CN216990800U - Drilling, milling, sawing and milling production line - Google Patents

Abstract

The utility model provides a drilling, milling, sawing and milling production line, which belongs to the field of door and window processing equipment and comprises a drilling and milling processing center, wherein a drilling and milling feeding device is arranged at the feeding end of the drilling and milling processing center, a drilling and milling blanking device and a ferrying bed body are sequentially arranged at the discharging end of the drilling and milling processing center along the discharging direction, a sawing and milling feeding device and a sawing and milling feeding device are respectively arranged at two sides of the ferrying bed body, a sawing and milling processing center is arranged at the discharging end of the sawing and milling feeding device, and a sawing and milling processing center is arranged at the discharging end of the sawing and milling feeding device; a second sliding frame horizontally slides on the ferry bed body, the second sliding frame can move towards the direction close to the feeding end of the sawing and milling feeding device or the direction close to the feeding end of the sawing and milling feeding device, and the sliding direction of the second sliding frame is vertical to the conveying direction of the drilling and milling discharging device; the utility model has the advantages of reducing the occupied area of the whole production line and improving the processing efficiency of the sectional material.

Description

Drilling, milling, sawing and milling production line

Technical Field

The utility model relates to the technical field of door and window processing equipment, in particular to a drilling, milling, sawing and milling production line.

Background

Aluminum profiles are increasingly popular with people due to the characteristics of small density, light weight, strong corrosion resistance, good weather resistance, good processing performance and the like, while aluminum alloy doors and windows often involve milling of various types of holes and grooves in the processing and manufacturing process, and the processing operation of the window holes and the grooves of the aluminum alloy doors is generally completed through a profiling milling machine or a numerical control processing center.

In the door and window processing equipment on the existing market, in order to improve door and window machining efficiency, its production mode that begins to adopt milling processing earlier afterwards to cut gradually, but present door and window production line overall arrangement is unreasonable, and it generally arranges all machining centers on same straight line, but this kind of production line overall arrangement mode can make the whole length of production line very long to can make whole processing production line's machining efficiency ratio lower, this kind of production line overall arrangement mode can occupy very big factory building space moreover.

Disclosure of Invention

The utility model solves the technical problem of providing a drilling, milling, sawing and milling production line with small floor area and high processing efficiency.

In order to solve the technical problems, the utility model adopts the technical scheme that: a drilling, milling, sawing and milling production line comprises a drilling and milling machining center, wherein a drilling and milling feeding device is arranged at the feeding end of the drilling and milling machining center, a drilling and milling blanking device and a ferrying bed body are sequentially arranged at the discharging end of the drilling and milling machining center along the discharging direction, a sawing and milling feeding device and a sawing and milling feeding device are respectively arranged on two sides of the ferrying bed body, a sawing and milling machining center is arranged at the discharging end of the sawing and milling feeding device, and a sawing and milling machining center is arranged at the discharging end of the sawing and milling feeding device; the ferry bed body is horizontally provided with a second sliding frame in a sliding mode, the second sliding frame can move towards the direction close to the feeding end of the sawing and milling feeding device or the direction close to the feeding end of the sawing and milling feeding device, and the sliding direction of the second sliding frame is perpendicular to the conveying direction of the drilling and milling discharging device. In the utility model, the ferry bed body and the second carriage are arranged, and the sawing and milling center are respectively arranged at two sides of the ferry bed body, so that the length of the whole production line is greatly shortened; meanwhile, the sections processed in the drilling and milling center can be automatically classified through the ferry bed body and the second carriage, and are automatically conveyed to the corresponding feeding device according to the specification of the sections; the utility model can also utilize the sawing center and the sawing and milling center to correspondingly process two sectional materials with different specifications, thereby greatly improving the processing efficiency of the sectional materials.

Further, the drilling and milling machining center comprises a drilling and milling lathe bed, the upper end of the drilling and milling lathe bed is horizontally connected with a first sliding frame in a sliding mode through a first horizontal sliding rail, and the sliding direction of the first sliding frame is parallel to the feeding direction; one side of the first sliding frame is vertically and slidably connected with a vertical sliding plate through a vertical sliding rail, one side of the vertical sliding plate is horizontally and slidably connected with a horizontal sliding plate through a second horizontal sliding rail, and the sliding direction of the horizontal sliding plate is perpendicular to that of the first sliding frame; the middle part of the horizontal sliding plate and the middle part of the vertical sliding plate are both provided with a processing channel, an upper drilling and milling motor and a lower drilling and milling motor are respectively connected to the horizontal sliding plate in a vertical sliding manner above and below the processing channel, and the output ends of the upper drilling and milling motor and the lower drilling and milling motor are both provided with a drilling and milling cutter; the left side and the right side of the processing channel are respectively connected with a left drilling and milling motor and a right drilling and milling motor in a horizontal sliding mode, and drilling and milling cutters are arranged at the output ends of the left drilling and milling motor and the right drilling and milling motor. After the section is sent into the processing channel, the four surfaces of the section can be simultaneously or sequentially processed by drilling and milling cutters arranged on the upper drilling and milling motor, the lower drilling and milling motor, the left drilling and milling motor and the right drilling and milling motor, and the positions of the four drilling and milling motors can be adjusted by adjusting the positions of the vertical sliding plate, the horizontal sliding plate and the first sliding frame in the processing process.

Furthermore, a first horizontal driving assembly is connected to the first carriage in a transmission manner and is used for driving the first carriage to horizontally slide on the first horizontal sliding rail; the vertical sliding plate is in transmission connection with a vertical driving assembly, and the vertical driving assembly is used for driving the vertical sliding plate to vertically move on the vertical sliding rail; the horizontal sliding plate is connected with a second horizontal driving assembly in a transmission mode, and the second horizontal driving assembly is used for driving the horizontal sliding plate to horizontally slide on a second horizontal sliding rail. Therefore, the positions of the four drilling and milling motors can be adjusted under the action of the first horizontal driving assembly, the second horizontal driving assembly and the vertical driving assembly, so that the drilling and milling machining center in the drilling, milling, sawing and milling production line can meet various machining requirements of the section.

Further, the vertical driving assembly comprises a vertical driving motor, the vertical driving motor is fixedly mounted on the first sliding frame, the output end of the vertical driving motor is in transmission connection with a lead screw, the axis of the lead screw is a vertical straight line, a screw seat is in threaded connection with the lead screw, and the screw seat is fixedly connected with the vertical sliding plate. At this moment, when vertical driving motor drive lead screw rotated, the lead screw can drive the screw seat and carry out vertical removal along the axis of lead screw to drive vertical slide and carry out vertical removal.

Furthermore, the vertical driving assembly further comprises two vertical cylinders, the cylinder bodies of the two vertical cylinders are fixedly mounted on the first sliding frame, the piston rods of the two vertical cylinders are respectively connected with two ends of the vertical sliding plate, and the piston motion directions of the two vertical cylinders are vertical. Therefore, in the process that the screw seat drives the vertical sliding plate to move, the vertical load on the vertical sliding plate can be balanced through the two vertical cylinders, and the vertical sliding plate can move up and down more easily and stably.

Furthermore, the feeding end and the discharging end of the drilling and milling lathe body are both provided with profile clamping assemblies, and the first sliding frame is located between the two profile clamping assemblies. Like this at the section bar course of working, the two section bar clamping assembly of accessible press from both sides tight section bar, avoid it to take place to rock in the course of working to ensure that the machining precision of section bar meets the requirements.

Furthermore, a section end face positioning assembly is arranged at the feed end of the drilling and milling lathe bed and is positioned at the front side of the corresponding section clamping assembly, and the section is positioned through the section end face positioning assembly, so that the machining precision of the section meets the requirement.

Furthermore, a supporting roller and a vertical supporting plate are arranged on the second sliding frame, a lifting cylinder is arranged on the vertical supporting plate, a cylinder body of the lifting cylinder is fixedly installed on the vertical supporting plate, the end part of a piston rod of the lifting cylinder is connected with a horizontal supporting plate, the horizontal supporting plate can vertically move relative to the vertical supporting plate under the action of the lifting cylinder, the height of the horizontal supporting plate when the horizontal supporting plate moves to the highest point is higher than that of the supporting roller, and the height of the horizontal supporting plate when the horizontal supporting plate moves to the lowest point is lower than that of the supporting roller or is the same as that of the supporting roller. After the section bar is conveyed to the supporting rollers of the ferry vehicle, the section bar can be sorted through the horizontal movement of the second sliding frame, and meanwhile, when the second sliding frame reaches a designated position, the blanking action of the section bar can be realized through the lifting of the horizontal supporting plate.

According to the technical scheme, the utility model has the following advantages: firstly, a sawing and milling machining center and a sawing and milling machining center are respectively arranged on two sides of a ferry bed body, and a sawing and milling feeding device, a sawing and milling feeding device and a drilling and milling feeding device are arranged in parallel, so that the length of the whole production line is greatly shortened; meanwhile, the automatic sorting device can automatically sort the profiles processed in the drilling and milling center and automatically send the profiles to the corresponding feeding devices according to the specifications of the profiles, so that the manual sorting procedure is omitted, and the profile processing efficiency is improved; secondly, when the profile is drilled and milled by using the drilling and milling machine, the four surfaces of the profile can be simultaneously or sequentially drilled and milled by the drilling and milling cutters arranged on the upper drilling and milling motor, the lower drilling and milling motor, the left drilling and milling motor and the right drilling and milling motor, so that the profile does not need to be turned over in the processing process, and the processing efficiency of the profile is improved; in addition, the utility model also provides a section end face positioning assembly at each processing center, and ensures that the processing precision and the processing position of the section meet the requirements through the assembly, thereby improving the yield of the section.

Drawings

In order to more clearly illustrate the technical solution of the present invention, the drawings used in the description will be briefly introduced, 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 based on these drawings without creative efforts.

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

Fig. 2 is a partially enlarged view of a point a in fig. 1.

FIG. 3 is a first schematic structural diagram of the drilling and milling center with the sheet metal cover removed.

Fig. 4 is a schematic structural diagram of the drilling and milling center with the sheet metal cover removed.

Fig. 5 is a schematic structural diagram of the drilling and milling center with the sheet metal cover removed.

In the figure: 1. drilling and milling feeding device, 2, drilling and milling machining center, 3, sheet metal cover, 4, drilling and milling blanking device, 5, ferry vehicle, 6, ferry bed, 7, third horizontal slide rail, 8, second slide frame, 9, supporting roller, 10, horizontal supporting plate, 11, lifting cylinder, 12, vertical supporting plate, 13, drilling and milling bed, 14, first horizontal slide rail, 15, first slide frame, 16, section clamping component, 17, vertical sliding plate, 18, vertical slide rail, 19, horizontal sliding plate, 20, vertical cylinder, 21, vertical driving motor, 22, upper drilling and milling motor, 23, positioning cylinder, 24, positioning bracket, 25, positioning plate, 26, machining channel, 27, lower drilling and milling motor, 28, right drilling and milling motor, 29, section end face positioning component, 30, left drilling and milling motor, 31, second horizontal slide rail, 32, clamping bracket, 33, horizontal clamping cylinder, 34, and, The sawing and milling device comprises a first horizontal clamping plate 35, a vertical clamping cylinder 36, a vertical clamping plate 37, a screw rod 38, a screw seat 39, a sawing and milling feeding device 40, a sawing and milling machining center 41, a sawing and milling discharging device 42, a sawing discharging device 43, a sawing and milling machining center 44 and a sawing and feeding device.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1, the utility model provides a drilling, milling, sawing and milling production line, which comprises a drilling and milling machining center 2, wherein a drilling and milling feeding device 1 is arranged at a feeding end of the drilling and milling machining center 2, a drilling and milling discharging device 4 and a ferry vehicle 5 are sequentially arranged at a discharging end of the drilling and milling machining center 2 according to a discharging direction, a sawing and milling feeding device 44 and a sawing and milling feeding device 39 are respectively arranged at two sides of the ferry vehicle 5, a sawing and milling machining center 43 is arranged at a discharging end of the sawing and milling feeding device 44, and a sawing and discharging device 42 is arranged at a discharging end of the sawing and milling machining center 43; the discharge end of the sawing and milling feeding device 39 is provided with a sawing and milling center 40, and the discharge end of the sawing and milling center 40 is provided with a sawing and milling discharging device 41.

Specifically, as shown in fig. 3, 4 and 5, the drilling and milling machining center 2 includes a sheet metal cover 3, a display screen and an operation panel are arranged on the outer side of the sheet metal cover 3, a drilling and milling lathe bed 13 is arranged in the sheet metal cover 3, a first horizontal slide rail 14 is arranged at the upper end of the drilling and milling lathe bed 13, a first carriage 15 is horizontally and slidably connected to the first horizontal slide rail 14, a first horizontal driving assembly is in transmission connection with the first carriage 15, the first horizontal driving assembly is used for driving the first carriage 15 to horizontally slide on the first horizontal slide rail 14, and the sliding direction of the first carriage 15 is parallel to the profile feeding direction. Further, the first horizontal driving assembly comprises a horizontal driving motor and a horizontal driving rack, the horizontal driving motor is fixedly mounted on the first sliding frame 15, a horizontal driving gear is connected to an output end of the horizontal driving motor in a transmission manner, the horizontal driving rack is fixedly mounted on the drilling and milling lathe bed 13 and is arranged in parallel with the first horizontal sliding rail 14, and the horizontal driving rack is meshed with the horizontal driving gear, so that the first sliding frame 15 can be driven to horizontally move on the first horizontal sliding rail 14 through a meshing relationship between the horizontal driving rack and the horizontal driving gear.

One side of the first sliding frame 15 is provided with a vertical sliding rail 18, the vertical sliding rail 18 is connected with a vertical sliding plate 17 in a vertical sliding mode, the vertical sliding plate 17 is connected with a vertical driving assembly in a transmission mode, and the vertical driving assembly is used for driving the vertical sliding plate 17 to vertically move on the vertical sliding rail 18. Preferably, the vertical driving assembly comprises a vertical driving motor 21, the vertical driving motor 21 is fixedly installed on the first sliding frame 15, an output end of the vertical driving motor 21 is connected with a lead screw 37 through a coupler in a transmission manner, an axis of the lead screw 37 is a vertical straight line, a screw seat 38 is in threaded connection with the lead screw 37, the screw seat 38 is fixedly connected with the vertical sliding plate 17, and at the moment, when the vertical driving motor 21 drives the lead screw 37 to rotate, the lead screw 37 can drive the screw seat 38 to vertically move along the axis of the lead screw, so that the vertical sliding plate 17 is driven to vertically move. In addition, in order to improve the motion stability of the vertical sliding plate 17, the vertical driving assembly further includes two vertical cylinders 20, the cylinder bodies of the two vertical cylinders 20 are both fixedly mounted on the first carriage 15, the piston rods of the two vertical cylinders 20 are respectively connected with two ends of the vertical sliding plate 17, and the piston motion directions of the two vertical cylinders 20 are vertical directions. Therefore, in the process that the nut seat 38 drives the vertical sliding plate 17 to move, the vertical load on the vertical sliding plate 17 can be balanced through the two vertical cylinders 20, and the vertical sliding plate 17 can move up and down more easily and stably.

The vertical sliding plate 17 is provided with a second horizontal sliding rail 31 perpendicular to the first horizontal sliding rail 14, the second horizontal sliding rail 31 is horizontally and slidably connected with a horizontal sliding plate 19 through the second horizontal sliding rail 31, the horizontal sliding plate 19 is in transmission connection with a second horizontal driving assembly, the horizontal sliding plate 19 is driven by the second horizontal driving assembly to horizontally slide on the second horizontal sliding rail 31, and the second horizontal driving assembly preferably has the same structure as the first horizontal driving assembly. In addition, a processing channel 26 for a profile to pass through is arranged in the middle of the horizontal sliding plate 19 and in the middle of the vertical sliding plate 17, an upper drilling and milling motor 22 and a lower drilling and milling motor 27 are vertically and slidably connected to one side of the horizontal sliding plate 19 away from the vertical sliding plate 17 above and below the processing channel 26, drilling and milling cutters are arranged at the output ends of the upper drilling and milling motor 22 and the lower drilling and milling motor 27, and the two drilling and milling cutters are arranged oppositely; the left side and the right side of the processing channel 26, one side of the horizontal sliding plate 19, which is far away from the vertical sliding plate 17, is respectively connected with a left drilling and milling motor 30 and a right drilling and milling motor 28 in a horizontal sliding manner, the output ends of the left drilling and milling motor 30 and the right drilling and milling motor 28 are respectively provided with a drilling and milling cutter, and the two drilling and milling cutters are arranged oppositely, so that when the section bar is conveyed to the processing channel 26, the upper drilling and milling motor 22 or the lower drilling and milling motor 27 or the left drilling and milling motor 30 or the right drilling and milling motor 28 can be controlled to enable the corresponding drilling and milling cutter to perform drilling and milling processing on the section bar according to the processing requirements of the section bar.

In addition, in order to avoid the shaking of the profile during the machining process, the feeding end and the discharging end of the milling and drilling bed 13 are provided with profile clamping assemblies 16, and the first sliding frame 15 is located between the two profile clamping assemblies 16. Specifically, the profile clamping assembly 16 comprises a clamping support 32, the clamping support 32 is fixedly mounted on the drilling and milling bed 13, a first horizontal clamping plate 34 is arranged on one side of the upper end of the clamping support 32, and a second horizontal clamping cylinder 33 is arranged on the other side of the upper end of the clamping support 32, wherein the cylinder body of the horizontal clamping cylinder 33 is fixedly mounted on the clamping support 32, a second horizontal clamping plate is arranged at the end part of the piston rod of the horizontal clamping cylinder 33, the second horizontal clamping plate is arranged opposite to the first horizontal clamping plate 34, and the second horizontal clamping plate can approach or separate from the first horizontal clamping plate 34 under the action of the horizontal clamping cylinder 33; in addition, a vertical clamping cylinder 35 is arranged at the upper end of the first horizontal clamping plate 34, wherein the cylinder body of the vertical clamping cylinder 35 is fixedly mounted on the first horizontal clamping plate 34, a vertical clamping plate 36 is arranged at the end part of the piston rod of the vertical clamping cylinder 35, the vertical clamping plate 36 is opposite to the upper end of the clamping bracket 32, and the vertical clamping plate 36 can be close to or far away from the upper end of the clamping bracket 32 under the action of the vertical clamping cylinder 35.

In addition, as a preference, a section end face positioning assembly 29 is arranged at the feeding end of the drilling and milling bed 13, specifically, the section end face positioning assembly 29 comprises a positioning bracket 24, the positioning bracket 24 is fixedly installed at the upper end of the clamping bracket 32, and the positioning bracket 24 is located at the front side of the horizontal clamping plate I34. A positioning cylinder 23 is arranged on the positioning support 24, a cylinder body of the positioning cylinder 23 is fixedly mounted on the positioning support 24, a positioning plate 25 is fixedly connected to the end portion of a piston rod of the positioning cylinder 23, and the positioning plate 25 can be in contact with the section bar. Like this when the section bar is sent into and is bored and mill machining center 2 after, accessible locating plate 25 fixes a position the section bar, ensures the machining precision of section bar, and after the section bar location, accessible location cylinder 23 packed up locating plate 25 simultaneously, avoids locating plate 25 to influence the removal of section bar. In addition, as a further preferable mode, the profile end face positioning assemblies 29 are arranged at the feeding ends of the sawing center 43 and the sawing center 40, so that the profiles are positioned by the corresponding profile end face positioning assemblies 29 before entering the sawing center 43 and the sawing center 40, and the processing accuracy of the sawing center 43 and the sawing center 40 is ensured.

As shown in fig. 1 and 2, the ferry vehicle 5 includes a ferry bed body 6, the ferry bed body 6 is located between the sawing and milling feeding device 39 and the sawing and milling feeding device 44, a third horizontal slide rail 7 is arranged on the ferry bed body 6, a second carriage 8 is horizontally connected to the ferry bed body 6 in a sliding manner through the third horizontal slide rail 7, the sliding direction of the second carriage 8 is perpendicular to the conveying direction of the drilling and milling discharging device 4, and the second carriage 8 can move in the direction close to the feeding end of the sawing and milling feeding device 39 or the direction close to the feeding end of the sawing and milling feeding device 44. A third horizontal driving assembly is in transmission connection with the second carriage 8, the second carriage 8 is driven by the third horizontal driving assembly to horizontally slide on a third horizontal sliding rail 7, so that the second carriage 8 moves to a feeding end of the sawing and milling feeding device 39 or a feeding end of the sawing and milling feeding device 44, and the third horizontal driving assembly preferably has the same structure as the first horizontal driving assembly. The second carriage 8 is provided with a supporting roller 9 and a vertical supporting plate 12, the vertical supporting plate 12 is provided with a lifting cylinder 11, the cylinder body of the lifting cylinder 11 is fixedly mounted on the vertical supporting plate 12, the end part of a piston rod of the lifting cylinder 11 is connected with a horizontal supporting plate 10, the horizontal supporting plate 10 can vertically move relative to the vertical supporting plate 12 under the action of the lifting cylinder 11, the height of the horizontal supporting plate 10 when moving to the highest point is higher than that of the supporting roller 9, and the height of the horizontal supporting plate 10 when moving to the lowest point is lower than that of the supporting roller 9 or is the same as that of the supporting roller 9. After the section bar is conveyed to the supporting rollers 9 of the ferry vehicle 5, the section bar can be sorted through the horizontal movement of the second sliding frame 8, and when the second sliding frame 8 reaches a specified position, the section bar after drilling and milling can be conveyed to the feeding end of the corresponding sawing and milling feeding device 39 or the feeding end of the sawing and milling feeding device 44 through the lifting of the horizontal supporting plate 10, and then the section bar is conveyed to the corresponding processing center through the corresponding feeding device and correspondingly sawn or sawn and milled.

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 utility model described herein are capable of operation in sequences other than those illustrated or described herein. Furthermore, the terms "include" and "have," as well as any variations thereof, are intended to cover a non-exclusive inclusion.

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 utility model. 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 (8)

1. The drilling, milling, sawing and milling production line is characterized by comprising a drilling and milling machining center, wherein a drilling and milling feeding device is arranged at the feeding end of the drilling and milling machining center, a drilling and milling blanking device and a ferry bed body are sequentially arranged at the discharging end of the drilling and milling machining center along the discharging direction, a sawing and milling feeding device and a sawing and milling feeding device are respectively arranged on two sides of the ferry bed body, a sawing and milling machining center is arranged at the discharging end of the sawing and milling feeding device, and a sawing and milling machining center is arranged at the discharging end of the sawing and milling feeding device; the ferry bed body is horizontally provided with a second sliding frame in a sliding mode, the second sliding frame can move towards the direction close to the feeding end of the sawing and milling feeding device or the direction close to the feeding end of the sawing and milling feeding device, and the sliding direction of the second sliding frame is perpendicular to the conveying direction of the drilling and milling discharging device.

2. The drilling, milling, sawing and milling production line as claimed in claim 1, wherein the drilling and milling machining center comprises a drilling and milling bed, a first carriage is horizontally and slidably connected to the upper end of the drilling and milling bed through a first horizontal slide rail, and the sliding direction of the first carriage is parallel to the feeding direction; one side of the first sliding frame is vertically and slidably connected with a vertical sliding plate through a vertical sliding rail, one side of the vertical sliding plate is horizontally and slidably connected with a horizontal sliding plate through a second horizontal sliding rail, and the sliding direction of the horizontal sliding plate is perpendicular to that of the first sliding frame; the middle part of the horizontal sliding plate and the middle part of the vertical sliding plate are both provided with a processing channel, an upper drilling and milling motor and a lower drilling and milling motor are respectively connected to the horizontal sliding plate in a vertical sliding manner above and below the processing channel, and the output ends of the upper drilling and milling motor and the lower drilling and milling motor are both provided with a drilling and milling cutter; the left side and the right side of the processing channel are respectively connected with a left drilling and milling motor and a right drilling and milling motor in a horizontal sliding mode, and drilling and milling cutters are arranged at the output ends of the left drilling and milling motor and the right drilling and milling motor.

3. The drilling, milling, sawing, milling production line according to claim 2, wherein a first horizontal driving assembly is in transmission connection with the first carriage, and is used for driving the first carriage to horizontally slide on a first horizontal sliding rail; the vertical sliding plate is in transmission connection with a vertical driving assembly, and the vertical driving assembly is used for driving the vertical sliding plate to vertically move on the vertical sliding rail; the horizontal sliding plate is connected with a second horizontal driving assembly in a transmission mode, and the second horizontal driving assembly is used for driving the horizontal sliding plate to horizontally slide on a second horizontal sliding rail.

4. The drilling, milling, sawing and milling production line as claimed in claim 3, wherein the vertical driving assembly comprises a vertical driving motor, the vertical driving motor is fixedly mounted on the first carriage, an output end of the vertical driving motor is in transmission connection with a lead screw, an axis of the lead screw is a vertical straight line, a nut seat is in threaded connection with the lead screw, and the nut seat is fixedly connected with the vertical sliding plate.

5. The drilling, milling, sawing, milling production line according to claim 4, wherein the vertical driving assembly further comprises two vertical cylinders, the cylinder bodies of the two vertical cylinders are fixedly mounted on the first carriage, the piston rods of the two vertical cylinders are respectively connected with two ends of the vertical sliding plate, and the movement directions of the pistons of the two vertical cylinders are vertical.

6. The drilling, milling, sawing, milling production line according to claim 2, characterized in that the feed end and the discharge end of the drilling and milling bed are provided with profile clamping assemblies, and the first carriage is located between the two profile clamping assemblies.

7. The drilling, milling, sawing and milling production line as claimed in claim 6, wherein the feed end of the drilling and milling bed is provided with a profile end face positioning assembly which is located at the front side of the corresponding profile clamping assembly.

8. The drilling, milling, sawing and milling production line as claimed in any one of claims 1 to 7, wherein a supporting roller and a vertical supporting plate are arranged on the second carriage, a lifting cylinder is arranged on the vertical supporting plate, a cylinder body of the lifting cylinder is fixedly mounted on the vertical supporting plate, the end part of a piston rod of the lifting cylinder is connected with a horizontal supporting plate, the horizontal supporting plate can vertically move relative to the vertical supporting plate under the action of the lifting cylinder, the height of the horizontal supporting plate when the horizontal supporting plate moves to the highest point is higher than that of the supporting roller, and the height of the horizontal supporting plate when the horizontal supporting plate moves to the lowest point is lower than that of the supporting roller or is the same as that of the supporting roller.

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