CN211840976U - Processing device for 5G base station shell - Google Patents

Processing device for 5G base station shell Download PDF

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Publication number
CN211840976U
CN211840976U CN201922263589.5U CN201922263589U CN211840976U CN 211840976 U CN211840976 U CN 211840976U CN 201922263589 U CN201922263589 U CN 201922263589U CN 211840976 U CN211840976 U CN 211840976U
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axis
lead screw
guide rail
base
base station
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CN201922263589.5U
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Chinese (zh)
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林洪然
张金鹤
陈攀
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Ningbo Haitian Precision Machinery Co Ltd
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Ningbo Haitian Precision Machinery Co Ltd
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Abstract

The utility model discloses a processingequipment of 5G base station casing, including workstation, revolving platform, slide, base, headstock, main shaft, tool magazine and stand, but the workstation side-to-side slip is installed on the slide, and the slide can be installed on the base with sliding around, and the revolving platform is used for the clamping to treat the 5G base station casing of processing, and revolving platform fixed mounting is on the workstation, and the headstock can be installed on the stand with sliding from top to bottom, and the headstock is located the top of workstation, and the main shaft is installed in the headstock, and the tool magazine is installed on the stand. The processing device can rotate and process four side surfaces of the 5G base station shell on the premise of one-time clamping, and improves the processing efficiency and the processing precision of the 5G base station shell. Compared with the traditional horizontal rotary worktable, the processing device can greatly reduce the processing cost of the machine tool; compared with the traditional vertical machining center with a rotary worktable additionally arranged on the table top, the machining device can reduce the requirements on the height of the main shaft and the width of the worktable.

Description

Processing device for 5G base station shell
Technical Field
The utility model relates to a numerical control processingequipment specifically is a processingequipment of 5G basic station casing.
Background
With the development of 5G technology, the demand for 5G base station construction is increasing, and the 5G base station housing is also becoming larger, for example, the 5G base station housing is a box-type structure, the overall size of the housing can be about 860mm × 400mm × 150mm, and the front surface and the four peripheral surfaces (i.e., the four side surfaces) of the housing need to be subjected to surface processing and hole processing. For the front processing, the traditional drilling and tapping center which can be used for one-meter vertical machining or meets the stroke can meet the processing requirement, and for the four peripheral surface processing of the shell, the vertical processing center is used for processing one surface by one surface in sequence, or the horizontal processing center with a large enough rotary table surface is used for processing.
Divide the preface, with many vertical machining centers processing 5G basic station casing all around, need many times clamping, can reduce casing machining efficiency by a wide margin, unsatisfied batch processing's demand. And four peripheral surfaces of the shell are machined by using the horizontal machining center, so that the overall equipment cost is high, the machining cost of the shell is increased, and the market competitiveness of the product is reduced.
And the traditional vertical machining center in the current market is selected as the machining mode, a rotary worktable is additionally arranged on the table top, and then a 5G base station shell is clamped on the rotary worktable to machine the four peripheral surfaces of the base station shell. The shell needs to be turned over on the rotary worktable, the mounting position of the whole shell is required to be higher, correspondingly, the distance from the nose end of the spindle of the vertical machining center to the worktable surface needs to be increased to more than 1100mm, and the height of the upright column needs to be increased by about 400 mm. For a vertical machining center, the high upright column not only increases the overall cost of the machine tool, but also puts higher requirements on the rigidity of the upright column, and has greater adverse effects on the stability of the machining precision of the machine tool.
Disclosure of Invention
The utility model aims to solve the technical problem that, to prior art not enough, provide a processingequipment of 5G basic station casing, this processingequipment can realize improving the machining efficiency and the machining precision of 5G basic station casing to the rotation and the processing of four sides of 5G basic station casing under the prerequisite of clamping.
The utility model provides a technical scheme that above-mentioned technical problem adopted does: the utility model provides a processingequipment of 5G basic station casing, includes workstation, revolving platform, slide, base, headstock, main shaft, tool magazine and stand, the workstation can install with the horizontal slip the slide on, the slide can install with sliding around on the base, the revolving platform be used for the clamping to treat the 5G basic station casing of processing, revolving platform fixed mounting in the workstation on, the headstock can install with sliding from top to bottom on the stand, the headstock be located the top of workstation, the main shaft install the headstock in, the tool magazine install the stand on.
Before processing, the 5G base station shell to be processed is clamped on the rotary table, and the sliding seat and the working table move together, so that one side face of the 5G base station shell can be processed. After the side face machining is completed, the sliding seat and the workbench are moved to the front end of the machining device together to avoid the rotary table, then 90-degree rotation of the rotary table and tool changing action of the tool magazine are completed, then the sliding seat and the workbench are moved to reset, the other side face of the 5G base station shell is machined, and the machining of the four side faces of the 5G base station shell is finally achieved after the sliding seat and the workbench are moved repeatedly.
This processingequipment of 5G basic station casing can realize the rotation and the processing to four sides of 5G basic station casing under the prerequisite of a clamping, improves the machining efficiency and the machining precision of 5G basic station casing. Compared with a traditional horizontal rotary worktable, the machining device for the 5G base station shell can be used for clamping and machining at one time, and the machining cost of a machine tool can be greatly reduced. Compared with the traditional vertical machining center with a rotary worktable additionally arranged on the table board, the machining device of the 5G base station shell can reduce the requirement on the height of the main shaft, so that the height of the main shaft can be reduced by at least 200mm, and meanwhile, the worktable of the machining device of the 5G base station shell can have smaller width size, and the requirement of the main shaft on the whole machining stroke of the 5G base station shell is met.
Preferably, an X-axis lead screw driving mechanism, an X-axis sliding block and an X-axis guide rail are arranged between the workbench and the sliding seat, the X-axis lead screw driving mechanism comprises an X-axis servo motor, an X-axis lead screw and an X-axis nut, the X-axis lead screw is arranged along the X-axis direction of the processing device, one end of the X-axis lead screw is connected with the output end of the X-axis servo motor through an X-axis coupler, the other end of the X-axis lead screw is arranged on the sliding seat, the X-axis nut is sleeved on the X-axis lead screw, the X-axis screw nut is fixedly connected with the bottom of the workbench, the X-axis guide rail is horizontally arranged on the sliding seat, the X-axis guide rail and the X-axis leading screw are arranged in parallel, and the X-axis sliding block is arranged on the X-axis guide rail and fixed at the bottom of the workbench. During operation, the X-axis servo motor drives the X-axis lead screw to rotate, power is transmitted through the X-axis nut, the X-axis sliding block moves on the X-axis guide rail, and the workbench slides left and right on the sliding seat.
Preferably, the slide and the base between which a Y-axis lead screw driving mechanism, a Y-axis slider and a Y-axis guide rail are installed, the Y-axis lead screw driving mechanism comprises a Y-axis servo motor, a Y-axis lead screw and a Y-axis nut, the Y-axis lead screw is arranged along the Y-axis direction of the processing device, one end of the Y-axis lead screw is connected with the output end of the Y-axis servo motor through a Y-axis coupler, the other end of the Y-axis lead screw is installed on the base, the Y-axis nut is sleeved on the Y-axis lead screw, the Y-axis nut is fixedly connected with the bottom of the slide, the Y-axis guide rail is horizontally installed on the base, the Y-axis guide rail is arranged in parallel with the Y-axis lead screw, and the Y-axis slider is installed on the Y-axis guide rail and fixed at the bottom of the slide. During operation, the Y-axis servo motor drives the Y-axis lead screw to rotate, power is transmitted through the Y-axis nut, the Y-axis sliding block moves on the Y-axis guide rail, and the sliding seat slides back and forth on the base.
Preferably, a Z-axis screw driving mechanism, a Z-axis slide block and a Z-axis guide rail are arranged between the main spindle box and the upright post, the Z-axis lead screw driving mechanism comprises a Z-axis servo motor, a Z-axis lead screw and a Z-axis nut, the Z-axis lead screw is arranged along the Z-axis direction of the processing device, one end of the Z-axis screw rod is connected with the output end of the Z-axis servo motor through a Z-axis coupler, the other end of the Z-axis screw rod is arranged on the upright post, the Z-axis screw nut is sleeved on the Z-axis screw rod, the Z-axis screw nut is fixedly connected with the outer wall of the spindle box, the Z-axis guide rail is vertically arranged on the upright post, the Z-axis guide rail and the Z-axis leading screw are arranged in parallel, and the Z-axis sliding block is arranged on the Z-axis guide rail and fixed on the outer wall of the spindle box. During operation, the Z-axis servo motor drives the Z-axis screw rod to rotate, power is transmitted through the Z-axis nut, the Z-axis sliding block moves on the Z-axis guide rail, and the spindle box slides up and down on the stand column.
Preferably, a telescopic X-axis protective pulling plate is arranged between the workbench and the sliding seat, one end of the X-axis protective pulling plate is fixed on the workbench, and the other end of the X-axis protective pulling plate is fixed on the sliding seat; a telescopic Y-axis protective pulling plate is arranged between the sliding seat and the base, one end of the Y-axis protective pulling plate is fixed on the sliding seat, and the other end of the Y-axis protective pulling plate is fixed on the base; the telescopic Z-axis protective pulling plate is arranged between the spindle box and the upright post, one end of the Z-axis protective pulling plate is fixed on the spindle box, and the other end of the Z-axis protective pulling plate is fixed on the upright post. When the workbench slides left and right on the sliding seat, the X-axis protective pull plate slides left and right along with the workbench and stretches, so that the sliding seat is protected; when the sliding seat slides back and forth on the base, the Y-axis protective pull plate slides back and forth along with the sliding seat and stretches, so that the base is protected; when the spindle box slides up and down on the upright post, the Z-axis protective pull plate slides up and down along with the spindle box and stretches out and draws back, so that the upright post is protected. In the 5G base station shell processing process of the processing device, the X-axis protective pull plate, the Y-axis protective pull plate and the Z-axis protective pull plate can play a good protective effect.
Compared with the prior art, the utility model has the advantages of as follows: the utility model discloses a processingequipment of 5G basic station casing can realize improving the machining efficiency and the machining precision of 5G basic station casing to the rotation and the processing of four sides of 5G basic station casing under the prerequisite of clamping. Compared with a traditional horizontal rotary worktable, the machining device for the 5G base station shell can be used for clamping and machining at one time, and the machining cost of a machine tool can be greatly reduced. Compared with the traditional vertical machining center with a rotary worktable additionally arranged on the table board, the machining device of the 5G base station shell can reduce the requirement on the height of the main shaft, so that the height of the main shaft can be reduced by at least 200mm, and meanwhile, the worktable of the machining device of the 5G base station shell can have smaller width size, and the requirement of the main shaft on the whole machining stroke of the 5G base station shell is met.
Drawings
FIG. 1 is a front view of a processing apparatus of a base station case of 5G in the embodiment;
FIG. 2 is a partial cross-sectional view of the structure corresponding to FIG. 1;
FIG. 3 is a left side view of a machining device of a housing of a 5G base station in the embodiment;
fig. 4 is a partial structural sectional view corresponding to fig. 3.
Detailed Description
The present invention will be described in further detail with reference to the following embodiments.
The 5G base station housing processing device of the embodiment, as shown in fig. 1 to 4, includes a table 1, a turntable 2, a slide base 3, a base 4, a headstock 5, a spindle 6, a tool magazine 7 and a column 8, the table 1 is slidably mounted on the slide base 3 from left to right, the slide base 3 is slidably mounted on the base 4 from front to back, the turntable 2 is used for clamping a 5G base station housing 9 to be processed, the turntable 2 is fixedly mounted on the table 1, the headstock 5 is slidably mounted on the column 8 from top to bottom, the headstock 5 is located above the table 1, the spindle 6 is mounted in the headstock 5, and the tool magazine 7 is mounted on the column 8.
In the embodiment, an X-axis lead screw driving mechanism, an X-axis slider 31 and an X-axis guide rail 32 are installed between a workbench 1 and a slide carriage 3, the X-axis lead screw driving mechanism comprises an X-axis servo motor 33, an X-axis lead screw 34 and an X-axis nut 35, the X-axis lead screw 34 is arranged along the X-axis direction of a processing device, one end of the X-axis lead screw 34 is connected with the output end of the X-axis servo motor 33 through an X-axis coupler 36, the other end of the X-axis lead screw 34 is installed on the slide carriage 3, the X-axis nut 35 is sleeved on the X-axis lead screw 34, the X-axis nut 35 is fixedly connected with the bottom of the workbench 1, the X-axis guide rail 32 is horizontally installed on the slide carriage 3, the X-axis guide rail 32 is arranged in parallel with the X-axis lead screw 34, and the X-axis slider 31 is installed on; a Y-axis lead screw driving mechanism, a Y-axis sliding block 41 and a Y-axis guide rail 42 are arranged between the sliding seat 3 and the base 4, the Y-axis lead screw driving mechanism comprises a Y-axis servo motor 43, a Y-axis lead screw 44 and a Y-axis nut 45, the Y-axis lead screw 44 is arranged along the Y-axis direction of the processing device, one end of the Y-axis lead screw 44 is connected with the output end of the Y-axis servo motor 43 through a Y-axis coupler 46, the other end of the Y-axis lead screw 44 is arranged on the base 4, the Y-axis nut 45 is sleeved on the Y-axis lead screw 44, the Y-axis nut 45 is fixedly connected with the bottom of the sliding seat 3, the Y-axis guide rail 42 is horizontally arranged on the base 4, the Y-axis guide rail 42 is arranged in parallel to the Y-axis lead screw 44, and the Y-axis sliding block; a Z-axis lead screw driving mechanism, a Z-axis sliding block 51 and a Z-axis guide rail 52 are installed between the spindle box 5 and the upright post 8, the Z-axis lead screw driving mechanism comprises a Z-axis servo motor 53, a Z-axis lead screw 54 and a Z-axis nut 55, the Z-axis lead screw 54 is arranged along the Z-axis direction of the machining device, one end of the Z-axis lead screw 54 is connected with the output end of the Z-axis servo motor 53 through a Z-axis coupler 56, the other end of the Z-axis lead screw 54 is installed on the upright post 8, the Z-axis nut 55 is sleeved on the Z-axis lead screw 54, the Z-axis nut 55 is fixedly connected with the outer wall of the spindle box 5, the Z-axis guide rail 52 is vertically installed on the upright post 8, the Z-axis guide rail 52 and the Z-axis lead screw 54 are arranged in parallel, and the Z-.
In the embodiment, a telescopic X-axis protective pulling plate 10 is arranged between the workbench 1 and the sliding seat 3, one end of the X-axis protective pulling plate 10 is fixed on the workbench 1, and the other end is fixed on the sliding seat 3; a telescopic Y-axis protective pulling plate 30 is arranged between the sliding seat 3 and the base 4, one end of the Y-axis protective pulling plate 30 is fixed on the sliding seat 3, and the other end is fixed on the base 4; a telescopic Z-axis protective pulling plate 50 is arranged between the spindle box 5 and the upright post 8, one end of the Z-axis protective pulling plate 50 is fixed on the spindle box 5, and the other end is fixed on the upright post 8.
Before processing, the 5G base station shell 9 to be processed is clamped on the rotary table 2, and the sliding base 3 and the workbench 1 move together, so that one side surface of the 5G base station shell 9 can be processed. After the side face machining is completed, the sliding seat 3 and the workbench 1 are moved to the front end of the machining device together to avoid the rotary table 2, the 90-degree rotation of the rotary table 2 and the tool changing action of the tool magazine 7 are completed, then the sliding seat 3 and the workbench 1 are moved and reset to machine the other side face of the 5G base station shell 9, and the machining is repeated so as to finally realize the machining of four side faces of the 5G base station shell 9. The circular line D in fig. 1 is the outside diameter of revolution of the 5G base station case 9.

Claims (5)

1. The utility model provides a processingequipment of 5G basic station casing, its characterized in that includes workstation, revolving platform, slide, base, headstock, main shaft, tool magazine and stand, the workstation can install with sliding left and right on the slide, the slide can install with sliding front and back on the base, the revolving platform be used for the clamping to treat the 5G basic station casing of processing, the revolving platform fixed mounting in the workstation on, the headstock can install with sliding up and down on the stand, the headstock be located the top of workstation, the main shaft install in the headstock, the tool magazine install on the stand.
2. The device for processing 5G base station shell according to claim 1, an X-axis lead screw driving mechanism, an X-axis sliding block and an X-axis guide rail are arranged between the workbench and the sliding seat, the X-axis lead screw driving mechanism comprises an X-axis servo motor, an X-axis lead screw and an X-axis nut, the X-axis lead screw is arranged along the X-axis direction of the processing device, one end of the X-axis lead screw is connected with the output end of the X-axis servo motor through an X-axis coupler, the other end of the X-axis lead screw is arranged on the sliding seat, the X-axis nut is sleeved on the X-axis lead screw, the X-axis screw nut is fixedly connected with the bottom of the workbench, the X-axis guide rail is horizontally arranged on the sliding seat, the X-axis guide rail and the X-axis leading screw are arranged in parallel, and the X-axis sliding block is arranged on the X-axis guide rail and fixed at the bottom of the workbench.
3. The device for processing 5G base station shell according to claim 1, a Y-axis lead screw driving mechanism, a Y-axis sliding block and a Y-axis guide rail are arranged between the sliding seat and the base, the Y-axis lead screw driving mechanism comprises a Y-axis servo motor, a Y-axis lead screw and a Y-axis nut, the Y-axis lead screw is arranged along the Y-axis direction of the processing device, one end of the Y-axis screw rod is connected with the output end of the Y-axis servo motor through a Y-axis coupler, the other end of the Y-axis screw is arranged on the base, the Y-axis nut is sleeved on the Y-axis screw, the Y-axis screw nut is fixedly connected with the bottom of the sliding seat, the Y-axis guide rail is horizontally arranged on the base, the Y-axis guide rail and the Y-axis leading screw are arranged in parallel, and the Y-axis sliding block is arranged on the Y-axis guide rail and fixed at the bottom of the sliding seat.
4. The device for processing 5G base station shell according to claim 1, a Z-axis lead screw driving mechanism, a Z-axis sliding block and a Z-axis guide rail are arranged between the spindle box and the upright post, the Z-axis lead screw driving mechanism comprises a Z-axis servo motor, a Z-axis lead screw and a Z-axis nut, the Z-axis lead screw is arranged along the Z-axis direction of the processing device, one end of the Z-axis screw rod is connected with the output end of the Z-axis servo motor through a Z-axis coupler, the other end of the Z-axis screw rod is arranged on the upright post, the Z-axis screw nut is sleeved on the Z-axis screw rod, the Z-axis screw nut is fixedly connected with the outer wall of the spindle box, the Z-axis guide rail is vertically arranged on the upright post, the Z-axis guide rail and the Z-axis leading screw are arranged in parallel, and the Z-axis sliding block is arranged on the Z-axis guide rail and fixed on the outer wall of the spindle box.
5. The processing device of a 5G base station shell as claimed in claim 1, wherein a telescopic X-axis protective pulling plate is installed between the workbench and the sliding base, one end of the X-axis protective pulling plate is fixed on the workbench, and the other end of the X-axis protective pulling plate is fixed on the sliding base; a telescopic Y-axis protective pulling plate is arranged between the sliding seat and the base, one end of the Y-axis protective pulling plate is fixed on the sliding seat, and the other end of the Y-axis protective pulling plate is fixed on the base; the telescopic Z-axis protective pulling plate is arranged between the spindle box and the upright post, one end of the Z-axis protective pulling plate is fixed on the spindle box, and the other end of the Z-axis protective pulling plate is fixed on the upright post.
CN201922263589.5U 2019-12-17 2019-12-17 Processing device for 5G base station shell Active CN211840976U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201922263589.5U CN211840976U (en) 2019-12-17 2019-12-17 Processing device for 5G base station shell

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201922263589.5U CN211840976U (en) 2019-12-17 2019-12-17 Processing device for 5G base station shell

Publications (1)

Publication Number Publication Date
CN211840976U true CN211840976U (en) 2020-11-03

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ID=73215975

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201922263589.5U Active CN211840976U (en) 2019-12-17 2019-12-17 Processing device for 5G base station shell

Country Status (1)

Country Link
CN (1) CN211840976U (en)

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