CN210588090U

CN210588090U - Numerical control end face mill for mullion of efficient door and window with double transverse cutters and single vertical cutter

Info

Publication number: CN210588090U
Application number: CN201921599289.8U
Authority: CN
Inventors: 李磊; 陈�峰
Original assignee: Jinan Chengjiang Industry And Trade Co ltd
Current assignee: Jinan Chengjiang Industry And Trade Co ltd
Priority date: 2019-09-23
Filing date: 2019-09-23
Publication date: 2020-05-22
Anticipated expiration: 2029-09-23

Abstract

The utility model provides a club numerical control end face mills in high-efficient door and window of two horizontal sword list vertical knives, includes the frame, is equipped with X axis rail in the frame, slidable mounting has table surface through X axle actuating mechanism drive on the X axis rail, table surface is last to be equipped with three sets of Y axis rails, installs first horizontal sword processingequipment, the horizontal sword processingequipment of second and vertical sword processingequipment through Y axle actuating mechanism drive respectively in proper order on three sets of Y axis rails, installs press device in the frame of first horizontal sword processingequipment one side, still is equipped with electrical cabinet and switch board in the frame, and X axle actuating mechanism, Y axle actuating mechanism, first horizontal sword processingequipment, the horizontal sword processingequipment of second and vertical sword processingequipment link to each other with the switch board through the wire respectively. The integrated level is high, and first horizontal sword processingequipment and the horizontal sword processingequipment cooperation work of second have improved greatly and have seted up rabbet efficiency, found sword processingequipment and can directly saw off the operation to the club, have satisfied different processing demands, have improved complete machine work efficiency greatly.

Description

Numerical control end face mill for mullion of efficient door and window with double transverse cutters and single vertical cutter

The technical field is as follows:

the utility model relates to a club numerical control end mill in high-efficient door and window of two horizontal sword list vertical knives.

Background art:

the end face milling is a machine for processing door and window profiles, and is mainly used for processing a door and window mullion or a reinforced mullion according to the requirements of users. Current end face mills, and general function is all more single, or sets up the rabbet inefficiency, or saw off operation need with the door and window muntin transfer to other equipment, has reduced the whole work efficiency that the end face milled, can't satisfy the demand in market.

The utility model has the following contents:

the utility model discloses a remedy prior art not enough, provide a club numerical control end face mills in high-efficient door and window of two horizontal sword list vertical knives, the integrated level is high, and degree of automation is high, has improved and has seted up rabbet efficiency, can directly saw off the operation to the club, has satisfied different processing demands, has improved complete machine work efficiency greatly, has solved the problem that exists among the prior art.

The utility model discloses a solve the technical scheme that above-mentioned technical problem adopted and be:

the utility model provides a club numerical control end face mills in high-efficient door and window of two horizontal sword list vertical knives, includes the frame, is equipped with X axis rail in the frame, slidable mounting has table surface through X axle actuating mechanism drive on the X axis rail, table surface is last to be equipped with three sets of Y axis rails, installs first horizontal sword processingequipment, the horizontal sword processingequipment of second and vertical sword processingequipment through Y axle actuating mechanism drive respectively in proper order on three sets of Y axis rails, installs press device in the frame of first horizontal sword processingequipment one side, still is equipped with electrical cabinet and switch board in the frame, and X axle actuating mechanism, Y axle actuating mechanism, first horizontal sword processingequipment, the horizontal sword processingequipment of second and vertical sword processingequipment link to each other with the switch board through the wire respectively.

The first transverse cutter machining device and the second transverse cutter machining device are identical in structure and comprise transverse cutter frames which are slidably mounted on Y axis rails, Z axis rails are arranged on the transverse cutter frames, transverse cutter motors driven by Z axis driving mechanisms are slidably mounted on the Z axis rails, transverse cutters are mounted on output shafts of the transverse cutter motors, and the Z axis driving mechanisms and the transverse cutter motors are connected with a control cabinet through wires.

The vertical cutter processing device comprises a vertical cutter frame which is slidably mounted on a Y axis rail, a Z axis rail is arranged on the vertical cutter frame, a vertical cutter motor which is driven by a Z axis driving mechanism is slidably mounted on the Z axis rail, a vertical cutter is mounted on an output shaft of the vertical cutter motor, and the vertical cutter motor is connected with the control cabinet through a wire.

The X-axis driving mechanism comprises an X-axis motor and a gear rack transmission structure.

The Y-axis driving mechanism comprises a Y-axis motor and a lead screw transmission structure.

The Z-axis driving mechanism comprises a Z-axis motor and a lead screw transmission structure.

The material pressing device comprises a material pressing platform arranged on the rack, a material pressing frame is arranged on the material pressing platform, a material pressing cylinder is arranged on the material pressing frame, a piston rod at the bottom of the material pressing cylinder is connected with a material pressing plate, and a guide rod is arranged between the material pressing plate and the material pressing frame.

And a positioning plate is arranged on the material pressing platform.

The above technical scheme is adopted in the utility model, following advantage has:

with first horizontal sword processingequipment, the horizontal sword processingequipment of second and found sword processingequipment integration to an organic whole, the integrated level is high, and degree of automation is high, and first horizontal sword processingequipment and the horizontal sword processingequipment cooperation work of second have improved greatly and have seted up rabbet efficiency, found sword processingequipment can directly saw the operation to the club, have satisfied different processing demands, have improved complete machine work efficiency greatly.

Description of the drawings:

fig. 1 is a schematic structural diagram of the present invention.

In the figure, 1, a frame, 2, an X-axis rail, 3, a worktable, 4, a Y-axis rail, 5, a Y-axis driving mechanism, 6, an electric appliance cabinet, 7, a control cabinet, 8, a transverse knife rest, 9, a Z-axis rail, 10, a Z-axis driving mechanism, 11, a transverse knife motor, 12, a transverse knife, 13, a vertical knife rest, 14, a vertical knife motor, 15, a vertical knife, 16, a material pressing platform, 17, a material pressing frame, 18, a material pressing cylinder, 19, a material pressing plate, 20, a guide rod, 21 and a positioning plate.

The specific implementation mode is as follows:

in order to clearly illustrate the technical features of the present invention, the present invention is explained in detail by the following embodiments in combination with the accompanying drawings.

As shown in figure 1, a numerical control end mill for a mullion of a double-transverse-cutter single-vertical-cutter efficient door and window comprises a frame 1, wherein an X axis rail 2 is arranged on the frame 1, a workbench surface 3 driven by an X axis driving mechanism is slidably mounted on the X axis rail 2, three sets of Y axis rails 4 are arranged on the workbench surface 3, a first transverse-cutter processing device, a second transverse-cutter processing device and a vertical-cutter processing device which are respectively driven by a Y axis driving mechanism 5 are sequentially mounted on the three sets of Y axis rails 4, a material pressing device is mounted on the frame 1 on one side of the first transverse-cutter processing device, an electric appliance cabinet 6 and a control cabinet 7 are further arranged on the frame 1, the X axis driving mechanism, the Y axis driving mechanism, the first transverse-cutter processing device, the second transverse-cutter processing device and the vertical-cutter processing device are respectively connected with the control cabinet 7 through wires, and the X axis driving mechanism, the Y axis driving mechanism, the vertical, The first transverse cutter processing device, the second transverse cutter processing device and the vertical cutter processing device are electrically controlled.

First horizontal sword processingequipment, the horizontal sword processingequipment structure of second is the same, including the horizontal sword 8 of slidable mounting on Y axis rail 4, is equipped with Z axis rail 9 on the horizontal sword 8, and slidable mounting has horizontal sword motor 11 that drives through Z axle actuating mechanism 10 on the Z axis rail 9, and horizontal sword 12 is installed to horizontal sword motor 11's output shaft, and horizontal sword 12 is the blade of level setting, and Z axle actuating mechanism 10 and horizontal sword motor 11 pass through the wire and link to each other with switch board 7.

The vertical cutter machining device comprises a vertical cutter frame 13 which is slidably mounted on a Y-axis rail 4, a Z-axis rail 9 is arranged on the vertical cutter frame 13, a vertical cutter motor 14 which is driven by a Z-axis driving mechanism 10 is slidably mounted on the Z-axis rail 9, a vertical cutter 15 is mounted on an output shaft of the vertical cutter motor 14, the vertical cutter 15 is a vertically arranged blade, and the vertical cutter motor 14 is connected with the control cabinet 7 through a wire.

When the door and window mullion tenon mouth is in a plurality of different shapes and different heights, the first transverse cutter processing device and the second transverse cutter processing device work simultaneously, a transverse cutter motor 11 driven by a Z-axis driving mechanism 10 of the first transverse cutter processing device moves up and down on a Z-axis rail 9, and a transverse cutter 12 moves to a certain height; the horizontal sword motor 11 that the Z axle actuating mechanism 10 of the horizontal sword processingequipment of second drove reciprocates on Z axis rail 9, removes horizontal sword 12 to different heights, like this, two horizontal sword 12 during simultaneous operation can set up the rabbet to different heights on the door and window muntin, have improved greatly and have set up rabbet efficiency. In addition, some muntin rabbets are seted up and are accomplished the back, still need saw off the operation, and at this moment, start upright sword processingequipment, Z axle actuating mechanism 10 drives upright sword motor 14 and reciprocates on Z axis rail 9, adjusts upright sword 15 to suitable height, can saw off the muntin to the door and window, need not to shift other equipment with muntin to the door and window, has satisfied different processing demands, has improved work efficiency greatly.

The X-axis driving mechanism comprises an X-axis motor and a gear rack transmission structure; the Y-axis driving mechanism comprises a Y-axis motor and a lead screw transmission structure; the Z-axis driving mechanism comprises a Z-axis motor and a lead screw transmission structure. The transmission structures are conventional transmission structures in the industry, the protection scope of the application is not limited to the transmission structures, and the transmission forms conventional in other industries are within the protection scope of the application.

The pressing device comprises a pressing platform 16 arranged on the rack 1, a pressing frame 17 is arranged on the pressing platform 16, a pressing cylinder 18 is arranged on the pressing frame 17, a piston rod at the bottom of the pressing cylinder 18 is connected with a pressing plate 19, a guide rod 20 is arranged between the pressing plate 19 and the pressing frame 17, and a positioning plate 21 is arranged on the pressing platform 16. During processing, the door and window mullion is placed on the material pressing platform 16, the material pressing platform is positioned through the positioning plate 21, then the material pressing cylinder 18 is started, a piston rod of the material pressing cylinder 18 extends to drive the material pressing plate 19 to move downwards, the material pressing plate 19 is guided through the guide rod 20 in the downward moving process to maintain stability, and the material pressing plate 19 presses and fixes the door and window mullion after moving downwards to the right position.

The above-mentioned specific embodiments can not be regarded as the restriction to the scope of protection of the utility model, to technical personnel in this technical field, it is right the utility model discloses any replacement improvement or transform that embodiment made all fall within the scope of protection of the utility model.

The parts of the present invention not described in detail are the known techniques of those skilled in the art.

Claims

1. The utility model provides a club numerical control end mill in high-efficient door and window of two horizontal sword list vertical knives which characterized in that: the X-axis machining device comprises a frame, wherein an X-axis rail is arranged on the frame, a workbench surface driven by an X-axis driving mechanism is slidably mounted on the X-axis rail, three sets of Y-axis rails are arranged on the workbench surface, a first transverse cutter machining device, a second transverse cutter machining device and a vertical cutter machining device which are driven by the Y-axis driving mechanism respectively are sequentially mounted on the three sets of Y-axis rails, a material pressing device is mounted on the frame on one side of the first transverse cutter machining device, an electric appliance cabinet and a control cabinet are further arranged on the frame, and the X-axis driving mechanism, the Y-axis driving mechanism, the first transverse cutter machining device, the second transverse cutter machining device and the vertical cutter machining device are connected with the control cabinet through wires respectively.

2. The numerical control face mill for the mullion of the high-efficiency door and window with double transverse cutters and single vertical cutter as claimed in claim 1, wherein: the first transverse cutter machining device and the second transverse cutter machining device are identical in structure and comprise transverse cutter frames which are slidably mounted on Y axis rails, Z axis rails are arranged on the transverse cutter frames, transverse cutter motors driven by Z axis driving mechanisms are slidably mounted on the Z axis rails, transverse cutters are mounted on output shafts of the transverse cutter motors, and the Z axis driving mechanisms and the transverse cutter motors are connected with a control cabinet through wires.

3. The numerical control face mill for the mullion of the high-efficiency door and window with double transverse cutters and single vertical cutter as claimed in claim 1, wherein: the vertical cutter processing device comprises a vertical cutter frame which is slidably mounted on a Y axis rail, a Z axis rail is arranged on the vertical cutter frame, a vertical cutter motor which is driven by a Z axis driving mechanism is slidably mounted on the Z axis rail, a vertical cutter is mounted on an output shaft of the vertical cutter motor, and the vertical cutter motor is connected with the control cabinet through a wire.

4. The numerical control face mill for the mullion of the high-efficiency door and window with double transverse cutters and single vertical cutter as claimed in claim 1, wherein: the X-axis driving mechanism comprises an X-axis motor and a gear rack transmission structure.

5. The numerical control face mill for the mullion of the high-efficiency door and window with double transverse cutters and single vertical cutter as claimed in claim 1, wherein: the Y-axis driving mechanism comprises a Y-axis motor and a lead screw transmission structure.

6. The numerical control face mill for the mullion of the high-efficiency door and window with double transverse cutters and single vertical cutter as claimed in claim 2 or 3, wherein: the Z-axis driving mechanism comprises a Z-axis motor and a lead screw transmission structure.

7. The numerical control face mill for the mullion of the high-efficiency door and window with double transverse cutters and single vertical cutter as claimed in claim 1, wherein: the material pressing device comprises a material pressing platform arranged on the rack, a material pressing frame is arranged on the material pressing platform, a material pressing cylinder is arranged on the material pressing frame, a piston rod at the bottom of the material pressing cylinder is connected with a material pressing plate, and a guide rod is arranged between the material pressing plate and the material pressing frame.

8. The numerical control face mill for the mullion of the high-efficiency door and window with double transverse cutters and single vertical cutter as claimed in claim 7, wherein: and a positioning plate is arranged on the material pressing platform.