CN112935838B

CN112935838B - Multifunctional automatic processing equipment for door and window metal parts

Info

Publication number: CN112935838B
Application number: CN202110303545.XA
Authority: CN
Inventors: 林普光
Original assignee: Chunguang Hardware Co ltd
Current assignee: Chunguang Hardware Co ltd
Priority date: 2021-03-22
Filing date: 2021-03-22
Publication date: 2023-01-17
Anticipated expiration: 2041-03-22
Also published as: CN112935838A

Abstract

The invention relates to multifunctional automatic machining equipment for door and window metal parts, which comprises a feeding device, a machining device and a discharging device, wherein the feeding device places the metal parts in the machining device one by one, the machining device comprises a machining track, a punching mechanism and a milling mechanism, one end of the machining track serves as a machining starting end, the other end of the machining track serves as a machining tail end, grinding parts are arranged on the side walls of the two sides of the machining track respectively, the punching mechanism comprises a punch seat and a machining displacement mechanism, the punch seat is provided with an arc punch for punching the front end of the metal part, the arc punch pushes the metal part to move along the machining track for pushing the metal part after punching, the grinding parts grind in the movement of the metal part until the metal part reaches the machining tail end, and the milling mechanism corresponds to the position of the machining tail end and mills the plane of the rear end of the metal part positioned at the machining tail end. By adopting the scheme, the invention provides the multifunctional automatic processing equipment for the door and window metal parts, which improves the processing efficiency and has a simple structure.

Description

Multifunctional automatic processing equipment for door and window metal parts

Technical Field

The invention relates to door and window processing equipment, in particular to multifunctional automatic processing equipment for door and window metal parts.

Background

In the structure of the door and window, various metal parts are often included, as shown in fig. 1, the metal part is a metal part with a locking function, and includes a strip-shaped main body, when machining is performed, an arc surface is punched at a front end a of the strip-shaped main body, two sides b of the strip-shaped main body are ground, and a plane is milled at a rear end c of the strip-shaped main body, and a circular hole d is punched in the strip-shaped main body before machining.

The processing steps often need a punch, a grinding machine and a milling machine, and the semi-finished products are manually transferred among the devices in sequence while the materials are manually loaded, so that the processing efficiency is greatly reduced.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide multifunctional automatic processing equipment for door and window metal parts, which improves the processing efficiency and has a simple structure

In order to achieve the purpose, the invention provides the following technical scheme: including feed arrangement, processingequipment and discharging device, feed arrangement place metal part in processingequipment one by one, processingequipment including processing track, punching press mechanism and milling machine structure, processing track one end as the processing starting point of receiving metal part, the other end is as the processing end of output metal part, processing track both sides lateral wall be provided with the grinding piece respectively, punching press mechanism include punch holder and drive punch holder along vertical and processing orbital direction removal processing displacement mechanism, the punch holder be provided with the circular arc drift that is used for blanking metal part front end, circular arc drift blanking promote metal part back along promoting metal part processing track and remove, the grinding piece grinds in metal part moves, and is terminal until reaching the processing, milling machine construct and process terminal position corresponding and will be located the plane of processing terminal metal part rear end and mill.

Through adopting above-mentioned technical scheme, realized improving machining efficiency, the technical effect that the structure is retrencied from a plurality of aspects, specifically as follows: (1) three traditional devices are combined into one, the punching, grinding and milling are concentrated on the same station, the three processing actions are connected compactly, no pause exists in the three processing actions, and the processing efficiency is effectively ensured; (2) the lower die of a blanking die required by the traditional equipment in blanking is omitted, and the structure is simplified; (3) according to the scheme, a driving piece for driving a grinding part to rotate is replaced by longitudinal movement of a punch seat, a motor for driving is omitted, the structure is simplified, meanwhile, the grinding part and the ground metal part are stably attached in the grinding process instead of being manually approached, and high grinding quality is guaranteed; (4) the processing track is directly used as a tool clamp for mounting metal parts in the milling mechanism, so that the structure is simplified.

The invention is further configured to: the machining displacement mechanism comprises a machining seat, a machining slide rail, a machining advance and retreat cylinder and a machining lifting cylinder, the machining slide rail is positioned above the machining rail and is parallel to the machining rail, the machining seat slides on the machining slide rail and slides under the driving of the machining advance and retreat cylinder, and the machining lifting cylinder is installed on the machining seat and drives the punch to lift.

Through adopting above-mentioned technical scheme, realize fast, the accurate removal of punch holder by processing advance and retreat cylinder and processing lift cylinder cooperation.

The invention is further configured to: and the punch seat is fixedly provided with a processing positioning column which penetrates through a circular hole of the metal part.

Through adopting above-mentioned technical scheme, add the processing reference column, the existing structure of rational utilization metal part realizes after it passes the metal part round hole that metal part moves along with synchronous, accurate of punch holder, guarantees the processing effect.

The invention is further configured to: feed arrangement include vibration dish, feeding track and feed mechanism, the feeding track link up and be provided with the drive metal part from vibration dish to directly shaking of processing track removal between vibration dish and the processing track and shake, feed mechanism be located processing track and the orbital linking department of feeding, feed mechanism include feed head and drive feed head along vertical and the feeding displacement mechanism who processes the track direction and remove, the feed head be provided with the feeding reference column that passes the metal part round hole, the feeding reference column pass the metal part round hole after along with the feed head removal, make metal part arrive the processing track from the feeding track one by one.

Through adopting above-mentioned technical scheme, the rational utilization metal parts round hole realizes along with synchronous, accurate removal of feed head with the cooperation of feeding reference column, guarantees that each metal parts can be one by one, accurate position of reacing the processing top to guarantee follow-up blanking processing and processing reference column and metal parts and the cooperation of round hole.

The invention is further configured to: the feeding displacement mechanism comprises a feeding seat, a feeding slide rail, a feeding advance and retreat cylinder and a feeding lifting cylinder, the feeding slide rail is parallel to the feeding track, the feeding seat slides on the feeding slide rail and slides under the driving of the feeding advance and retreat cylinder, and the feeding lifting cylinder is arranged on the feeding seat and drives the feeding head to lift.

By adopting the technical scheme, the feeding seat can be quickly and accurately moved by the matching of the feeding advance and retreat cylinder and the feeding lifting cylinder.

The invention is further configured to: the discharging device comprises a discharging ramp, the higher end of the discharging ramp is positioned below the machining tail end, the lower end of the discharging ramp extends to the metal part collecting position, the machining tail end is open, and the higher end of the discharging ramp is used for receiving the metal part which is subjected to the last machining and falls off by the next metal part to be milled.

By adopting the technical scheme, the thrust of the next metal component to be milled is reasonably utilized, the metal component which is processed last is pushed down to the processing tail end, a transfer piece for transferring the metal component at the processing tail end is omitted, and the structure is simplified.

The invention is further configured to: the milling mechanism comprises a milling slide rail, a milling seat and a milling air cylinder, the milling seat is provided with a milling head corresponding to the machining tail end and a milling motor for driving the milling head to rotate, the milling slide rail is perpendicular to the machining rail, and the milling air cylinder drives the milling seat to slide on the milling slide rail in a reciprocating mode.

By adopting the technical scheme, the milling cylinder drives the milling seat to slide in the milling slide rail in a reciprocating manner, so that the rotary milling head can completely mill the rear end of the metal part, and the milling is rapidly and accurately finished.

The invention is further configured to: the part of the processing track at the processing tail end is used as a clamping part which is arranged separately from the processing track, and a clamping cylinder for driving the processing track to ascend and descend is arranged below the clamping part.

Through adopting above-mentioned technical scheme, will process the track and be located the part at processing end and can go up and down, make the metal parts can fully press from both sides tightly in the milling process to guarantee milling effect and processing safety.

Drawings

FIG. 1 is a perspective view of a metal part;

FIG. 2 is a perspective view of an embodiment of the present invention;

FIG. 3 is a perspective view of a processing device in accordance with an embodiment of the present invention;

FIG. 4 is an enlarged view of A in FIG. 3;

FIG. 5 is a perspective view of a punch platform according to an embodiment of the present invention;

FIG. 6 is a perspective view of a feeding device in accordance with an embodiment of the present invention;

fig. 7 is a perspective view of a discharging device in an embodiment of the present invention.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

As shown in fig. 1-fig. 1, the present invention discloses a multifunctional automatic processing device for metal components of doors and windows, including a feeding device 1, a processing device 2 and a discharging device 3, where the feeding device 1 places the metal components one by one in the processing device 2, the processing device 2 includes a processing rail 21, a punching mechanism 22 and a milling mechanism 23, one end of the processing rail 21 serves as a processing start end 211 for receiving the metal components, and the other end of the processing rail serves as a processing end 212 for outputting the metal components, side walls on both sides of the processing rail 21 are respectively provided with a grinding part 213, the grinding part 213 is a peeling tool, the punching mechanism 22 includes a punch holder 221 and a processing displacement mechanism 222 for driving the punch holder to move along a vertical direction and the processing rail 21 direction, the punch holder 221 is provided with an arc punch 2211 for punching the front end of the metal components, the arc punch 2211 pushes the metal components and then moves along the processing rail 21 for pushing the metal components, the grinding part 213 grinds during the movement of the metal components until the metal components reach the processing end 212, the milling mechanism 23 corresponds to the processing end 212 and performs punching on a plane at the rear end of the metal components located at the processing end 212, thereby realizing the effects of the milling technology from multiple aspects, and realizing the following specific milling technology as follows: (1) three traditional devices are combined into one, the punching, grinding and milling are concentrated on the same station, the three processing actions are connected compactly, no pause exists in the three processing actions, and the processing efficiency is effectively ensured; (2) the lower die of a blanking die required by the traditional equipment in blanking is omitted, and the structure is simplified; (3) according to the scheme, a driving piece for driving a grinding part to rotate is replaced by longitudinal movement of a punch seat 221, so that a motor for driving is omitted, the structure is simplified, meanwhile, the grinding part and the ground metal part are stably attached in the grinding process instead of being manually approached, and higher grinding quality is guaranteed; (4) the processing track 21 is directly used as a tool clamp for mounting metal components in the milling mechanism 23, and the structure is simplified.

The machining displacement mechanism 222 includes a machining seat 2221, a machining slide rail 2222, a machining advancing and retreating cylinder 2223 and a machining lifting cylinder 2224, the machining slide rail 2222 is located above the machining rail 21 and is parallel to the machining rail 21, the machining seat 2221 slides on the machining slide rail 2222 and slides under the driving of the machining advancing and retreating cylinder 2223, the machining lifting cylinder 2224 is installed on the machining seat 2221 and drives the punch to lift, and the machining advancing and retreating cylinder 2223 and the machining lifting cylinder 2224 are matched to realize the rapid and accurate movement of the punch seat 221.

The punch holder 221 is fixedly provided with a processing positioning column 2212 penetrating through a circular hole of the metal part, the processing positioning column 2212 is additionally arranged, the existing structure of the metal part is reasonably utilized, the metal part can move synchronously and accurately along with the punch holder 221 after penetrating through the circular hole of the metal part, and the processing effect is guaranteed.

The feeding device 1 comprises a vibrating disk 11, a feeding track 12 and a feeding mechanism 13, wherein the feeding track 12 is connected between the vibrating disk 11 and a processing track 21 and is provided with a straight vibration 121 for driving a metal part to move from the vibrating disk 11 to the processing track 21, the feeding mechanism 13 is positioned at the connection position of the processing track 21 and the feeding track 12, the feeding mechanism 13 comprises a feeding head 131 and a feeding displacement mechanism 132 for driving the feeding head 131 to move along the vertical direction and the processing track 21 direction, the feeding head 131 is provided with a feeding positioning column 1311 penetrating through a circular hole of the metal part, the feeding positioning column 1311 penetrates through the circular hole of the metal part and then moves along with the feeding head 131, so that the metal part reaches the processing track 21 from the feeding track 12 one by one, the circular hole of the metal part is reasonably utilized, the metal part is matched with the feeding positioning column 1311 to realize synchronization and accurate movement along with the feeding head 131, and each metal part can accurately reach the accurate position of a processing starting end 211 one by one, and thus the matching of a subsequent punching processing positioning column 2212 with the metal part and the circular hole is ensured.

The feeding displacement mechanism 132 comprises a feeding seat 1321, a feeding slide rail 1322, a feeding advance and retreat cylinder 1323 and a feeding lifting cylinder 1324, wherein the feeding slide rail 1322 is parallel to the feeding track, the feeding seat 1321 slides on the feeding slide rail 1322 and slides under the driving of the feeding advance and retreat cylinder 1323, the feeding lifting cylinder 1324 is installed on the feeding seat 1321 and drives a feeding head to lift, and the feeding advance and retreat cylinder 1323 and the feeding lifting cylinder 1324 are matched to realize the quick and accurate movement of the feeding seat 1321.

The discharging device 3 comprises a discharging ramp 31, the higher end 311 of the discharging ramp 31 is located below the machining tail end 212, the lower end 312 extends to the metal part collecting position, the material frame 32 is selected from the metal part collecting position, the machining tail end 212 is in an open shape, the higher end 311 of the discharging ramp 31 is used for receiving a metal part which is subjected to the last machining and falls off from the metal part to be milled next, the thrust force of the metal part to be milled next is reasonably utilized, the metal part which is subjected to the last machining falls off from the machining tail end 212, a transfer piece for transferring the metal part which is subjected to the machining tail end 212 is omitted, and the structure is simplified.

The milling mechanism 23 comprises a milling slide rail 231, a milling seat 232 and a milling cylinder 233, the milling seat 232 is provided with a milling head 234 corresponding to the machining tail end 212 and a milling motor 235 for driving the milling head 234 to rotate, the milling slide rail 231 is perpendicular to the machining rail 21, the milling cylinder 233 drives the milling seat 232 to slide in the milling slide rail 231 in a reciprocating manner, and the milling cylinder 233 drives the milling seat 232 to slide in the milling slide rail 231 in a reciprocating manner, so that the rotating milling head 234 can completely mill the rear end of a metal part, and the milling can be rapidly and accurately completed.

In order to reasonably utilize the space of the equipment, two groups of feeding devices 1, processing devices 2 and discharging devices 3 are often arranged, so that the processing efficiency is improved.

The part of the processing rail 21 at the processing end 212 is used as a clamping part 214 which is arranged separately from the processing rail 21, a clamping cylinder 215 for driving the processing rail to ascend and descend is arranged below the clamping part 214, and the part of the processing rail 21 at the processing end 212 can ascend and descend, so that metal parts can be sufficiently clamped in the milling process, and the milling effect and the processing safety are ensured.

Claims

1. The utility model provides a multi-functional automatic processing equipment of door and window metal parts which characterized in that: including feed arrangement, processingequipment and discharging device, feed arrangement place metal part in processingequipment one by one, processingequipment including processing track, punching press mechanism and milling machine structure, processing track one end as the processing starting point of receiving metal part, the other end is as the processing end of output metal part, processing track both sides lateral wall be provided with the grinding piece respectively, punching press mechanism include punch holder and drive punch holder along vertical and processing orbital direction removal processing displacement mechanism, the punch holder be provided with the circular arc drift that is used for blanking metal part front end, circular arc drift blanking promote metal part back along promoting metal part processing track and remove, the grinding piece grinds in metal part moves, and is terminal until reaching the processing, milling machine construct and process terminal position corresponding and will be located the plane of processing terminal metal part rear end and mill.

2. The multifunctional automatic processing equipment for door and window metal parts as claimed in claim 1, wherein: the machining displacement mechanism comprises a machining seat, a machining slide rail, a machining advance and retreat cylinder and a machining lifting cylinder, the machining slide rail is positioned above the machining track and is parallel to the machining track, the machining seat slides on the machining slide rail and slides under the driving of the machining advance and retreat cylinder, and the machining lifting cylinder is installed on the machining seat and drives the arc punch to lift.

3. The multifunctional automatic processing equipment for door and window metal parts according to claim 1, characterized in that: and the punch seat is fixedly provided with a processing positioning column which penetrates through a round hole of the metal part.

4. The multifunctional automatic processing equipment for door and window metal parts as claimed in claim 3, wherein: feed arrangement include vibration dish, feeding track and feed mechanism, the feeding track link up and be provided with the drive metal part from vibration dish to directly shaking of processing track removal between vibration dish and the processing track and shake, feed mechanism be located processing track and the orbital linking department of feeding, feed mechanism include feed head and drive feed head along vertical and the feeding displacement mechanism who processes the track direction and remove, the feed head be provided with the feeding reference column that passes the metal part round hole, the feeding reference column pass the metal part round hole after along with the feed head removal, make metal part arrive the processing track from the feeding track one by one.

5. The multifunctional automatic processing equipment for door and window metal parts as claimed in claim 4, wherein: the feeding displacement mechanism comprises a feeding seat, a feeding slide rail, a feeding advance and retreat cylinder and a feeding lifting cylinder, the feeding slide rail is parallel to the feeding track, the feeding seat slides on the feeding slide rail and slides under the driving of the feeding advance and retreat cylinder, and the feeding lifting cylinder is arranged on the feeding seat and drives the feeding head to lift.

6. The multifunctional automatic processing equipment for door and window metal parts according to claim 1, characterized in that: the discharging device comprises a discharging ramp, the higher end of the discharging ramp is positioned below the machining tail end, the lower end of the discharging ramp extends to the metal part collecting position, the machining tail end is open, and the higher end of the discharging ramp is used for receiving a last machined metal part which is jacked and falls down by a next metal part to be milled.

7. The multifunctional automatic processing equipment for door and window metal parts according to claim 1, characterized in that: the milling mechanism comprises a milling slide rail, a milling seat and a milling air cylinder, the milling seat is provided with a milling head corresponding to the machining tail end and a milling motor for driving the milling head to rotate, the milling slide rail is perpendicular to the machining rail, and the milling air cylinder drives the milling seat to slide on the milling slide rail in a reciprocating mode.

8. The multifunctional automatic processing equipment for door and window metal parts as claimed in claim 7, wherein: the part of the processing track at the processing tail end is used as a clamping part which is arranged separately from the processing track, and a clamping cylinder for driving the processing track to ascend and descend is arranged below the clamping part.