CN210615945U - Numerical control die milling machine - Google Patents

Abstract

The utility model discloses a numerical control die milling machine, including workstation, first album of bits board, second collection of bits board, third collection of bits board and the fourth collection of bits board that is immovable respectively that can move, the top of workstation is provided with milling cutter, workstation, first collection of bits board, second collection of bits board and third collection of bits board are connected with electronic jar respectively, the upper surface edge of first collection of bits board, the upper surface edge of second collection of bits board, the upper surface edge of third collection of bits board and the upper surface edge of fourth collection of bits board are provided with the stop block respectively, still include the chip collecting groove, the chip collecting groove is provided with the screw rod, the screw rod is connected with the motor, the one end of chip collecting groove is connected with takes out the bits machine; the removal respectively of workstation, first collection bits board, second collection bits board and third collection bits board can drive the piece successive layer and drop and finally gather in an album bits inslot to being taken out by taking out the bits machine and taking away, consequently can clear up most piece automatically, having alleviateed the wearing and tearing of piece to the machine, also alleviateed the work load that cleans the piece simultaneously.

Description

Numerical control die milling machine

Technical Field

The utility model relates to a numerically controlled fraise machine equipment technical field, in particular to numerically controlled die milling machine.

Background

A large amount of chippings can be generated in the machining process of the numerical control milling machine, the basic processing method of the chippings is that after work, production personnel can carry out large cleaning on the chippings on the milling machine, and because a large amount of chippings are accumulated in the machining process of the milling machine, on one hand, the abrasion of the machine is increased, and the long-time abrasion can influence the service life of the machine; on the other hand, the difficulty and the workload of cleaning by production personnel are increased.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model aims to provide a numerical control die milling machine can clear up the most piece that produces around the milling machine automatically, has alleviateed the wearing and tearing of piece to the machine on the one hand, and on the other hand has also alleviateed the producer and has cleaned clastic work load.

The utility model provides a technical scheme that its problem adopted is:

a numerical control die milling machine comprises a workbench, a first chip collecting plate, a second chip collecting plate, a third chip collecting plate and a fixed fourth chip collecting plate, wherein the workbench can move respectively; the length of the fourth chip collecting plate is greater than that of the third chip collecting plate, the length of the third chip collecting plate is greater than that of the second chip collecting plate, the length of the second chip collecting plate is greater than that of the first chip collecting plate, and the length of the first chip collecting plate is greater than that of the workbench; the workbench, the first chip collecting plate, the second chip collecting plate and the third chip collecting plate are respectively connected with an electric cylinder; blocking blocks are respectively arranged at the edge of the upper surface of the first chip collecting plate, the edge of the upper surface of the second chip collecting plate, the edge of the upper surface of the third chip collecting plate and the edge of the upper surface of the fourth chip collecting plate; the both sides of workstation with the one end of fourth collection bits board is provided with the chip groove respectively, be provided with the screw rod in the chip groove, the screw rod is connected with the motor, the one end of chip groove is connected with takes out the bits machine.

Further, a clamp used for fixing the die on the workbench is arranged on the workbench, and the clamp comprises a support column and a clamping column; the supporting column is a rectangular column body, one end of the supporting column is connected with the upper surface of the workbench, and the other end of the supporting column is suspended in the air; one end of the clamping column is connected with the upper surface of the workbench, and the other end of the clamping column is suspended and provided with a nut.

The milling cutter is characterized by further comprising a portal frame, wherein two upright columns of the portal frame are respectively arranged on two sides of the workbench, and the milling cutter is arranged on the portal frame.

Furthermore, a moving device for moving the milling cutter is arranged on the portal frame, and the moving device is connected with the milling cutter.

Furthermore, a chip outlet is formed in the tail end of the chip collecting groove and connected with the chip extractor through a pipeline.

Further, the chip collecting groove is a square groove.

Further, the first chip collecting plate, the second chip collecting plate, the third chip collecting plate and the fourth chip collecting plate are all steel plates.

Further, the height of the blocking block is respectively smaller than the thickness of the workbench, the thickness of the first chip collecting plate, the thickness of the second chip collecting plate and the thickness of the third chip collecting plate.

The utility model has the advantages that: set up mobilizable workstation respectively on the milling machine, first album of bits board, second album of bits board, third album of bits board and fix subaerial fourth album of bits board, the slip of workstation can drive the piece on the first album of bits board and fall on the second album of bits board, the slip of first album of bits board can drive the piece on the second album of bits board and fall on the third album of bits board, so on, the piece finally drops in the album of bits groove, and be taken out by the chip extractor, consequently, can clear up produced most piece automatically, the wearing and tearing of piece to the machine have been alleviateed on the one hand, on the other hand has also alleviateed the producer and has cleaned clastic work load.

Drawings

The invention is further described with reference to the following figures and examples.

FIG. 1 is a schematic structural view of a numerical control die milling machine of the present invention;

FIG. 2 is a schematic structural view of the worktable and the clamp of the present invention;

fig. 3 is a schematic structural view of the scrap collecting groove of the present invention.

Detailed Description

The utility model provides a numerical control die milling machine, it is following right the embodiment of the utility model provides a numerical control die milling machine introduces.

Referring to fig. 1 to 3, an embodiment of the present invention provides a numerical control die milling machine, including a workbench 100, a first chip collecting plate 200, a second chip collecting plate 300, a third chip collecting plate 400 and a fixed fourth chip collecting plate 500, which are respectively movable, a milling cutter 700 is disposed above the workbench 100, the fourth chip collecting plate 500 is fixedly mounted on the ground, the third chip collecting plate 400 is disposed on the upper surface of the fourth chip collecting plate 500, the second chip collecting plate 300 is disposed on the upper surface of the third chip collecting plate 400, the first chip collecting plate 200 is disposed on the upper surface of the second chip collecting plate 300, and the workbench 100 is disposed on the upper surface of the first chip collecting plate 200; the length of the fourth chip collecting plate 500 is greater than that of the third chip collecting plate 400, the length of the third chip collecting plate 400 is greater than that of the second chip collecting plate 300, the length of the second chip collecting plate 300 is greater than that of the first chip collecting plate 200, and the length of the first chip collecting plate 200 is greater than that of the workbench 100; the workbench 100, the first chip collecting plate 200, the second chip collecting plate 300 and the third chip collecting plate 400 are respectively connected with an electric cylinder 902; blocking blocks 903 are respectively arranged at the edge of the upper surface of the first chip collecting plate 200, the edge of the upper surface of the second chip collecting plate 300, the edge of the upper surface of the third chip collecting plate 400 and the edge of the upper surface of the fourth chip collecting plate 500; chip collecting grooves 800 are respectively formed in two sides of the workbench 100 and one end of the fourth chip collecting plate 500, screws 810 are arranged in the chip collecting grooves 800, the screws 810 are connected with motors 820, and one ends of the chip collecting grooves 800 are connected with chip pumping machines 901.

Since a large amount of chips are generated in the process of cutting or grinding the mold by the milling cutter 700, and the falling range of the chips is wide, if the chips are not processed in time, the chips are accumulated for a long time, which may cause certain abrasion to the machine, in this embodiment, the first chip collecting plate 200, the second chip collecting plate 300, the third chip collecting plate 400 and the fourth chip collecting plate 500 are sequentially disposed below the worktable 100, the electric cylinders 902 are respectively connected to the same ends of the worktable 100, the first chip collecting plate 200, the second chip collecting plate 300 and the third chip collecting plate 400, the upper surfaces of the first chip collecting plate 200, the second chip collecting plate 300, the third chip collecting plate 400 and the fourth chip collecting plate 500 are smooth 902, so that the worktable 100, the first chip collecting plate 200, the second chip collecting plate 300 and the third chip collecting plate 400 can be respectively driven by the electric cylinders 902 to slide linearly in the same direction, and the electric cylinders 902 can be started and stopped at any position, therefore, the workbench 100, the first chip collecting plate 200, the second chip collecting plate 300 and the third chip collecting plate 400 can slide more flexibly. In this embodiment, the first chip collecting plate 200, the second chip collecting plate 300, the third chip collecting plate 400 and the fourth chip collecting plate 500 have the same width, and the two sides are aligned with each other and stacked together, so that the chips can be pushed down relatively thoroughly and sequentially and finally collected in the chip collecting groove 800 at one end of the fourth chip collecting plate 500. In addition, the length of the fourth chip collecting plate 500 is greater than that of the third chip collecting plate 400, the length of the third chip collecting plate 400 is greater than that of the second chip collecting plate 300, the length of the second chip collecting plate 300 is greater than that of the first chip collecting plate 200, and the length of the first chip collecting plate 200 is greater than that of the workbench 100, so that normal sliding of the workbench 100, the first chip collecting plate 200, the second chip collecting plate 300 and the third chip collecting plate 400 can be ensured. Meanwhile, the edge of the upper surface of the first chip collecting plate 200, the edge of the upper surface of the second chip collecting plate 300, the edge of the upper surface of the third chip collecting plate 400 and the edge of the upper surface of the fourth chip collecting plate 500 are respectively provided with a blocking block 903, and the arrangement of the blocking block 903 can prevent the workbench 100, the first chip collecting plate 200, the second chip collecting plate 300 and the third chip collecting plate 400 from being separated from the sliding plane in the sliding process. In addition, a motor 820 connected to the screw 810 can drive the screw 810 to rotate, and the screw 810 drives the debris in the debris collecting groove 800 to move in the rotating operation and finally gather at the debris extractor 901, and the debris is extracted by the debris extractor 901. In this embodiment, when the milling cutter 700 performs cutting processing on the mold, the worktable 100, the first chip collecting plate 200, the second chip collecting plate 300, and the third chip collecting plate 400 are all fixed; after the milling cutter 700 finishes processing the die, the working table 100, the first chip collecting plate 200, the second chip collecting plate 300 and the third chip collecting plate 400 are controlled by the electric cylinder 902 to slide linearly in the same direction, and the sliding speed and multi-point positioning can be adjusted; the sliding of the workbench 100 on the first scrap collecting plate 200 can drive the chips on the first scrap collecting plate 200 to fall onto the second scrap collecting plate 300, the sliding of the first scrap collecting plate 200 on the second scrap collecting plate 300 can drive the chips on the second scrap collecting plate 300 to fall onto the third scrap collecting plate 400, the sliding of the second scrap collecting plate 300 on the third scrap collecting plate 400 can drive the chips on the third scrap collecting plate 400 to fall onto the fourth scrap collecting plate 500, and the sliding of the third scrap collecting plate 400 on the fourth scrap collecting plate 500 can drive the chips on the fourth scrap collecting plate 500 to fall onto the scrap collecting groove 800 at one end of the fourth scrap collecting plate 500; in addition, the chip collecting grooves 800 arranged at both sides of the worktable 100 are used for collecting chips falling at both sides of the worktable 100 when processing the mold; screw rod 810 in chip collecting groove 800 rotates under the drive of motor 820 to drive the piece and roll to take out bits machine 901 department, take out bits machine 901 and take away the piece again, consequently produced most piece when can in time clear up the processing mould voluntarily has alleviateed the wearing and tearing of piece to the machine on the one hand, and on the other hand has also alleviateed the producer and has cleaned clastic work load, needn't wait to clear up a large amount of pieces again in unison after work, improved work efficiency.

In addition, as another embodiment, a fifth chip collecting plate, a sixth chip collecting plate or more chip collecting plates can be added to the above embodiment according to actual needs.

Further, a clamp 110 for fixing the mold on the workbench 100 is arranged on the workbench 100, and the clamp 110 comprises a support column 111 and a clamping column 112; the supporting column 111 is a rectangular column, one end of the supporting column 111 is connected with the upper surface of the workbench 100, and the other end of the supporting column 111 is suspended; one end of the clamping column 112 is connected to the upper surface of the worktable 100, and the other end of the clamping column 112 is suspended and provided with a nut.

In this embodiment, the supporting column 111 is used for supporting a mold to be processed, and the clamping column 112 is used for clamping the mold. Before cutting the mold, the mold is placed on the support column 111 of the workbench 100, and since the support column 111 is a rectangular column and the upper surface is a plane, the mold can be placed on the support column 111 more stably, and in addition, the height of the support column 111 can be adjusted to place the mold at the optimal position, and then the mold is clamped by adjusting the clamping column 112; when adjusting the clamping post 112, the nut on the clamping post 112 is removed, then the position and height of the clamping post 112 are adjusted to place the clamping post 112 into the concave position of the mold, the nut is installed on the top end of the clamping post 112 and screwed, and finally the mold can be fixed on the workbench 100.

Further, still include portal frame 600, two stands of portal frame 600 set up respectively in the both sides of workstation 100, and milling cutter 700 installs on portal frame 600.

In this embodiment, the milling cutter 700 is arranged above the worktable 100 through the portal frame 600, so as to realize the processing of the milling cutter 700 on the mold on the worktable 100, two columns of the portal frame 600 are arranged at two sides of the worktable 100, and the portal frame 600 spans above the worktable 100, on one hand, the movement of the worktable 100 is not affected, and on the other hand, the portal frame 600 is convenient and quick to install and disassemble; according to the needs, pulleys and brake pads can be arranged at the bottom ends of the two upright posts of the portal frame 600, and guide rails are arranged, so that the sliding and fixing functions of the portal frame 600 are realized.

Further, a moving device 610 for moving the milling cutter 700 is disposed on the gantry 600, and the moving device 610 is connected with the milling cutter 700.

In this embodiment, the moving device 610 is arranged to enable the milling cutter 700 to move horizontally and lift on the gantry 600, and before the mold is machined, the position of the milling cutter 700 can be adjusted by the moving device 610, so that the milling cutter 700 can better contact with the mold, and the mold can be machined more accurately.

Further, the chip collecting groove 800 is provided with a chip outlet 830 at the end, and the chip outlet 830 is connected with the chip extractor 901 through a pipeline.

In this embodiment, the rotation of the screw 810 drives the chips to be gathered at the end of the chip collecting groove 800, and the chip outlet 830 is disposed at the end of the chip collecting groove 800 and connected to the chip extractor 901, so as to facilitate the chip extractor 901 to extract the gathered chips.

Further, the chip collecting groove 800 is a square groove.

In this embodiment, the chip collecting groove 800 is a square groove, which can facilitate the placement and rotation of the screw 810, and the screw 810 rotates and moves under the driving of the motor 820, so as to drive the chips in the chip collecting groove 800 to move towards the chip outlet 830, and finally the chips are gathered at the chip outlet 830 and are pumped away by the chip pumping machine 901, so that most of the chips generated during the mold processing can be cleaned, and the wear of the chips to the machine is reduced.

Further, the first chip collecting plate 200, the second chip collecting plate 300, the third chip collecting plate 400 and the fourth chip collecting plate 500 are all steel plates.

In this embodiment, when the first chip collecting plate 200, the second chip collecting plate 300, the third chip collecting plate 400 and the fourth chip collecting plate 500 are all made of steel plates, they are relatively wear-resistant, and the upper surfaces thereof are smooth, so that they are beneficial to sliding.

Further, the height of the stopper 903 is smaller than the thickness of the table 100, the thickness of the first chip collecting plate 200, the thickness of the second chip collecting plate 300, and the thickness of the third chip collecting plate 400, respectively.

In this embodiment, the blocking block 903 is provided to prevent the workbench 100, the first chip collecting plate 200, the second chip collecting plate 300, and the third chip collecting plate 400 from departing from the sliding plane, and the blocking block 903 is provided to have a smaller volume so that the normal operation of the workbench 100, the first chip collecting plate 200, the second chip collecting plate 300, and the third chip collecting plate 400 is not affected.

The above description is only a preferred embodiment of the present invention, and the present invention is not limited to the above embodiment, and the technical effects of the present invention can be achieved by the same means, which all belong to the protection scope of the present invention.

Claims (8)

1. The utility model provides a numerical control die milling machine which characterized in that: the milling cutter is arranged above the workbench, the fourth chip collecting plate is fixedly arranged on the ground, the third chip collecting plate is arranged on the upper surface of the fourth chip collecting plate, the second chip collecting plate is arranged on the upper surface of the third chip collecting plate, the first chip collecting plate is arranged on the upper surface of the second chip collecting plate, and the workbench is arranged on the upper surface of the first chip collecting plate; the length of the fourth chip collecting plate is greater than that of the third chip collecting plate, the length of the third chip collecting plate is greater than that of the second chip collecting plate, the length of the second chip collecting plate is greater than that of the first chip collecting plate, and the length of the first chip collecting plate is greater than that of the workbench; the workbench, the first chip collecting plate, the second chip collecting plate and the third chip collecting plate are respectively connected with an electric cylinder; blocking blocks are respectively arranged at the edge of the upper surface of the first chip collecting plate, the edge of the upper surface of the second chip collecting plate, the edge of the upper surface of the third chip collecting plate and the edge of the upper surface of the fourth chip collecting plate; the both sides of workstation with the one end of fourth collection bits board is provided with the chip groove respectively, be provided with the screw rod in the chip groove, the screw rod is connected with the motor, the one end of chip groove is connected with takes out the bits machine.

2. A numerically controlled die milling machine according to claim 1, wherein: the workbench is provided with a clamp for fixing the die on the workbench, and the clamp comprises a support column and a clamping column; the supporting column is a rectangular column body, one end of the supporting column is connected with the upper surface of the workbench, and the other end of the supporting column is suspended in the air; one end of the clamping column is connected with the upper surface of the workbench, and the other end of the clamping column is suspended and provided with a nut.

3. A numerically controlled die milling machine according to claim 1, wherein: the milling cutter is characterized by further comprising a portal frame, wherein two upright columns of the portal frame are arranged on two sides of the workbench respectively, and the milling cutter is arranged on the portal frame.

4. A numerically controlled die milling machine according to claim 3, wherein: and a moving device for moving the milling cutter is arranged on the portal frame, and the moving device is connected with the milling cutter.

5. A numerically controlled die milling machine according to claim 1, wherein: the tail end of the chip collecting groove is provided with a chip outlet, and the chip outlet is connected with the chip pumping machine through a pipeline.

6. A numerically controlled die milling machine according to claim 1, wherein: the chip collecting groove is a square groove.

7. A numerically controlled die milling machine according to claim 1, wherein: the first chip collecting plate, the second chip collecting plate, the third chip collecting plate and the fourth chip collecting plate are all steel plates.

8. A numerically controlled die milling machine according to claim 1, wherein: the height of the blocking block is respectively smaller than the thickness of the workbench, the thickness of the first chip collecting plate, the thickness of the second chip collecting plate and the thickness of the third chip collecting plate.

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