11 with second storage mechanism 12 structure is the same, is the hopper of rhombus post structure, this rhombus post structure first storage mechanism 11 with the acute angle end of second storage mechanism 12 is down to be equipped with the through-hole in one side of acute angle end, be convenient for snatch the mechanism and press from both sides the product of getting its inside, guarantee can not appear leaking the condition of pressing from both sides. Hopper holder 15 is L type structure, will hopper holder 15 sets up to L type structure, is convenient for install on frame 1.
The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. The utility model provides an automatic numerical control lathe polishes which characterized in that: the automatic grinding machine comprises a frame and a workbench arranged at the upper end of the frame, a base is arranged on one side of the workbench, a rotating mechanism and a clamping mechanism connected with the rotating mechanism are arranged on the base, a sliding mechanism is arranged on the other side of the workbench, a first grabbing mechanism, a second grabbing mechanism, a processing mechanism and a grinding mechanism are arranged on the sliding mechanism, the frame is arranged on one side of the frame and close to the first grabbing mechanism, a first storage mechanism is arranged on the other side of the frame and close to the base, a second storage mechanism is arranged on the other side of the frame and close to the base, the grinding mechanism is arranged on the sliding mechanism and located on a pushing device below the clamping mechanism, a pushing plate is arranged on the pushing device, and a grinding.
2. The automatic grinding numerically controlled lathe according to claim 1, wherein the pushing device comprises a pushing cylinder, and the pushing cylinder is arranged on the sliding mechanism through a positioning plate.
3. The automatic grinding numerically controlled lathe according to claim 2, wherein the slide mechanism includes a first slide mechanism provided on the table and a second slide mechanism provided vertically and horizontally above the first slide mechanism, the positioning plate is provided on the first slide mechanism and provided in parallel with the second slide mechanism, and the first grasping mechanism, the second grasping mechanism, and the processing mechanism are provided on the second slide mechanism.
4. The automatic grinding numerically controlled lathe according to claim 3, wherein the first sliding mechanism includes a first base plate, a first lead screw motor disposed on the first base plate, a first slide rail disposed in parallel with the first lead screw motor, and a first slide block fitted to the first slide rail.
5. The automatic grinding numerically controlled lathe according to claim 4, wherein the first slide rails are arranged in parallel on the first base plate, and the first lead screw motor is arranged in parallel between the two first slide rails.
6. The automatic grinding numerical control lathe according to claim 5, wherein the second sliding mechanism comprises a second bottom plate disposed on the first sliding block and arranged in a cross shape with the first bottom plate, a second lead screw motor disposed on the second bottom plate, a second sliding rail disposed in parallel with the second lead screw motor, and a second sliding block adapted to the second sliding rail, a moving plate is disposed above the second sliding block, the first grabbing mechanism, the second grabbing mechanism, and the processing mechanism are disposed on the moving plate, the second bottom plate is connected with the first lead screw motor, and the moving plate is connected with the second lead screw motor.
7. The automatic grinding numerically controlled lathe according to claim 6, wherein the second slide rails are arranged in parallel on the second base plate, and the second lead screw motor is arranged in parallel between the two second slide rails.
8. The automatic grinding numerically controlled lathe according to claim 6, wherein the machining mechanism includes a tool rest provided on the moving plate and located between the first and second grasping mechanisms, and a turning tool provided on the tool rest.
9. The automatic grinding numerically controlled lathe according to claim 1, wherein the first storage mechanism and the second storage mechanism are each mounted on both sides of the frame via a hopper holder.
10. The automatic grinding numerically controlled lathe according to claim 1, wherein the clamping mechanism comprises a pneumatic chuck, and a rotating shaft is arranged at one end of the pneumatic chuck and connected with the rotating mechanism through a coupling.
CN201920354516.4U 2019-03-19 2019-03-19 Automatic numerical control lathe polishes Expired - Fee Related CN210024433U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201920354516.4U CN210024433U (en) 2019-03-19 2019-03-19 Automatic numerical control lathe polishes

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201920354516.4U CN210024433U (en) 2019-03-19 2019-03-19 Automatic numerical control lathe polishes

Publications (1)

Publication Number Publication Date
CN210024433U true CN210024433U (en) 2020-02-07

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Family Applications (1)

Application Number Title Priority Date Filing Date
CN201920354516.4U Expired - Fee Related CN210024433U (en) 2019-03-19 2019-03-19 Automatic numerical control lathe polishes

Country Status (1)

Country Link
CN (1) CN210024433U (en)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN111300066A (en) * 2020-04-13 2020-06-19 佛山市顺德区柏久亿五金塑料有限公司 Numerical control polishing lathe
CN112848642A (en) * 2021-01-08 2021-05-28 黄山精工凹印制版有限公司 Manufacturing method of high-precision gravure printing roller

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN111300066A (en) * 2020-04-13 2020-06-19 佛山市顺德区柏久亿五金塑料有限公司 Numerical control polishing lathe
CN112848642A (en) * 2021-01-08 2021-05-28 黄山精工凹印制版有限公司 Manufacturing method of high-precision gravure printing roller

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GR01 Patent grant
CF01 Termination of patent right due to non-payment of annual fee
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20200207

Termination date: 20210319