CN215035266U - A CNC machining system - Google Patents

Abstract

The utility model provides a numerical control processing system, comprising a conveyor, a numerical control machine tool, and a workbench. The conveyor comprises a left conveying part and a right conveying part arranged at intervals, and the workbench is arranged on the left conveying part and the right conveying part. Between the right conveying parts, the conveyor can be lifted up and down, and the left and right sides of the worktable are provided with a clamping device, which is divided into a left clamping device and a right clamping device, the left clamping device and the right clamping device. The clamping devices can move closer to each other to clamp the product together. A correcting mechanism is fixed on the main shaft, and the correcting mechanism corrects the front and rear positions of the product. The product qualification rate is improved, and the automatic calibration, accurate positioning, fast speed, saving time and labor, and high efficiency.

Description

Numerical control machining system

Technical Field

The utility model belongs to the technical field of the panel processing equipment, especially, relate to a numerical control system of processing.

Background

In the integrated board product appearance course of working of building, because the product volume is great, heavy weight, so generally carry the product with the conveyer and process on the workstation that is located digit control machine tool axial middle part, the workstation both sides are equipped with left and right anchor clamps, when adding man-hour, left and right anchor clamps clip the product, because the product has inertia at the in-process of carrying, so the product still can move a bit distance toward the direction of going after stopping on the workstation, it has the skew to lead to the position around the reality of product to have with predetermined processing benchmark position, the product is inclined to the primary processing benchmark when the anchor clamps press from both sides tightly about, the product dimensional error that causes to process out is big, the outward appearance uniformity is poor, the defective rate is high.

SUMMERY OF THE UTILITY MODEL

Not enough to exist among the prior art, the utility model provides a numerical control machining system has solved product because inertia can be past to the skew of material direction about in the current numerical control machining system before the anchor clamps press from both sides tightly, the skew problem of processing benchmark of product when leading to about anchor clamps press from both sides tightly.

The utility model provides a numerical control machining system, including conveyer, digit control machine tool, workstation, the digit control machine tool includes the main shaft, a carving tool is connected to the main shaft bottom, the carving tool sets up in the workstation top, the main shaft can be followed the length direction removal of conveyer and is followed the width direction removal of conveyer, the conveyer includes left conveying part and the right conveying part that the interval set up, the workstation sets up between left conveying part and the right conveying part, the conveyer can go up and down, be close to the department of workstation front side on the conveyer and be equipped with a displacement inductor, when the displacement inductor detects the product, the conveyer stops transporting, and the conveyer descends, makes the top surface height of conveyer be less than the top surface height of workstation, the left and right sides of workstation respectively are equipped with a clamping device, the left clamping device and the right clamping device can be mutually closed to clamp a product, and a correcting mechanism is fixed on the main shaft and corrects the front position and the rear position of the product.

Furthermore, the left and right conveying parts comprise a fixing frame and a bracket, the bracket is arranged below the fixing frame, and the fixing frame is connected with the bracket through a plurality of oil cylinders arranged at intervals.

Furthermore, the left clamping device and the right clamping device are respectively connected to the guide rail through a first sliding block in a sliding mode, the guide rail is fixed to the ground, a groove is formed in the bottom surface of the workbench, and the guide rail is embedded into the groove.

Further, left clamping device includes left stand and left L type splint, right clamping device includes right stand and right L type splint, left side L type splint and right L type splint bilateral symmetry.

Further, digit control machine tool still includes the frame, the frame include the axial with the unanimous first tie-beam of conveyer length direction and second tie-beam, first tie-beam sets up the upper left side of conveyer, the second tie-beam sets up the upper right side of conveyer, the frame still includes the slip roof beam, the axial of slip roof beam with the width direction of conveyer is unanimous, the slip roof beam both ends are respectively through second slider and third slider sliding connection on first tie-beam and the second tie-beam, the slip roof beam middle part is through fourth slider sliding connection the main shaft.

Further, the correcting mechanism comprises a connecting plate, an air cylinder and an L-shaped push plate, the front side of the fourth sliding block is fixed to the connecting plate, the bottom of the connecting plate is fixed to the air cylinder, and the free end of the telescopic rod of the air cylinder is fixed to the L-shaped push plate.

The utility model discloses following beneficial effect has:

the utility model comprises a frame, a sliding beam moving in the axial direction of the conveyor is arranged on the frame, a main shaft is connected on the sliding beam in a sliding way, a graver is fixed on the main shaft, a correction mechanism is also fixed on the slider, the correction mechanism comprises a connecting plate, a cylinder and an L-shaped push plate, the connecting plate is fixed on the slider, the cylinder is inverted on the bottom surface of the connecting plate, the telescopic rod of the cylinder is fixed with the L-shaped push plate, before processing, the telescopic rod of the cylinder extends, then the cross beam moves to the feeding direction, the graver is brought above the product to wait for processing, meanwhile, the L-shaped push plate is also driven to move to the feeding direction, the L-shaped push plate wraps the front side of the product, the product is pushed to move a little distance to the feeding direction, and the product is corrected with the processing standard, the utility model can quickly correct the position deviation of the product in the conveying process, improves the product qualification rate and is automatically calibrated, the positioning is accurate, the speed is high, the time and the labor are saved, and the efficiency is high.

Drawings

Fig. 1 is an overall schematic diagram of a numerical control machining system of the present invention;

FIG. 2 is a schematic view of a numerical control machining system (with the frame, table and product removed) of the present invention;

fig. 3 is a schematic diagram of a numerical control machining system (with the frame and the product removed) according to the present invention.

In the above figures, 100, a conveyor; 110. a left conveying section; 120. a right conveying section; 130. a displacement sensor; 140. a fixed mount; 150. a bracket; 160. an oil cylinder; 200. a numerical control machine tool; 300. a work table; 210. a main shaft; 220. a frame; 230. a graver; 221. a first connecting beam; 222. a second connecting beam; 223. a sliding beam; 400. a left clamping device; 500. a right clamping device; 600. a correction mechanism; 700. a first slider; 800. a guide rail; 410. a left upright post; 420. a left L-shaped splint; 510. a right upright post; 520. a right L-shaped splint; 224. a second slider; 225. a third slider; 240. a fourth slider; 610. a connecting plate; 620. a cylinder; 630. an L-shaped push plate; 900. and (5) producing the product.

Detailed Description

The technical solution of the present invention will be further explained with reference to the accompanying drawings 1-3 and the embodiments.

As shown in fig. 1-3, the present invention includes a conveyor 100, a numerically controlled machine tool 200, a workbench 300, the numerically controlled machine tool 200 includes a main shaft 210, a graver 230 is connected to a bottom end of the main shaft 210, the graver 230 is disposed above the workbench 300, the main shaft 210 can move along a length direction of the conveyor 100 and along a width direction of the conveyor 100, the conveyor 100 includes a left conveying part 110 and a right conveying part 120 disposed at intervals, the conveyor 100 can be lifted, the workbench 300 is disposed between the left conveying part 110 and the right conveying part 120, the conveyor 100 is responsible for transporting a product 900, left and right sides of the product 900 are respectively disposed on top surfaces of the left conveying part 110 and the right conveying part 120, when the conveyor 100 transports the product 900, a top surface of the conveyor 100 is higher than a top surface of the workbench 300, a displacement sensor 130 is disposed on the conveyor 100 near a front side of the workbench 300, when the displacement sensor 130 detects the product 900, the conveyor 100 stops transporting and the conveyor 100 descends so that the top surface of the conveyor 100 is lower than the top surface of the table 300, at which time the product 900 is lowered in height and rests on the top surface of the table 300. The left and right sides of the worktable 300 are respectively provided with a clamping device, which is divided into a left clamping device 400 and a right clamping device 500, the left clamping device 400 and the right clamping device 500 can be mutually closed, the position of the product 900 can be adjusted in the left and right directions, and the product 900 can be clamped together to prevent displacement during processing. A straightening mechanism 600 is fixed to the main shaft 210, and the straightening mechanism 600 straightens the position of the product 900 in the front-rear direction.

As shown in fig. 1, specifically, the left and right conveying parts 120 include a fixed frame 140 and a bracket 150, the bracket 150 is disposed below the fixed frame 140, the fixed frame 140 and the bracket 150 are connected by a plurality of oil cylinders 160 arranged at intervals, and when the telescopic rods of the oil cylinders 160 extend, the conveyor 100 ascends; when the telescopic rod of the oil cylinder 160 is shortened, the conveyor 100 descends.

As shown in fig. 1 and 2, the left clamping device 400 and the right clamping device 500 are slidably connected to the guide rail 800 through the first slider 700, the guide rail 800 is fixed on the ground, the bottom surface of the worktable 300 is provided with a groove, the guide rail 800 is embedded into the groove, after the product 900 stays on the workbench 300, the left clamping device 400 and the right clamping device 500 respectively approach to the left and right sides of the product 900 to adjust the left and right positions of the product 900, more specifically, the left clamping device 400 and the right clamping device 500 realize the adjustment of the left and right positions of the product 900 by the sliding of the first slider 700 on the guide rail 800, the left clamping device 400 comprises a left upright column 410 and a left L-shaped clamping plate 420, the right clamping device 500 comprises a right upright column 510 and a right L-shaped clamping plate 520, the left L-shaped clamping plate 420 and the right L-shaped clamping plate 520 are bilaterally symmetrical, after the left and right positions of the product 900 are adjusted, the left clamping device 400 and the right clamping device 500 are released again.

As shown in fig. 1, the numerical control machine 200 further includes a frame 220, the frame 220 includes a first connection beam 221 and a second connection beam 222 whose axial directions are consistent with the length direction of the conveyor 100, the first connection beam 221 is disposed at the upper left of the conveyor 100, the second connection beam 222 is disposed at the upper right of the conveyor 100, the frame 220 further includes a sliding beam 223, the axial direction of the sliding beam 223 is consistent with the width direction of the conveyor 100, two ends of the sliding beam 223 are respectively slidably connected to the first connection beam 221 and the second connection beam 222 through a second slider 224 and a third slider 225, and the middle of the sliding beam 223 is slidably connected to the main shaft 210 through a fourth slider 240.

As shown in fig. 1 and 2, the straightening mechanism 600 includes a connecting plate 610, an air cylinder 620 and an L-shaped push plate 630, the connecting plate 610 is fixed on the front side of the fourth slider 240, the air cylinder 620 is fixed at the bottom of the connecting plate 610, and the L-shaped push plate 630 is fixed at the free end of the telescopic rod of the air cylinder 620.

The utility model discloses a theory of operation: after the product 900 stays on the top surface of the worktable 300, the left clamping device 400 and the right clamping device 500 are respectively close to the left and right sides of the product 900, the position of the product 900 in the left and right directions is adjusted, then the left clamping device 400 and the right clamping device 500 loosen the product 900, then the straightening mechanism 600 acts, the telescopic rod of the cylinder 620 extends, the horizontal part of the L-shaped push plate 630 is lowered to be flush with the bottom surface of the product 900, the sliding beam 223 is then slid in the material direction, so that the main shaft 210 is moved above the product 900, since the air cylinder 620 is connected with the sliding beam 223, so as to drive the air cylinder 620 to move towards the feeding direction, at this time, the L-shaped pushing plate 630 can push the product 900 a little back towards the feeding direction, the position of the product 900 is adjusted in the front-rear direction, the left clamping device 400 and the right clamping device 500 clamp the product 900, and finally the graver 230 processes the product 900.

Finally, although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the present invention can be modified or replaced by other means without departing from the spirit and scope of the present invention, which should be construed as limited only by the appended claims.

Claims (6)

1. A numerical control processing system, comprising a conveyor (100), a numerically controlled machine tool (200), and a workbench (300), wherein the numerically controlled machine tool (200) comprises a main shaft (210), and the bottom end of the main shaft (210) is connected to a An engraving knife (230), the engraving knife (230) is arranged above the worktable (300), and the main shaft (210) can move along the length direction of the conveyor (100) and along the conveyor ( 100) width direction movement, it is characterized in that, The conveyor (100) includes a left conveying part (110) and a right conveying part (120) arranged at intervals, and the worktable (300) is arranged on the left conveying part (110) and the right conveying part (120) ), the conveyor (100) can be lifted and lowered, and a displacement sensor (130) is provided on the conveyor (100) near the front side of the worktable (300). 130) When a product is detected, the conveyor (100) stops transporting, and the conveyor (100) descends, so that the top surface of the conveyor (100) is lower than the top of the workbench (300). Surface height, the workbench (300) is provided with a clamping device on the left and right sides, which is divided into a left clamping device (400) and a right clamping device (500). The left clamping device (400) and all the The right clamping devices (500) can be moved closer to each other to clamp the product (900) together, and a correcting mechanism (600) is fixed on the main shaft (210), and the correcting mechanism (600) adjusts the front and rear of the product (900). position is corrected. 2. The CNC machining system according to claim 1, wherein the left and right conveying parts (110, 120) comprise a fixing frame (140) and a bracket (150), and the bracket (150) is provided with Below the fixing frame (140), the fixing frame (140) and the bracket (150) are connected by a plurality of oil cylinders (160) arranged at intervals. 3. The CNC machining system according to claim 1, wherein the left clamping device (400) and the right clamping device (500) are each slidably connected to each other through a first sliding block (700). On the guide rail (800), the guide rail (800) is fixed on the ground, the bottom surface of the worktable (300) is provided with a groove, and the guide rail (800) is embedded in the groove. 4. The CNC machining system according to claim 1, wherein the left clamping device (400) comprises a left column (410) and a left L-shaped clamping plate (420), and the right clamping device (400) 500) includes a right upright column (510) and a right L-shaped splint (520), and the left L-shaped splint (420) and the right L-shaped splint (520) are left-right symmetrical. 5. The numerical control machining system according to claim 1, wherein the numerical control machine tool (200) further comprises a frame (220), and the frame (220) comprises an axial direction and the conveyor ( 100) A first connecting beam (221) and a second connecting beam (222) with the same length direction, the first connecting beam (221) is arranged at the upper left of the conveyor (100), and the second connecting beam (222) is arranged at the upper right of the conveyor (100), and the frame (220) further includes a sliding beam (223), the axial direction of the sliding beam (223) is the same as that of the conveyor (100). The width directions are the same, and both ends of the sliding beam (223) are slidably connected to the first connecting beam (221) and the second connecting beam (222) through the second sliding block (224) and the third sliding block (225) respectively. Above, the middle part of the sliding beam (223) is slidably connected to the main shaft (210) through a fourth sliding block (240). 6. The CNC machining system according to claim 5, wherein the straightening mechanism (600) comprises a connecting plate (610), an air cylinder (620) and an L-shaped push plate (630), and the fourth The connecting plate (610) is fixed on the front side of the slider (240), the air cylinder (620) is fixed at the bottom of the connecting plate (610), and the L-shaped push plate is fixed at the free end of the telescopic rod of the air cylinder (620). (630).

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