CN214602305U - Double-station square edge trimmer - Google Patents

Abstract

The utility model discloses a double-station square edge trimmer, which comprises a frame, a feeding mechanism, a transferring mechanism and an edge trimming mechanism; the feeding mechanism comprises a feeding device, a feeding channel and a material taking table, the feeding device is arranged on the side part of the rack, the top end of the feeding channel is connected with the feeding device, and the bottom end of the feeding channel is connected with the material taking table arranged on a workbench at the top end of the rack; the transferring mechanism comprises a transferring component and two manipulators, the transferring component is connected to the rack, and the manipulators are connected to the power output ends of the transferring component; the trimming mechanism comprises a driving device, tool holders, a die and a cutter, the driving device is arranged in the rack, the two tool holders are connected to the rack in parallel, the driving device is in driving connection with the two tool holders, a chuck is arranged in each tool holder, the tool holders are connected to the outer wall of the chuck in a rotating mode, and the die is detachably connected to the chuck. The utility model discloses a trimming device in duplex position carries out the automation to the overlap that produces after the aluminium lid is tensile and cuts, very big improvement work efficiency.

Description

Double-station square edge trimmer

Technical Field

The utility model relates to an aluminium lid processing technology field especially relates to a duplex position four directions bead cutter.

Background

With the continuous improvement of the living standard of people, the requirements of people on the quality of life are higher and higher, and both men and women pay attention to maintenance, so that the current cosmetic industry is well-sold, the various industries related to the cosmetic industry are greatly promoted, the cosmetic packaging bottle is a necessary product in the cosmetic industry, and most cosmetics are stored and filled through the cosmetic packaging bottle. The aluminum cover is a common sealing part on the cosmetic packaging bottle, although the structure of the aluminum cover is very simple, the aluminum cover can be manufactured and formed from an aluminum plate through a plurality of processes such as punching, drawing, trimming, necking and flanging.

The trimming is an important link in the aluminum cover manufacturing process, and aims to cut off redundant flash generated after the aluminum cover is pulled out, so that preparation is made for the next process. In prior art, the side cut of aluminium lid mainly cuts through the manual work, and this kind of traditional side cut mode is wasted time and energy, very big reduction work efficiency.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a duplex position four directions bead cutter adopts the side cut device in duplex position to carry out the automation to the overlap that produces after the aluminium lid is tensile and cuts, very big improvement work efficiency to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

a double-station square edge trimmer comprises a rack, a feeding mechanism, a transferring mechanism and an edge trimming mechanism; the feeding mechanism comprises a feeding device, a feeding channel and a material taking table, the feeding device is arranged on the side part of the rack, the top end of the feeding channel is connected with the feeding device, and the bottom end of the feeding channel is connected with the material taking table arranged on a workbench at the top end of the rack; the transferring mechanism comprises a transferring component and two manipulators, the transferring component is connected to the rack, and the manipulators are connected to the power output ends of the transferring component; the trimming mechanism comprises a driving device, tool holders, a die and a cutter, the driving device is arranged in the rack, the two tool holders are connected to the rack in parallel, the driving device is connected to the two tool holders in a driving mode, a chuck is arranged in each tool holder, the tool holders are connected to the outer wall of the chuck in a rotating mode, the die is detachably connected to the chuck, and the cutter is detachably connected to the tool holders.

The utility model has the further improvement that the feeding device is a vibrating disk feeding machine which is raised and fixedly connected on a base at the side part of the frame; the material taking table comprises a vertical plate fixedly connected to the workbench, and a supporting plate and a material placing plate are fixedly connected to the vertical plate from top to bottom; the top end of the feeding channel is connected to a discharging port of the vibrating disc feeding machine, the bottom end of the feeding channel is connected to the supporting plate, and the bottom opening of the feeding channel is located above the material placing plate.

The utility model has the further improvement that the driving device comprises a motor and a speed reducer which are fixedly connected with the inner side of the frame, and the motor is connected with the speed reducer in a driving way; two support plates are fixedly connected to the workbench on two sides of the material taking table, the chuck is cylindrical, one end of the chuck is fixedly connected to the inner side end of each support plate, and the mold is fixedly connected to the other end of the chuck; the cutter holder is rotationally connected to the outer wall of the chuck, an annular groove is formed in the outer wall of the cutter holder, the speed reducer is connected to the cutter holder through a belt in a transmission mode, and a notch for allowing the belt to penetrate through is formed in the workbench; the end of the tool apron close to the shifting mechanism is at least provided with a clamping groove, and the tool is clamped and locked in the clamping groove through a fastening piece a.

The utility model discloses a further improvement is, move and carry the subassembly and include X axle sharp slip table module and Y axle sharp slip table module, X axle sharp slip table module rigid coupling bottom plate on the workstation, Y axle sharp slip table module rigid coupling is on the nut piece of X axle sharp slip table module, and the rigid coupling has the U template on the nut piece of Y axle sharp slip table module, two manipulator rigid couplings in the both ends of U template.

The utility model discloses a further improvement is, the back end rigid coupling of mould has the integral key shaft, is equipped with the integral key shaft with spline groove adaptation in the chuck, and the one end of mould is pegged graft and is locked in the chuck through fastener b.

The utility model discloses a further improvement scheme is, be equipped with hourglass bits mouth on the workstation under the cutter, the rigid coupling has the chip removal passageway in the frame of hourglass bits mouth bottom, and the one end of chip removal passageway extends to the frame outside.

The utility model discloses a further improvement scheme is, this side rigid coupling that the breach is close to hourglass bits mouth has the baffle, and the top of baffle is equipped with the arc wall that is used for keeping away a blade holder.

The utility model discloses a further improvement is, it has the shroud to move the equal rigid coupling in the outside of carrying mechanism and side cut mechanism.

The utility model discloses a further improvement is, still be equipped with automatic unloader on the workstation of manipulator below.

The utility model discloses a further improvement scheme is, automatic unloader is the belt conveyor of level setting.

The utility model has the advantages that:

one, the utility model discloses a duplex position four directions bead cutter adopts the trimming device in duplex position to carry out the automation to the overlap that produces after the aluminium lid is tensile and cuts, very big improvement work efficiency.

Two, the utility model discloses a duplex position four directions bead cutter, feedway adopt vibration dish material loading machine, need not artifical material loading, and then have improved the efficiency of material loading.

Three, the utility model discloses a duplex position four directions bead cutter moves and carries the subassembly and adopts X axle sharp slip table module and Y axle sharp slip table module, removes convenient flexibility.

Four, the utility model discloses a duplex position four directions bead cutter is equipped with hourglass bits mouth on the workstation under the cutter, and the rigid coupling has the chip removal passageway in the frame of hourglass bits mouth bottom, and the one end of chip removal passageway extends to the frame outside to guarantee to cut overlap and the piece of production and can in time discharge.

Fifth, the utility model discloses a duplex position four directions bead cutter, this side rigid coupling that the breach is close to hourglass bits mouth have the baffle to prevent that the piece from getting into in the frame from the breach.

Six, the utility model discloses a duplex position four directions bead cutter moves the equal rigid coupling in the outside that carries mechanism and bead cutter and has the shroud, has promoted the security performance of bead cutter by a wide margin.

Seventhly, the utility model discloses a duplex position four directions bead cutter still is equipped with automatic unloader on the workstation of manipulator below, but the aluminium lid is automatic unloading after cutting edge, has further improved work efficiency.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the overall structure of the present invention.

Fig. 3 is a schematic view of a partial structure of the present invention.

Fig. 4 is a schematic structural view of the trimming mechanism of the present invention.

Fig. 5 is a schematic view of a partial structure of the present invention.

Fig. 6 is a partial plan view of the present invention.

Fig. 7 is a schematic view of the mold structure of the present invention.

In the figure: 1-frame, 101-workbench, 102-notch, 103-chip leakage port, 104-chip removal channel, 105-baffle, 106-cover, 2-feeding mechanism, 201-feeding channel, 202-vertical plate, 203-supporting plate, 204-material placing plate, 205-base, 206-vibration disc feeding machine, 3-transfer mechanism, 301-mechanical arm, 302-X axis linear sliding table module, 303-Y axis linear sliding table module, 304-U type plate, 4-edge cutting mechanism, 401-tool apron, 4011-groove, 4012-clamping groove, 402-die, 4021-spline shaft, 403-tool, 404-clamping head, 405-motor, 406-speed reducer, 5-belt conveyor and 6-aluminum cover.

Detailed Description

The invention will be further elucidated with reference to the drawings and the specific embodiments.

As shown in fig. 1 to 7, a double-station square edge trimmer comprises a frame 1, a feeding mechanism 2, a transferring mechanism 3 and an edge cutting mechanism 4; the feeding mechanism 2 comprises a feeding device, a feeding channel 201 and a material taking table, the feeding device is arranged on the side portion of the rack 1, the top end of the feeding channel 201 is connected with the feeding device, and the bottom end of the feeding channel is connected with the material taking table arranged on the top end workbench 101 of the rack 1; the transferring mechanism 3 comprises a transferring component and two manipulators 301, the transferring component is connected to the rack 1, and the manipulators 301 are connected to the power output ends of the transferring component; the trimming mechanism 4 comprises a driving device, tool holders 401, a die 402 and a cutter 403, the driving device is arranged in the rack 1, the two tool holders 401 are connected to the rack 1 in parallel, the driving device is connected to the two tool holders 401 in a driving mode, a clamping head 404 is arranged in each tool holder 401, each tool holder 401 is connected to the outer wall of each clamping head 404 in a rotating mode, the die 402 is detachably connected to each clamping head 404, and the cutter 403 is detachably connected to each tool holder 401; the feeding device is a vibrating disk feeding machine 206 which is lifted and fixedly connected to a base 205 at the side part of the frame 1; the material taking table comprises a vertical plate 202 fixedly connected to the workbench 101, and a supporting plate 203 and a material placing plate 204 are fixedly connected to the vertical plate 202 from top to bottom; the top end of the feeding channel 201 is connected to a discharge hole of the vibrating disc feeder 206, the bottom end of the feeding channel 201 is connected to the supporting plate 203, and the bottom opening of the feeding channel 201 is located above the material placing plate 204; the driving device comprises a motor 405 and a speed reducer 406 which are fixedly connected to the inner side of the frame 1, and the motor 405 is connected to the speed reducer 406 in a driving way; two support plates 203 are fixedly connected to the workbench 101 on two sides of the material taking table, a clamp 404 is cylindrical, one end of the clamp is fixedly connected to the inner side end of each support plate 203, and a die 402 is fixedly connected to the other end of the clamp 404; the tool apron 401 is rotatably connected to the outer wall of the clamping head 404, an annular groove 4011 is formed in the outer wall of the tool apron 401, the speed reducer 406 is connected to the tool apron 401 through a belt in a transmission mode, and a notch 102 for allowing a belt to pass through is formed in the workbench 101; the end of the tool apron 401 close to the transfer mechanism 3 is at least provided with a clamping groove 4012, and the tool 403 is clamped and locked in the clamping groove 4012 through a fastener a; in this embodiment, the number of the clamping slots 4012 is two, and thus the number of the cutters 403 is also two; the transfer assembly comprises an X-axis linear sliding table module 302 and a Y-axis linear sliding table module 303, the X-axis linear sliding table module 302 is fixedly connected to a bottom plate on the workbench 101, the Y-axis linear sliding table module 303 is fixedly connected to a nut block of the X-axis linear sliding table module 302, a U-shaped plate 304 is fixedly connected to the nut block of the Y-axis linear sliding table module 303, and two manipulators 301 are fixedly connected to two ends of the U-shaped plate 304; a spline shaft 4021 is fixedly connected to the rear section of the die 402, the spline shaft 4021 matched with the spline groove is arranged in the chuck 404, and one end of the die 402 is inserted and locked in the chuck 404 through a fastener b; a chip leakage port 103 is arranged on the workbench 101 right below the cutter 403, a chip removal channel 104 is fixedly connected in the rack 1 at the bottom of the chip leakage port 103, and one end of the chip removal channel 104 extends to the outer side of the rack 1; a baffle 105 is fixedly connected to the side, close to the chip leakage port 103, of the notch 102, and an arc-shaped groove for avoiding the cutter holder 401 is formed in the top end of the baffle 105; a cover 106 is fixedly connected to the outer sides of the transferring mechanism 3 and the trimming mechanism 4.

Example 2: the embodiment is a further improvement of the embodiment 1, and the main improvement is that the blanking is inconvenient when the embodiment 1 is used; in the present embodiment, the above-mentioned defects can be avoided, specifically:

an automatic blanking device is further arranged on the workbench 101 below the manipulator 301; the automatic blanking device is a belt conveyor 5 which is horizontally arranged. The aluminum cover 6 of the embodiment can automatically discharge after trimming, and the working efficiency is further improved.

Otherwise, this embodiment is identical to embodiment 1, and will not be described herein.

The utility model discloses a concrete theory of operation as follows:

before use, different molds 402 can be selected according to the shape of the aluminum cover 6, in the embodiment, the aluminum cover 6 is square, and the mold 402 is square matched with the square; during processing, the drawn aluminum covers 6 are stored in the vibration disc feeder 206, and when the vibration disc feeder 206 works, the aluminum covers 6 are sequentially arranged in the feeding channel 201 until the first aluminum cover 6 touches the material placing plate 204; the mechanical arms 301 are driven by the X-axis linear sliding table module 302 and the Y-axis linear sliding table module 303 to move, one of the mechanical arms 301 grabs the first aluminum cover 6 and is placed on the first mold 402, meanwhile, the other mechanical arm 301 grabs the second aluminum cover 6, and the motor 405 drives the tool apron 401 to rotate, so that the tool 403 cuts burrs, and the burrs and chips fall into the chip removal channel 104 from the chip leakage port 103; after the edge of the first aluminum cover 6 is cut, the mechanical arm 301 picks the first aluminum cover 6 and places the first aluminum cover on the belt conveyor 5, the other mechanical arm 301 places the second aluminum cover 6 on the second mold 402 and performs edge cutting, after the edge is cut, the mechanical arm 301 picks the second aluminum cover 6 and places the second aluminum cover 6 on the belt conveyor 5, and the other mechanical arm 301 picks the third aluminum cover 6, so that the process is repeated.

The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose of the embodiments is to enable those skilled in the art to understand the contents of the present invention and to implement the present invention, which cannot limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered by the protection scope of the present invention.

Claims (10)

1. The utility model provides a duplex position four directions bead cutter which characterized in that: comprises a frame (1), a feeding mechanism (2), a transferring mechanism (3) and an edge cutting mechanism (4);

the feeding mechanism (2) comprises a feeding device, a feeding channel (201) and a material taking table, the feeding device is arranged on the side portion of the rack (1), the top end of the feeding channel (201) is connected with the feeding device, and the bottom end of the feeding channel is connected with the material taking table arranged on a top end workbench (101) of the rack (1);

the transfer mechanism (3) comprises a transfer component and two manipulators (301), the transfer component is connected to the rack (1), and the manipulators (301) are connected to the power output ends of the transfer component;

the trimming mechanism (4) comprises a driving device, tool apron (401), a mold (402) and a cutter (403), the driving device is arranged in the rack (1), the two tool apron (401) are connected to the rack (1) in parallel, the driving device is connected to the two tool apron (401) in a driving mode, a clamping head (404) is arranged in the tool apron (401), the tool apron (401) is connected to the outer wall of the clamping head (404) in a rotating mode, the mold (402) is detachably connected to the clamping head (404), and the cutter (403) is detachably connected to the tool apron (401).

2. The double station four-sided edge trimmer of claim 1 wherein: the feeding device is a vibrating disc feeding machine (206) which is lifted and fixedly connected to a base (205) at the side part of the frame (1); the material taking table comprises a vertical plate (202) fixedly connected to the workbench (101), and a supporting plate (203) and a material placing plate (204) are fixedly connected to the vertical plate (202) from top to bottom; the top end of the feeding channel (201) is connected to a discharge hole of the vibrating disc feeder (206), the bottom end of the feeding channel is connected to the supporting plate (203), and a bottom opening of the feeding channel (201) is located above the material placing plate (204).

3. The double station four-sided edge trimmer of claim 1 wherein: the driving device comprises a motor (405) and a speed reducer (406) which are fixedly connected to the inner side of the rack (1), and the motor (405) is connected to the speed reducer (406) in a driving mode; two supporting plates (203) are fixedly connected to the workbench (101) on the two sides of the material taking table, the chuck (404) is cylindrical, one end of the chuck is fixedly connected to the inner side end of the supporting plate (203), and the mold (402) is fixedly connected to the other end of the chuck (404); the tool apron (401) is rotatably connected to the outer wall of the clamping head (404), an annular groove (4011) is formed in the outer wall of the tool apron (401), the speed reducer (406) is connected to the tool apron (401) through a belt in a transmission mode, and a notch (102) for allowing a belt to pass through is formed in the workbench (101); the end, close to the transfer mechanism (3), of the tool apron (401) is at least provided with a clamping groove (4012), and the tool (403) is clamped and locked in the clamping groove (4012) through a fastener a.

4. The double station four-sided edge trimmer of claim 1 wherein: move and carry subassembly and include X axle sharp slip table module (302) and Y axle sharp slip table module (303), the bottom plate of X axle sharp slip table module (302) rigid coupling on workstation (101), Y axle sharp slip table module (303) rigid coupling is on the nut piece of X axle sharp slip table module (302), the rigid coupling has U template (304) on the nut piece of Y axle sharp slip table module (303), two manipulator (301) rigid couplings are in the both ends of U template (304).

5. The double station four-sided edge trimmer of claim 3 wherein: the rear section of the die (402) is fixedly connected with a spline shaft (4021), the inside of the chuck (404) is provided with the spline shaft (4021) matched with the spline groove, and one end of the die (402) is inserted and locked in the chuck (404) through a fastener b.

6. The double station four-sided edge trimmer of claim 3 wherein: the chip removal machine is characterized in that a chip leakage port (103) is formed in the workbench (101) under the cutter (403), a chip removal channel (104) is fixedly connected into the rack (1) at the bottom of the chip leakage port (103), and one end of the chip removal channel (104) extends to the outer side of the rack (1).

7. The double station four-sided edge trimmer of claim 3 wherein: the side of the notch (102) close to the chip leakage port (103) is fixedly connected with a baffle (105), and the top end of the baffle (105) is provided with an arc-shaped groove for avoiding the cutter holder (401).

8. The double station four-sided edge trimmer of claim 1 wherein: and covers (106) are fixedly connected to the outer sides of the transferring mechanism (3) and the trimming mechanism (4).

9. The double station four-sided edge trimmer of any one of claims 1-8, wherein: and an automatic blanking device is also arranged on the workbench (101) below the manipulator (301).

10. The double station four-sided edge trimmer of claim 9 wherein: the automatic blanking device is a belt conveyor (5) which is horizontally arranged.

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