CN218532942U - Reinforcing mullion machining sawing and milling center and machining system - Google Patents

Abstract

The utility model provides a saw milling center and a processing system for strengthening muntin processing, which relate to the field of door and window processing, and comprise a frame, wherein the frame is horizontally connected with a first X-axis sliding plate and a second X-axis sliding plate through X-axis sliding rails, the first X-axis sliding plate is horizontally connected with a first Y-axis sliding plate through a first Y-axis sliding rail, the first Y-axis sliding plate is vertically connected with a first Z-axis sliding plate through a first Z-axis sliding rail, the first Z-axis sliding plate is provided with a first milling cutter motor, and the output end of the first milling cutter motor is provided with a vertical milling cutter; the X-axis sliding plate II is horizontally and slidably connected with a Y-axis sliding plate II through a Y-axis sliding rail II, the Y-axis sliding plate II is vertically and slidably connected with a Z-axis sliding plate II through a Z-axis sliding rail II, a milling cutter motor II is arranged on the Z-axis sliding plate II, and a flat milling cutter is arranged at the output end of the milling cutter motor II. The beneficial effects of the utility model reside in that, it not only can carry out nimble processing to the section bar, still has blade degree of freedom high, application scope broad grade of excellence ability.

Description

Reinforcing mullion machining sawing and milling center and machining system

Technical Field

The utility model relates to a door and window processing field, concretely relates to club processing is with sawing and milling center and system of processing in strengthening.

Background

In order to solve the problem that the traditional aluminum alloy profile sawing and milling mode is low in efficiency, a sawing and milling system and a method are provided in chinese patent CN112658684A, however, in the sawing and milling system provided in the patent, because only the end milling blade in the sawing component can move three-dimensionally and the sawing blade can only move in one direction, when some mullions with special types are machined, especially when the reinforced mullion shown in fig. 1 is machined, because the reinforced mullion mainly keeps the upper reinforced part and mills the conventional part of the bottom, the vertical milling cutter is required to have a cutting function, and the vertical milling cutter also needs to sink to the bottom of the profile to cut the bottom of the profile, and the sawing and milling system provided in chinese patent CN112658684A cannot machine the reinforced mullion. Accordingly, there is a need for a sawing and milling center and a processing system for strengthening the mullion processing, which can flexibly process the section bar, and have a large degree of freedom of the blade and a wide application range.

SUMMERY OF THE UTILITY MODEL

The utility model provides a technical problem provide one kind can carry out nimble processing to the section bar, and club processing is with sawing and milling center and system of processing in the enhancement that the blade degree of freedom is many, application scope is wide.

In order to solve the technical problem, on the one hand, the utility model provides a sawing and milling center for processing reinforced muntin, which comprises a rack, wherein the rack is horizontally and slidably connected with a first X-axis sliding plate and a second X-axis sliding plate through an X-axis sliding rail, the first X-axis sliding plate is horizontally and slidably connected with a first Y-axis sliding plate through a first Y-axis sliding rail in a direction perpendicular to the X-axis sliding rail, the first Y-axis sliding plate is vertically and slidably connected with a first Z-axis sliding plate through a first Z-axis sliding rail, the first Z-axis sliding plate is provided with a first milling cutter motor, and the output end of the first milling cutter motor is provided with an end milling cutter; the X-axis sliding plate II is horizontally connected with a Y-axis sliding plate II through a Y-axis sliding rail II along the direction perpendicular to the X-axis sliding rail, the Y-axis sliding plate II is vertically connected with a Z-axis sliding plate II through a Z-axis sliding rail II in a sliding manner, a milling cutter motor II is arranged on the Z-axis sliding plate II, and a flat milling cutter is arranged at the output end of the milling cutter motor II. In the process of machining the muntin, especially in the process of machining the reinforced muntin shown in fig. 1, because the flat milling cutter and the end milling cutter of the sawing and milling center provided by the utility model both have three degrees of freedom and are independent of each other, the positions of the flat milling cutter and the end milling cutter can be flexibly adjusted, and the end milling cutter can move to the lower part of the added type material to mill the conventional part at the bottom of the added type material; and simultaneously, the utility model discloses can also reduce the processing stroke of flat milling cutter and end mill, and then improve machining efficiency to and improve the whole scope of processing of sawing and milling center.

Further, the frame has set gradually fixed work platform and movable table along the length direction of X axle slide rail, fixed work platform demountable installation is in the frame, movable table is in the frame along the horizontal sliding connection of length direction of X axle slide rail, like this in the course of working, the utility model discloses the position of accessible removal movable table changes the distance between fixed work platform and the movable table, and then reserves the processing space for flat milling cutter to it processes the tip of the I-shaped material that adds, mills the tongue-and-groove promptly.

Furthermore, the X-axis sliding plate I and the fixed workbench are positioned on the feeding side of the rack, the X-axis sliding plate II and the movable workbench are positioned on the discharging side of the rack, at the moment, after the section is conveyed to the fixed workbench, the utility model can firstly move the movable workbench to a position far away from the fixed workbench, then utilize the end mill to carry out the operations of head alignment and end face cutting on the end part of the section, then move the end mill and carry out the operation of cross section cutting on the section, and move the section to one side of the fixed workbench after finishing the action of cross section cutting, thereby reserving a processing space for the flat milling cutter; then moving the flat milling cutter to a specified position, and processing the corresponding end face on the section by using the flat milling cutter, such as section milling, mortise milling and the like; after the processing is finished, the movable workbench moves towards the direction close to the fixed workbench by the forerunner, and after the movable workbench moves to a specified position, the following actions are sequentially repeated: 1) Feeding the processed section; 2) The end face cutting action is carried out by the end milling cutter; 3) Cutting the section by a vertical milling cutter; 4) After the end mill finishes cutting the section, moving the end mill to one side of the fixed workbench, and moving the movable workbench to the direction close to the fixed workbench, thereby reserving a processing space for the flat mill; 5) The flat milling cutter is used for processing the corresponding two end surfaces of the two sections of the section bars by milling the cross section, the mortise and the like; 6) The section bar after being processed is firstly subjected to blanking action, and then the movable workbench is driven to move towards the direction close to the fixed workbench.

Further, the end mill can be located below the fixed table and avoid the flat mill.

Further, all be provided with on fixed work platform and the activity workstation and compress tightly the subassembly to compress tightly fixedly the section bar through this subassembly that compresses tightly in the section bar course of working, take place to rock in order to avoid the section bar.

Further, the pressing assembly comprises a vertical plate, the vertical plate is installed on the fixed workbench or the movable workbench, a vertical pressing driving mechanism is arranged at the upper end of the vertical plate, an upper pressing plate is arranged at the output end of the vertical pressing driving mechanism, the upper pressing plate is arranged opposite to the fixed workbench or the movable workbench, and the vertical pressing driving mechanism can drive the upper pressing plate to vertically move, so that the upper pressing plate can vertically press and loosen the section.

Furthermore, the pressing assembly further comprises a horizontal pressing driving mechanism, a side pressing plate is arranged at the output end of the horizontal pressing driving mechanism, the side pressing plate is arranged opposite to the corresponding vertical plate, and the horizontal pressing driving mechanism can drive the side pressing plate to be close to or far away from the vertical plate, so that horizontal pressing action and releasing action are carried out on the section through the action of the side pressing plate.

Further, the feed side of frame is provided with feeding locating component, like this when the feeding, the utility model discloses this feeding locating component of accessible carries out accurate location to the tip that gets into the section bar at saw milling center to regard this position as the benchmark of follow-up all processing.

Furthermore, the discharge side of the rack is provided with a material dragging assembly, and after the machining is finished, the finished product after the machining is dragged to the discharge side through the material dragging assembly to be output.

On the other hand, the utility model also provides a club processing is with sawing and milling system in strengthening, a serial communication port, including foretell club processing is with sawing and milling center in strengthening still includes loading attachment and unloader, loading attachment sets up the feed side in the frame, unloader sets up the discharge side in the frame to carry out material loading action and unloading action respectively.

According to the technical scheme, the utility model has the advantages of it is following: firstly, the flat milling cutter and the end milling cutter in the sawing and milling center for processing the reinforced muntin have three degrees of freedom, are independent from each other, can flexibly adjust the positions of the flat milling cutter and the end milling cutter, move the end milling cutter to the lower part of the added type material, mill the conventional part at the bottom of the added type material, and further realize the processing of the reinforced muntin; meanwhile, the machining stroke of the flat milling cutter and the end milling cutter can be reduced, so that the machining efficiency is improved, and the machining range of the whole sawing and milling center is enlarged; secondly, the utility model provides a club processing is with sawing and milling the subassembly compact structure that compresses tightly that sets up in the center in strengthening, has greatly practiced thrift the frame inner space to flat milling cutter and end milling cutter's activity space has been widened.

Drawings

In order to more clearly illustrate the technical solution of the present invention, the drawings used in the description will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural view of a reinforcing mullion.

Fig. 2 is a first schematic structural diagram of embodiment 1 of the present invention.

Fig. 3 is an enlarged view of a portion a in fig. 2.

Fig. 4 is a second schematic structural diagram of embodiment 1 of the present invention.

Fig. 5 is a schematic structural diagram of embodiment 2 of the present invention.

In the figure: 1. the section bar comprises a section bar, 2, a section bar II, 3, a section bar I, 4, a rack, 5, an X-axis slide rail, 6, a Y-axis slide rail I, 7, a Z-axis slide plate I, 8, a Y-axis slide plate I, 9, an X-axis slide plate I, 10, a Z-axis slide plate II, 11, a Y-axis slide plate II, 12, a Y-axis slide rail II, 13, an X-axis slide plate II, 14, a dragging component, 15, an end mill, 16, a mill motor I, 17, a vertical pressing driving mechanism, 18, a vertical plate, 19, an upper pressing plate, 20, a horizontal pressing driving mechanism, 21, a fixed workbench, 22, a horizontal moving driving mechanism, 23, a movable workbench, 24, a flat mill, 25, a mill motor II, 26, a pressing component, 27, a feeding positioning component, 28, a feeding device, 29, a protective cover, 30 and a blanking device.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

Example 1

As shown in fig. 2 to 4, the present embodiment 1 provides a sawing and milling center for strengthening the mullion processing, which includes a frame 4, a horizontal X-axis slide rail 5 is disposed at an upper end of the frame 4, and the X-axis slide rail 5 is connected with a first X-axis slide plate 9 and a second X-axis slide plate 13 in sequence in a horizontal sliding manner along a feeding direction. The X-axis sliding plate I9 is provided with a horizontal Y-axis sliding rail I6, and is horizontally connected with a Y-axis sliding plate I8 in a sliding manner along a direction vertical to the X-axis sliding rail 5 through the Y-axis sliding rail I6; one side of the first Y-axis sliding plate 8 is provided with a first Z-axis sliding rail, the first Z-axis sliding plate 7 is vertically and slidably connected with the first Z-axis sliding plate 7 through the first Z-axis sliding rail, a first milling cutter motor 16 is arranged at the lower end of the first Z-axis sliding plate 7, and an end milling cutter 15 is arranged at the output end of the first milling cutter motor 16. The X-axis sliding plate II 13 is provided with a horizontal Y-axis sliding rail II 12, and is horizontally connected with a Y-axis sliding plate II 11 in a sliding manner through the Y-axis sliding rail II 12 along the direction vertical to the X-axis sliding rail 5; the second Y-axis sliding plate 11 is provided with a second vertical Z-axis sliding rail, the second Z-axis sliding plate 10 is connected to the second Z-axis sliding rail in a vertical sliding mode, a second milling cutter motor 25 is arranged at the lower end of the second Z-axis sliding plate 10, and a flat milling cutter 24 is arranged at the output end of the second milling cutter motor 25.

The middle part of the frame 4 is provided with a fixed workbench 21 and a movable workbench 23 in sequence along the feeding direction, namely along the length direction of the X-axis slide rail 5. Wherein, the fixed workbench 21 is detachably arranged on the frame 4; the movable working table 23 is horizontally connected to the frame 4 in a sliding manner along the length direction of the X-axis slide rail 5, and is connected with a horizontal movement driving mechanism 22 in a transmission manner. Furthermore, in order to facilitate the movement and operation of the end mill 15 and the flat mill 24, the present invention is also intended to arrange the end mill 15 below the fixed table 21 and the movable table 23, and the flat mill 24 is arranged above the fixed table 21 and the movable table 23.

In addition, in order to avoid the shaking of the section bar during the processing, the fixed workbench 21 and the movable workbench 23 are both provided with a pressing assembly 26. Specifically, taking the pressing assembly 26 on the fixed workbench 21 as an example, the pressing assembly 26 includes a vertical plate 18, the vertical plate 18 is mounted on the fixed workbench 21, a vertical pressing driving mechanism 17 is disposed at an upper end of the vertical plate 18, an upper pressing plate 19 is disposed at an output end of the vertical pressing driving mechanism 17, the upper pressing plate 19 is disposed opposite to the fixed workbench 21, and the vertical pressing driving mechanism 17 can drive the upper pressing plate 19 to vertically move, so that the upper pressing plate 19 is close to or far away from the fixed workbench 21, and pressing in a vertical direction is achieved; the pressing assembly 26 further comprises a horizontal pressing driving mechanism 20, the horizontal pressing driving mechanism 20 is mounted on the fixed workbench 21, a side pressing plate is arranged at the output end of the horizontal pressing driving mechanism 20 and is opposite to the corresponding vertical plate 18, and the horizontal pressing driving mechanism 20 can drive the side pressing plate to be close to or far away from the vertical plate 18 so as to realize pressing in the horizontal direction.

In addition, as a preferred mode, the feeding positioning assembly 27 is further arranged on the feeding side of the rack 4, the material dragging assembly 14 is arranged on the discharging side of the rack 4, and in the machining process, the section entering the sawing and milling center is preliminarily positioned through the feeding positioning assembly 27; and dragging the finished product after processing to a discharge side through the dragging assembly 14 for output.

Example 2

As shown in fig. 5, the present embodiment 2 provides a sawing and milling system for processing a reinforced mullion, which includes the sawing and milling center for processing a reinforced mullion described in embodiment 1, and a protection cover 29 is disposed outside the sawing and milling center for processing a reinforced mullion; the automatic feeding device is characterized by further comprising a feeding device 28 and a discharging device 30, wherein the feeding device 28 is arranged on the feeding side of the rack 4, and the discharging device 30 is arranged on the discharging side of the rack 4.

In addition, when the reinforcing mullion shown in fig. 1 is machined by using the embodiment 2, the specific machining flow is as follows:

firstly, moving a movable workbench 23 to a position far away from a fixed workbench 21, then conveying the end part of the section to the fixed workbench 21 through a feeding device 28, and compressing and fixing the section through a compressing assembly 26;

adjusting the position of the end mill 15, and enabling the end mill 15 to perform head aligning and end face cutting actions on one end, close to the discharge side of the sawing and milling center, of the section bar by means of forerunner; then, after the action is finished, driving the end mill 15 to move towards the direction away from the material discharging side of the sawing and milling center, and cutting a first section 3 into the section bar after the section bar reaches a specified position; after the first section 3 is finished, driving the end mill 15 to move downwards to the position below the fixed workbench 21, and reserving a movable space for the flat mill 24;

driving the flat milling cutter 24 to move downwards, and milling a second section 2 and a mortise at the end part of the section bar according to the program setting; after the corresponding machining is finished, driving the flat milling cutter 24 to move upwards;

fourthly, the movable workbench 23 is moved towards the direction close to the fixed workbench 21 by the precursor until the distance between the movable workbench 23 and the fixed workbench 21 is minimum; driving the feeding device 28 to continuously feed forward until the next cut of the section bar is positioned between the fixed workbench 21 and the movable workbench 23;

step five, the two groups of pressing assemblies 26 simultaneously press and fix the section, then the end mill 15 is driven to cut off the whole section, the cut-off section I3 is carried out on the two sections of materials formed after cutting, and the two sections of materials are moved to the position below the fixed workbench 21 after the two sections I3 are processed;

sixthly, driving the movable workbench 23 and the semi-finished product clamped by the movable workbench to move in the direction away from the fixed workbench 21 and giving up a position for the flat milling cutter 24;

seventhly, after the movable workbench 23 moves to a specified position, the movable workbench 23 is clamped by the material dragging assembly 14, then the flat milling cutter 24 is driven to move downwards, the end part of the semi-finished product on the discharging side is milled with the section II 2 and the mortise, and then the end part of the section on the feeding side is milled with the section II 2 and the mortise; after the corresponding processing is finished, the flat milling cutter 24 is driven to move upwards, and the dragging component 14 and the blanking device 30 are driven to perform blanking action;

step eight, repeating the step four to the step seven until the material tail of the whole section is processed;

step nine, the movable workbench 23 is moved towards the direction close to the fixed workbench 21 by the precursor until the distance between the movable workbench 23 and the fixed workbench 21 is minimum; driving the feeding device 28 to continue feeding forward until the last cut of the section is located between the fixed workbench 21 and the movable workbench 23;

step ten, the pressing component 26 on the movable workbench 23 is used for pressing and fixing the section bar, then the end milling cutter 15 is driven to cut and align the whole section bar, the cut semi-finished product on the movable workbench is subjected to the action of cutting the section one 3 after the cutting, and the semi-finished product is moved to the lower part of the fixed workbench 21 after the section one 3 is processed;

step eleven, the forerunner makes the movable workbench 23 and the semi-finished product clamped by the movable workbench move in the direction away from the fixed workbench 21 and gives way for the flat milling cutter 24; after the movable workbench 23 moves to a specified position, the material dragging component 14 is driven to clamp the semi-finished product on the movable workbench 23, then the flat milling cutter 24 is driven to move downwards, the operation of milling the second section 2 and the mortise is carried out on the end part of the semi-finished product clamped on the movable workbench 23, and after the corresponding processing is finished, the flat milling cutter 24 is driven to move upwards, and the material dragging component 14 and the blanking device 30 are driven to carry out blanking action.

The terms "first," "second," "third," "fourth," and the like in the description and in the claims, as well as in the drawings, if any, are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the invention described herein are capable of operation in sequences other than those illustrated or otherwise described herein. Furthermore, the terms "comprising" and "having," as well as any variations thereof, are intended to cover non-exclusive inclusions.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. A sawing and milling center for machining a reinforced muntin is characterized by comprising a rack, wherein the rack is horizontally and slidably connected with a first X-axis sliding plate and a second X-axis sliding plate through a first X-axis sliding rail, the first X-axis sliding plate is horizontally and slidably connected with a first Y-axis sliding plate through a first Y-axis sliding rail in a direction perpendicular to the first X-axis sliding rail, the first Y-axis sliding plate is vertically and slidably connected with a first Z-axis sliding plate through a first Z-axis sliding rail, a first milling cutter motor is arranged on the first Z-axis sliding plate, and an end milling cutter is arranged at the output end of the first milling cutter motor; the X-axis sliding plate II is horizontally connected with a Y-axis sliding plate II through a Y-axis sliding rail II along the direction perpendicular to the X-axis sliding rail, the Y-axis sliding plate II is vertically connected with a Z-axis sliding plate II through a Z-axis sliding rail II in a sliding manner, a milling cutter motor II is arranged on the Z-axis sliding plate II, and a flat milling cutter is arranged at the output end of the milling cutter motor II.

2. The sawing and milling center for machining the reinforced muntin according to claim 1, wherein the machine frame is provided with a fixed workbench and a movable workbench in sequence along the length direction of the X-axis slide rail, the fixed workbench is detachably mounted on the machine frame, and the movable workbench is horizontally and slidably connected to the machine frame along the length direction of the X-axis slide rail.

3. The sawing and milling center for processing the reinforced muntin according to claim 2, wherein the first X-axis sliding plate and the fixed workbench are positioned on the feeding side of the frame, and the second X-axis sliding plate and the movable workbench are positioned on the discharging side of the frame.

4. A sawing centre for the machining of reinforced munitions according to claim 3, characterised in that said end mill can be located below a fixed table.

5. A sawing and milling centre for the machining of reinforced munitions according to claim 2, 3 or 4, characterised in that the fixed and movable tables are provided with hold-down assemblies.

6. The sawing and milling center for machining the reinforced mullion as recited in claim 5, wherein the pressing assembly comprises a vertical plate, the vertical plate is mounted on a fixed workbench or a movable workbench, a vertical pressing driving mechanism is disposed at an upper end of the vertical plate, an upper pressing plate is disposed at an output end of the vertical pressing driving mechanism, the upper pressing plate is disposed opposite to the fixed workbench or the movable workbench, and the vertical pressing driving mechanism can drive the upper pressing plate to vertically move.

7. The sawing and milling center for machining the reinforced mullion as recited in claim 6, further comprising a horizontal pressing driving mechanism, wherein the output end of the horizontal pressing driving mechanism is provided with a side pressing plate, the side pressing plate is arranged opposite to the corresponding vertical plate, and the horizontal pressing driving mechanism can drive the side pressing plate to approach or separate from the vertical plate.

8. A sawing and milling centre for the machining of reinforced munitions according to claim 1, 2, 3 or 4, characterised in that the feeding side of the frame is provided with a feeding positioning assembly.

9. A sawing and milling centre for the machining of reinforced munitions according to claim 1, 2, 3 or 4, characterised in that the discharge side of the machine frame is provided with a dragging assembly.

10. A sawing and milling system for processing a reinforced muntin, which comprises the sawing and milling center for processing the reinforced muntin according to any one of claims 1 to 9, and further comprises a feeding device and a discharging device, wherein the feeding device is arranged on the feeding side of the frame, and the discharging device is arranged on the discharging side of the frame.

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