CN116329364A - Mullion punching and milling equipment - Google Patents

Abstract

The utility model belongs to the technical field of aluminum alloy profile's processing equipment, specifically be a muntin dashes mills equipment, including the equipment body, the equipment body includes material loading district, processing district and ejection of compact district in proper order, the material loading district includes the elevating platform, be equipped with the roller on the elevating platform, the elevating platform includes rotatable hold-in range mechanism and elevating system. The automatic laser marking and automatic labeling device has the advantages of high automation degree, high production efficiency, high processing precision and high reliability, reduces labor intensity of workers, and is added with automatic laser marking and automatic labeling, so that later installation and automatic management are facilitated.

Description

Mullion punching and milling equipment

Technical Field

The application belongs to the technical field of processing equipment of aluminum alloy profiles, and particularly relates to mullion punching and milling equipment.

Background

The muntin is a transverse or vertical division of the window splice frame. At present, after the existing aluminum alloy muntin section is processed by sawing and end milling equipment, the prior aluminum alloy muntin section needs to be manually turned to the next procedure, the main processing contents are muntin mounting holes, pin holes, glue injection holes and water leakage holes, the required equipment is generally a punch press and a milling and drilling machine, the subsequent separation scribing needs to manually use a tape and a drawing, and the tape is used for scribing after calculation.

The pin holes and the glue injection holes of the muntin section bar are formed in the two end parts of the section bar, the drilling and milling machine is used for processing, the time is long, the efficiency is low, the water leakage holes and the holes are not in the same plane, the section bar is required to be processed after being rotated by 90 degrees, the processing precision is low and time is wasted, if a punching machine is used instead, a rotating procedure is also required, the processing period is long, manual turnover is required between the equipment and the equipment, and the automatic assembly line is not formed; the subsequent scribing steps are complicated, and the precision is low.

Disclosure of Invention

In order to solve the problem of the prior art, the application provides a muntin dashes mills equipment, and this application is realized through following scheme:

the utility model provides a muntin dashes mills equipment, includes the equipment body, the equipment body includes material loading district, processing district and ejection of compact district in proper order, the material loading district includes the elevating platform, be equipped with the roller on the elevating platform, the elevating platform includes rotatable hold-in range mechanism and elevating system.

Preferably, the processing area comprises a processing area base, a fixed clamp is arranged on the right side of the processing area base, at least two groups of movable clamps are arranged on the processing area base, the movable clamps are positioned on the left side of the fixed clamp, upright column parts, namely a left upright column part and a right upright column part, are respectively arranged at two ends of the processing area base, a scrap bucket is arranged at the bottom of the processing area, and a movable operation box is arranged on the processing area.

Further, mounting fixture includes the mounting fixture base, be equipped with side on the mounting fixture base and compress tightly end and section bar baffle one, side is compressed tightly end and section bar baffle one and is set up relatively, be equipped with vertical linear guide on the mounting fixture base and compress tightly the cylinder, be equipped with on the linear guide one and compress tightly end one on compressing tightly the output of cylinder, be equipped with automatic positioning device on the mounting fixture base, be equipped with vertical section bar terminal surface locating plate on the automatic positioning device, section bar terminal surface locating plate is driven in place by location lift cylinder and location translation cylinder, and lift and translation direction are respectively by linear guide two and linear guide three direction, linear guide two and linear guide three set up on automatic positioning device.

Still further, be equipped with the linear guide IV on the processing district base, be equipped with the removal anchor clamps on the linear guide IV, be equipped with servo motor and gear motor one on the removal anchor clamps, the removal anchor clamps is including removing the anchor clamps base, be equipped with side compression end two and section bar baffle two on the removal anchor clamps base, side compression end two sets up with section bar baffle two relatively, be equipped with vertical linear guide five on the removal anchor clamps base, be equipped with on the linear guide five and compress tightly the cylinder, be equipped with on compressing tightly end two on compressing tightly the output of cylinder.

Further, the left upright post part comprises a left upright post, the left upright post is arranged on a linear guide rail ten in the X-axis direction, the linear guide rail ten is arranged on a base of a processing area, the left upright post is driven by a servo motor, a gear motor and a bevel gear which are matched with the left upright post in the X-axis direction, a Z-axis guide rail is arranged on the left upright post, a Z-axis base is arranged on the Z-axis guide rail, and a feeding and discharging clamping claw I, a processing main shaft I and a water hole punching device are arranged on the Z-axis base;

the right column part comprises a right column, the right column is arranged on a linear guide rail ten in the X-axis direction, the linear guide rail ten is arranged on a base of a processing area, the right column is driven by a servo motor, a gear motor and a bevel gear which are matched with the right column in the X-axis direction, a Z-axis guide rail is arranged on the right column, a Z-axis base is arranged on the Z-axis guide rail, and a feeding clamping claw II, a processing main shaft II, a laser scribing device and a labeling device are arranged on the Z-axis base.

Further, the first feeding and discharging clamp claw is arranged on a cross beam, the cross beam is arranged on a Z-axis base of the left upright post part, a Y-axis feeding and discharging clamp claw guide rail matched with the first feeding and discharging clamp claw is arranged on the Z-axis, a three-axis cylinder is arranged on the first feeding and discharging clamp claw, and the first feeding and discharging clamp claw is driven by a servo motor and a gear motor matched with the first feeding and discharging clamp claw;

the second feeding and discharging clamp claw is arranged on the cross beam, the cross beam is arranged on a Z-axis base of the right upright post part, a Y-axis feeding and discharging clamp claw guide rail matched with the feeding and discharging clamp claw is arranged on the Z axis, a triaxial cylinder is arranged on the second feeding and discharging clamp claw, and the second feeding and discharging clamp claw is driven by a servo motor and a gear motor matched with the second feeding and discharging clamp claw.

Further, the first processing main shaft of the left upright post part and the water hole punching device move together along the Y-axis direction; and the second processing main shaft of the right upright post part, the laser scribing device and the labeling device move together along the Y-axis direction.

Further, a Y-axis linear guide rail eight is arranged on the Z-axis base of the left upright post, a water hole punching device and a sliding block connecting seat are arranged on the Y-axis linear guide rail eight, a Y-axis linear guide rail seven is arranged on the sliding block connecting seat, and a processing main shaft I is arranged on the linear guide rail seven.

Still further, be equipped with the twelve of Y axle linear guide on the Z axle base of right stand, be equipped with processing main shaft two and slider connecting seat on the twelve of Y axle linear guide, be equipped with the thirteenth of Y axle linear guide on the slider connecting seat, be equipped with laser marking device and slider connecting seat two on the thirteenth of Y axle linear guide, be equipped with the fourteen of Y axle linear guide on the slider connecting seat two, be equipped with on the fourteen of Y axle linear guide and paste the mark device.

Further, the water hole punching device is a hydraulic punching mechanism, the hydraulic punching mechanism comprises a hydraulic cylinder and a punch, and the hydraulic punching mechanism is driven by a servo motor, a synchronous belt and a screw rod; the laser scribing device is provided with a laser head capable of rotating 180 degrees.

Further, the discharging area comprises a roller conveying table, a row of rollers with the same diameter are arranged on the roller conveying table, and the rotating direction of the rollers is the same as the moving direction of the section bar.

The beneficial effects are that: the automatic laser marking and automatic labeling device has the advantages of high automation degree, high production efficiency, high processing precision and high reliability, reduces labor intensity of workers, and is added with automatic laser marking and automatic labeling, so that later installation and automatic management are facilitated.

Before machining, inputting various data to be machined into machining software of an operation box, manually placing the profile on a roller conveying table, optionally placing one or two profiles according to machining speed, lifting a lifting table to lift the profile after the roller rotates the profile to a left end fixed position, rotating a synchronous belt to drive the profile to be positioned to a corresponding material grabbing position of a first feeding clamping jaw and a first discharging clamping jaw, automatically moving a movable clamp to a corresponding position according to the length of the material and the machining position, lifting and translating a profile end surface positioning plate to an initial position of the profile, placing the middle part of the first feeding clamping jaw and the first discharging clamping jaw to the clamp on the clamp, clamping all the clamps, loosening the fixed clamp, pushing the profile to the profile end surface positioning plate by the movable clamp, finishing positioning the profile end surface positioning plate, moving the profile end surface positioning plate to the right and the original position, simultaneously fixing the clamp to clamp the profile, moving the left stand column part and the right stand column part to the corresponding position to be machined when the positioning is finished, and preparing machining if the profile is provided with a hole, starting a water leakage hole punching device, starting a labeling device on the right stand column part, and moving the left stand column part to the pin hole and a corresponding position of the glue injection hole after finishing, machining the hole by the first stand column and the right stand column and the pin hole machining end hole machining; if the profile is free of water leakage holes, the left stand column part starts a first processing installation hole of the processing main shaft, meanwhile, the right stand column part starts a labeling device, after the completion, the left stand column part moves left to the corresponding positions of the pin holes and the glue injection holes and is processed by the first processing main shaft, meanwhile, the right stand column part moves to the vicinity of the installation hole after the completion of the pin holes and the glue injection holes at the right end of the second processing main shaft, a laser scribing device is started, the two surfaces of the profile are scribed with middle stile parting lines, and all the processing procedures are finished. After the processing is finished, the left upright post part and the right upright post part respectively move to the two end faces of the profile and can be grasped, all the profile fixing clamps are loosened, the left end of the profile is grasped by the first unloading clamping jaw on the left end, the right end of the profile is grasped by the second unloading clamping jaw on the right end, the two clamping jaws synchronously ascend and move forward, the profile is placed on the roller conveying table in the discharging area, and the roller conveying table rotates to convey the profile to the appointed position.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are required for the description of the embodiments will be briefly introduced below, and it is apparent that the drawings in the following description are only some of the preferred embodiments of the present application, but not all embodiments. In the preferred embodiments of the present application, it will be apparent to those skilled in the art from this disclosure that other embodiments and figures can be obtained without undue effort, and are within the scope of the present application.

FIG. 1 is a schematic top view of the present application;

FIG. 2 is a schematic view of a loading zone of the present application;

FIG. 3 is a schematic top view of the processing zone of the present application;

FIG. 4 is a schematic view of a portion of a fixture of the processing area of the present application;

FIG. 5 is a schematic view of a portion of a mobile clamp of the processing zone of the present application;

FIG. 6 is a schematic view of a left column portion of the processing zone of the present application;

FIG. 7 is a schematic view of a right column portion of the processing zone of the present application;

in the figure, a 1-feeding area, a 2-processing area, a 3-discharging area, a 10-roller, an 11-lifting table, a 20-fixed clamp, a 21-movable clamp, a 22-left upright post part, a 23-right upright post part, a 24-scrap bucket, a 25-movable operation box, a 201-side compression end, a 202-upper compression end I, a 203-profile end surface positioning plate, a 204-profile baffle I, a 211-side compression end II, a 212-upper compression end II, a 213-profile baffle II, a 221-upper and lower clamping jaw I, a 222-processing spindle I, a 223-water hole punching device, a 231-upper and lower clamping jaw II, a 232-processing spindle II, a 233-laser scribing device and a 234-labeling device.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the present application more apparent, the embodiments of the present application will be described in further detail below. It is to be understood that the terms "upper," "lower," "top," "bottom," "inner," "outer," and the like are used in relation to the orientation or position shown in the drawings. The foregoing definitions are provided solely for the convenience of description and to simplify the description and do not indicate or imply that the structures referred to must have a particular orientation, be constructed and operate in a particular orientation, and thus are not to be construed as limiting the application.

Example 1

As shown in fig. 1, the mullion milling equipment comprises an equipment body, wherein the equipment body sequentially comprises a feeding area 1, a processing area 2 and a discharging area 3, the feeding area 3 comprises a lifting table 11, a roller 10 is arranged on the lifting table 11, and the lifting table comprises a rotatable synchronous belt mechanism and a lifting mechanism. The diameters of the rollers are the same, and the rollers rotate along the direction of the profile.

Example 2

On the basis of embodiment 1, as shown in fig. 1-7, the processing area 2 comprises a processing area base, a fixed clamp 20 is arranged on the right side of the processing area base, at least two groups of movable clamps 21 are arranged on the processing area base, the movable clamps 21 are positioned on the left side of the fixed clamp 20, upright column parts, namely a left upright column part 22 and a right upright column part 23, are respectively arranged at two ends of the processing area base, a scrap bucket 24 is arranged at the bottom of the processing area, and a movable operation box 25 is arranged on the processing area.

Example 3

On the basis of embodiment 2, as shown in fig. 1-7, the fixing clamp 20 comprises a fixing clamp base, a first side compression end 201 and a first section bar baffle 204 are arranged on the fixing clamp base, the first side compression end 201 and the first section bar baffle 204 are oppositely arranged, a first vertical linear guide rail is arranged on the fixing clamp base, an upper compression cylinder is arranged on the first linear guide rail, an upper compression end 202 is arranged on the output end of the upper compression cylinder, an automatic positioning device is arranged on the fixing clamp base, a vertical section bar end surface positioning plate 203 is arranged on the automatic positioning device, the section bar end surface positioning plate 203 is driven in place by a positioning lifting cylinder and a positioning translation cylinder, lifting and translation directions are respectively guided by a second linear guide rail and a third linear guide rail, and the second linear guide rail and the third linear guide rail are arranged on the automatic positioning device.

Example 4

On the basis of embodiment 3, as shown in fig. 1-7, a linear guide rail IV is arranged on the processing area base, a movable clamp 21 is arranged on the linear guide rail IV, a first servo motor and a first gear motor are arranged on the movable clamp, the movable clamp comprises a movable clamp base, a second side compression end 211 and a second section bar baffle 213 are arranged on the movable clamp base, the second side compression end 211 and the second section bar baffle 213 are oppositely arranged, a vertical linear guide rail V is arranged on the movable clamp base, an upper compression cylinder is arranged on the linear guide rail V, and an upper compression end 212 is arranged on the output end of the upper compression cylinder.

Example 5

On the basis of embodiment 4, as shown in fig. 1-7, the left upright post part comprises a left upright post, the left upright post is arranged on a linear guide rail ten in the X-axis direction, the linear guide rail ten is arranged on a base of a processing area, the left upright post is driven by a servo motor, a gear motor and a bevel gear which are matched with the left upright post in the X-axis direction, a Z-axis guide rail is arranged on the left upright post, a Z-axis base is arranged on the Z-axis guide rail, and a first feeding and discharging clamping claw 221, a first processing main shaft 222 and a water flushing hole device 223 are arranged on the Z-axis base;

the right column part comprises a right column, the right column is arranged on a linear guide rail ten in the X-axis direction, the linear guide rail ten is arranged on a base of a processing area, the right column is driven by a servo motor, a gear motor and a bevel gear which are matched with the right column in the X-axis direction, a Z-axis guide rail is arranged on the right column, a Z-axis base is arranged on the Z-axis guide rail, and a feeding clamping claw two 231, a processing main shaft two 232, a laser scribing device 233 and a labeling device 234 are arranged on the Z-axis base.

Example 6

On the basis of embodiment 5, as shown in fig. 1-7, the first feeding and discharging clamp claw 221 is arranged on a cross beam, the cross beam is arranged on a Z-axis base of a left upright post part, a Y-axis feeding and discharging clamp claw guide rail matched with the first feeding and discharging clamp claw is arranged on the Z-axis, a three-axis cylinder is arranged on the first feeding and discharging clamp claw, and the first feeding and discharging clamp claw is driven by a servo motor and a speed reducing motor matched with the first feeding and discharging clamp claw;

the second feeding and discharging clamp claw 231 is arranged on a cross beam, the cross beam is arranged on a Z-axis base of the right upright post part, a Y-axis feeding and discharging clamp claw guide rail matched with the second feeding and discharging clamp claw is arranged on the Z axis, a triaxial cylinder is arranged on the second feeding and discharging clamp claw, and the second feeding and discharging clamp claw is driven by a servo motor and a gear motor matched with the second feeding and discharging clamp claw;

one end of the cross beam is arranged on the Z-axis base of the left upright post part, and the other end of the cross beam is arranged on the Z-axis base of the right upright post part.

Example 7

1-7, the first processing spindle 222 of the left column part and the water hole punching device 223 move together along the Y-axis direction; the second processing spindle 232, the laser scribing device 233 and the labeling device 234 of the right column part move together along the Y-axis direction.

Example 8

On the basis of embodiment 7, as shown in fig. 1-7, a Y-axis linear guide rail eight is arranged on the Z-axis base of the left upright, a water hole punching device and a sliding block connecting seat are arranged on the Y-axis linear guide rail eight, a Y-axis linear guide rail seven is arranged on the sliding block connecting seat, and a machining spindle one 222 is arranged on the linear guide rail seven.

The Y-axis direction of the left upright post processing main shaft is guided by a linear guide rail seven and a linear guide rail eight, the linear guide rail seven is driven to front position processing by a cylinder matched with the linear guide rail seven, the guide rail of the linear guide rail seven is fixed on a sliding block connecting seat of the linear guide rail eight, the linear guide rail eight is driven by a servo motor matched with the linear guide rail eight through a synchronous belt and a screw rod, the linear guide rail eight is shared with a water hole punching device, the processing main shaft is driven by a double-layer, the front position processing is driven by a first layer of cylinder, the feeding direction is driven by a shared servo and a screw rod, and when a water hole needs to be punched, the cylinder retreats to rear position avoidance.

Example 9

On the basis of embodiment 8, as shown in fig. 1-7, a Y-axis linear guide rail twelve is arranged on the Z-axis base of the right upright, a processing main shaft two 232 and a slide block connecting seat are arranged on the Y-axis linear guide rail twelve, a Y-axis linear guide rail thirteen is arranged on the slide block connecting seat, a laser scribing device 233 and a slide block connecting seat two are arranged on the Y-axis linear guide rail thirteen, a Y-axis linear guide rail fourteen is arranged on the slide block connecting seat two, and a labeling device 234 is arranged on the Y-axis linear guide rail fourteen.

The Y-axis direction of the right upright post processing main shaft is guided by twelve linear guide rails, the twelve linear guide rails are common guide rails of the right upright post processing main shaft, the laser marking device and the labeling device, and the right upright post processing main shaft is driven by a matched servo motor through a synchronous belt and a screw rod, when the processing is required, corresponding driving cylinders of the laser marking device and the labeling device can retreat to the rear position to avoid, double-layer guide rail driving is required to be arranged in the working processes of the laser marking device and the labeling device, and the processing main shaft can be driven by two guide rails;

the laser marking device is guided by a linear guide rail twelve and a linear guide rail thirteen, the linear guide rail twelve is a common guide rail of a right upright post processing main shaft, the laser marking device and the labeling device, the linear guide rail twelve is fixed on a right upright post base, and because the laser marking device needs long travel, a sliding block fixing and guide rail moving mode is adopted, the guide rail of the linear guide rail thirteen and a laser head are connected to the same fixing plate, the sliding block of the linear guide rail thirteen is fixed on a sliding block connecting seat of the linear guide rail thirteen, and the two driving cylinders are driven in a double-layer manner to retreat to the final position to avoid the processing main shaft and the labeling device;

the labeling device is guided by a rail twelve and a linear guide rail fourteen, the rail twelve is a common guide rail of a right upright post processing main shaft, a laser scribing device and a labeling device, and is fixed on a right upright post base, and because the labeling device needs long stroke, a sliding block fixing and guide rail moving mode is adopted, the linear guide rail fourteen and a labeling sucker are connected to the same fixing plate, the sliding block of the linear guide rail fourteen is fixed on a sliding block connecting seat of the rail twelve, and the double-layer driving is carried out to drive a cylinder to retreat to the final position so as to avoid the processing main shaft and the laser scribing device.

Example 10

1-7, the water hole punching device 223 is a hydraulic punching mechanism, wherein the hydraulic punching mechanism comprises a hydraulic cylinder and a punch, and is driven by a servo motor, a synchronous belt and a screw rod; the laser scribing device 233 is provided with a laser head capable of rotating 180 degrees.

Example 11

On the basis of the embodiment 10, as shown in fig. 1-7, the discharging area 3 comprises a roller conveying table, a row of rollers with the same diameter are arranged on the roller conveying table, and the rotation direction of the rollers is the same as the moving direction of the section bar.

Finally, it is noted that the above embodiments are only for illustrating the technical solution of the present application and not for limiting the same, and although the present application has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the technical solution of the present application may be modified or substituted without departing from the spirit and scope of the technical solution of the present application, and all such modifications are intended to be encompassed within the scope of the claims of the present application.

Claims (10)

1. The utility model provides a muntin dashes mills equipment, includes the equipment body, its characterized in that, the equipment body includes material loading district, processing district and ejection of compact district in proper order, the material loading district includes the elevating platform, be equipped with the roller on the elevating platform, the elevating platform includes rotatable hold-in range mechanism and elevating system.

2. The mullion milling equipment of claim 1, wherein the processing area comprises a processing area base, a fixed clamp is arranged on the right side of the processing area base, at least two groups of movable clamps are arranged on the processing area base, the movable clamps are positioned on the left side of the fixed clamp, upright column parts, namely a left upright column part and a right upright column part, are respectively arranged at two ends of the processing area base, a scrap bucket is arranged at the bottom of the processing area, and a movable operation box is arranged on the processing area.

3. The mullion milling equipment as claimed in claim 2, wherein the fixing clamp comprises a fixing clamp base, a side pressing end I and a profile baffle I are arranged on the fixing clamp base, the side pressing end I and the profile baffle I are oppositely arranged, a vertical linear guide I is arranged on the fixing clamp base, an upper pressing cylinder is arranged on the linear guide I, an upper pressing end I is arranged on an output end of the upper pressing cylinder, an automatic positioning device is arranged on the fixing clamp base, a vertical profile end face positioning plate is arranged on the automatic positioning device, the profile end face positioning plate is driven in place by a positioning lifting cylinder and a positioning translation cylinder, lifting and translation directions are respectively guided by a linear guide II and a linear guide III, and the linear guide II and the linear guide III are arranged on the automatic positioning device.

4. The mullion milling equipment of claim 3, wherein the machining area base is provided with a linear guide rail IV, the linear guide rail IV is provided with a movable clamp, the movable clamp is provided with a first servo motor and a first gear motor, the movable clamp comprises a movable clamp base, the movable clamp base is provided with a second side compression end and a second profile baffle, the second side compression end and the second profile baffle are oppositely arranged, the movable clamp base is provided with a vertical linear guide rail V, the linear guide rail V is provided with an upper compression cylinder, and the output end of the upper compression cylinder is provided with an upper compression end II.

5. The mullion milling equipment as claimed in claim 2, wherein the left upright post part comprises a left upright post, the left upright post is arranged on a linear guide rail ten in the X-axis direction, the linear guide rail ten is arranged on a processing area base, the left upright post is driven by a servo motor, a gear motor and a bevel gear which are matched with the left upright post in the X-axis direction, a Z-axis guide rail is arranged on the left upright post, a Z-axis base is arranged on the Z-axis guide rail, and a feeding clamping claw I, a processing main shaft I and a water flushing hole device are arranged on the Z-axis base;

the right column part comprises a right column, the right column is arranged on a linear guide rail ten in the X-axis direction, the linear guide rail ten is arranged on a base of a processing area, the right column is driven by a servo motor, a gear motor and a bevel gear which are matched with the right column in the X-axis direction, a Z-axis guide rail is arranged on the right column, a Z-axis base is arranged on the Z-axis guide rail, and a feeding clamping claw II, a processing main shaft II, a laser scribing device and a labeling device are arranged on the Z-axis base.

6. The mullion milling equipment as claimed in claim 5, wherein the first feeding and discharging clamp claw is arranged on a cross beam, the cross beam is arranged on a Z-axis base of the left upright post part, a Y-axis feeding and discharging clamp claw guide rail matched with the first feeding and discharging clamp claw is arranged on the Z-axis, a three-axis cylinder is arranged on the first feeding and discharging clamp claw, and the first feeding and discharging clamp claw is driven by a servo motor and a gear motor matched with the first feeding and discharging clamp claw;

the second feeding and discharging clamp claw is arranged on the cross beam, the cross beam is arranged on a Z-axis base of the right upright post part, a Y-axis feeding and discharging clamp claw guide rail matched with the feeding and discharging clamp claw is arranged on the Z axis, a triaxial cylinder is arranged on the second feeding and discharging clamp claw, and the second feeding and discharging clamp claw is driven by a servo motor and a gear motor matched with the second feeding and discharging clamp claw.

7. The mullion milling apparatus of claim 5 wherein the first processing spindle of the left column section and the water hole punching device move together in the Y-axis direction; and the second processing main shaft of the right upright post part, the laser scribing device and the labeling device move together along the Y-axis direction.

8. The mullion milling equipment of claim 5, wherein a Y-axis linear guide rail eight is arranged on the Z-axis base of the left upright, a water hole punching device and a slide block connecting seat are arranged on the Y-axis linear guide rail eight, a Y-axis linear guide rail seven is arranged on the slide block connecting seat, and a machining spindle I is arranged on the linear guide rail seven.

9. The mullion milling equipment of claim 5, wherein a Z-axis base of the right upright post is provided with a Y-axis linear guide rail twelve, the Y-axis linear guide rail twelve is provided with a processing main shaft II and a slide block connecting seat, the slide block connecting seat is provided with a Y-axis linear guide rail thirteen, the Y-axis linear guide rail thirteen is provided with a laser scribing device and a slide block connecting seat II, the slide block connecting seat II is provided with a Y-axis linear guide rail fourteen, and the Y-axis linear guide rail fourteen is provided with a labeling device.

10. The mullion milling equipment of claim 5, wherein the water hole punching device is a hydraulic punching mechanism, the hydraulic punching mechanism comprises a hydraulic cylinder and a punch, and the hydraulic punching mechanism is driven by a servo motor, a synchronous belt and a screw rod; the laser scribing device is provided with a laser head capable of rotating 180 degrees; the discharging area comprises a roller conveying table, a row of rollers with the same diameter are arranged on the roller conveying table, and the rotation direction of the rollers is the same as the moving direction of the section bar.

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