CN112171294A

CN112171294A - Be applied to unloading burring device of continuous equivalent cutting and milling machine

Info

Publication number: CN112171294A
Application number: CN202011088470.XA
Authority: CN
Inventors: 辛晓家
Original assignee: Wenzhou Yang'an Electronic Technology Co ltd
Current assignee: Wenzhou Yang'an Electronic Technology Co ltd
Priority date: 2020-10-13
Filing date: 2020-10-13
Publication date: 2021-01-05

Abstract

The invention discloses a blanking deburring device applied to a continuous equivalent cutting milling machine, which comprises a blanking machine body, wherein a blanking groove is formed in the blanking machine body in a penetrating manner, matching blocks which are bilaterally symmetrical are connected in the blanking groove in a sliding manner, a conveying device is arranged in each matching block, each conveying device comprises a matching groove communicated with the rear side of a cavity, a matching groove is formed in the rear side of each communicating groove, a fixed rack is fixedly connected to the rear wall of each matching groove, a matching rack positioned on the lower side of the fixed rack is fixedly connected to the rear wall of each matching groove, and fixed blocks are symmetrically arranged on the front and back of the upper end surface of each matching block.

Description

Be applied to unloading burring device of continuous equivalent cutting and milling machine

Technical Field

The invention relates to the field of electromechanical equipment, in particular to a blanking deburring device applied to a continuous equivalent cutting and milling machine.

Background

When a metal plate is cut, burrs can appear on cutting surfaces on two sides of the metal plate, so that the product quality is influenced, the burrs are cleaned, the manual method is very complicated, and the metal needs to be cut after being cut, so that the device for removing the burrs on the cutting surfaces of the metal is very important in the blanking process.

Disclosure of Invention

Aiming at the defects of the technology, the invention provides a blanking deburring device applied to a continuous equivalent cutting and milling machine, which can overcome the defects.

A blanking deburring device applied to a continuous equivalent cutting and milling machine comprises a blanking machine body, wherein a blanking groove is formed in the blanking machine body in a penetrating manner, matching blocks which are bilaterally symmetrical are connected in the blanking groove in a sliding manner, a conveying device is arranged in each matching block and comprises matching grooves communicated with the rear sides of cavities, matching grooves are formed in the rear sides of the communicating grooves, fixed racks are fixedly connected to the rear walls of the matching grooves, the matching racks are fixedly connected to the rear walls of the matching grooves and positioned on the lower sides of the fixed racks, fixed blocks are symmetrically arranged on the front and back of the upper end surfaces of the matching blocks, a connecting shaft is rotatably matched between the front fixed block and the rear fixed block and positioned in the cavities, a connecting block is fixedly connected to the matching blocks and positioned on the side of the central end surface of the driving gear, and a connecting groove with an, the spread groove with the connecting axle normal running fit, the connecting axle is located fixedly connected with in the spread groove, upside fixedly connected with compact heap, the ascending central groove of opening has been seted up in the upper end wall body, central groove back wall normal running fit has the gear shaft, the gear shaft is located central groove fixedly connected with drive gear meshed meshing gear, the gear shaft passes through the intercommunication groove extends backward the cooperation inslot fixedly connected with can with fixed rack meshed rotating gear, cooperation piece downside has been seted up and has been located the rack groove of central groove downside, rack groove back wall normal running fit has the transmission shaft, the transmission shaft is located rack inslot fixedly connected with connects the gear, rack groove diapire sliding connection have with connect gear meshed connecting rack, the transmission shaft passes through the intercommunication groove extends backward the cooperation inslot fixedly connected with can with the cooperation rack meshed connecting rack The left and right matching blocks form an empty groove, when the matching blocks rise to the top side of the cavity, the gear shaft rotates ninety degrees under the action of the rotating gear and the fixed rack, the pressing block rotates ninety degrees to clamp a plate, when the matching blocks fall to the bottom side of the cavity, the transmission shaft drives the connecting gear to rotate under the matching of the rotating gear and the matching rack, so that the connecting rack moves into the rack groove, the plate in the empty groove falls out, the middle side of the empty groove is communicated with a matching groove which is symmetrical about the front and rear central end faces of the center of the empty groove, a deburring device is arranged in the matching groove, the deburring device comprises a butting block in sliding fit with the matching groove, a butting groove is formed in the butting block, and a spline groove is matched with the right wall of the matching groove in a rotating fit manner, the spline groove is located in the butt groove, a spline sleeve is connected with a spline and located in the butt groove, a fixed bevel gear is fixedly connected with the spline sleeve and located in the butt groove, a rotating shaft is arranged on the top wall of the butt block in a matched mode in a rotating mode, the rotating shaft is located in the butt groove, the fixed bevel gear is fixedly connected with the bevel gear in a meshed mode with the fixed bevel gear, the rotating shaft extends upwards to a brush block which is fixedly connected with the inside of the conjunction groove and is always abutted to the butt block, a fixed shaft is arranged on the top wall of the conjunction groove in a matched mode in a rotating mode, a connecting spring is connected between the butt block and the right wall of the conjunction groove, the fixed shaft is located in the conjunction groove, a cam is fixedly connected with the inside of the conjunction groove, the cam rotates to enable the butt block to move left and right under the matching of the connecting spring.

Preferably, the conveying device further comprises a belt wheel groove formed in the lower side of the cavity, a rotating screw rod is rotatably matched with a wall body between the belt wheel groove and the cavity, the rotating screw rod is located in the cavity and is connected with the matching block in a threaded mode, and the left matching block and the right matching block are located in the belt wheel groove and are connected through belt transmission.

Preferably, the deburring device further comprises a rotating bevel gear which is positioned in the fitting groove and fixedly connected with the spline groove, the rotating bevel gear, the fixed shaft, which is positioned in the fitting groove, is fixedly connected with a transmission bevel gear which is engaged with the rotating bevel gear and is positioned on the lower side of the cam, the right side of the fitting groove is provided with a rotating groove, the front spline groove and the rear spline groove are positioned in the rotating groove and are connected through belt transmission, the right side of the rotating groove is provided with a bevel gear meshing groove, the lower side of the bevel gear meshing groove is provided with a transmission groove, a wall body between the transmission groove and the bevel gear meshing groove is rotationally matched with a right rotating shaft, the rotating shaft and the spline groove, which is positioned in the bevel gear meshing groove, are connected through a bevel gear pair, the spline groove extends rightwards to the tail end of the right side of the bevel gear meshing groove, the rotating shaft and the rotating screw rod on the right side are located on the transmission groove and are in transmission connection through a belt, and a blanking groove communicated with the outer end of the blanking machine body is formed in the lower side of the cavity.

The invention has the beneficial effects that: after the metal cutting finishes, the cooperation piece rises to the highest point, the compact heap is in vertical state, the metal drops to with connecting rack butt, then cooperation piece decline in-process compact heap rotates ninety degrees, thereby the metal left and right sides of butt cutting, cooperation piece decline in-process simultaneously at the compact heap compress tightly the cutting metal, the brush piece is removed the cutting plane of metal cutting piece and is carried out the burr and clear away, when the cooperation piece removes and falls to the cavity bottom side, thereby connecting rack keeps away from each other and makes the metal fall out the organism from the charging chute.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic diagram of the overall structure of a blanking deburring device applied to a continuous equivalent cutting and milling machine.

Fig. 2 is an enlarged view of a portion of a structure at a in fig. 1.

Fig. 3 is an enlarged view of a partial structure at B in fig. 1.

Fig. 4 is a schematic view of the structure in the direction C-C in fig. 1.

Fig. 5 is a schematic view of the structure in the direction D-D in fig. 2.

Detailed Description

All of the features disclosed in this specification, or all of the steps in any method or process so disclosed, may be combined in any combination, except combinations of features and/or steps that are mutually exclusive.

The invention will now be described in detail with reference to fig. 1-5, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The utility model provides a be applied to unloading burring device of continuous equivalent cutting and milling machine, includes unloading organism 62, run through in the unloading organism 62 and seted up blanking groove 42, sliding connection has bilateral symmetry's cooperation piece 10 in blanking groove 42, be equipped with conveyor in the cooperation piece 10, conveyor includes the intercommunication is in the cooperation groove 27 of cavity 39 rear side, cooperation groove 27 has been seted up to the intercommunication 25 rear side, cooperation groove 27 rear wall fixedly connected with fixed rack 29, cooperation groove 27 rear wall fixedly connected with be located the cooperation rack 35 of fixed rack 29 downside, cooperation piece 10 upper end surface front and back symmetry is equipped with fixed block 21, around between the fixed block 21 normal running fit have connecting axle 18, connecting axle 18 is located fixedly connected with drive gear 30 in the cavity 39, cooperation piece 10 is located fixed block 21 is towards drive gear 30 central terminal surface direction side fixedly connected with connecting block 16, a connecting groove 17 with an upward opening is formed in the connecting block 16, the connecting groove 17 is in running fit with the connecting shaft 18, the connecting shaft 18 is located in the connecting groove 17 and fixedly connected with 32, a pressing block 19 is fixedly connected to the upper side of the connecting groove 32, a central groove 23 with an upward opening is formed in the upper end wall body, a gear shaft 24 is in running fit with the rear wall of the central groove 23, the gear shaft 24 is located in the central groove 23 and fixedly connected with a meshing gear 31 meshed with the transmission gear 30, the gear shaft 24 extends backwards through the communicating groove 25 to the matching groove 27 and fixedly connected with a rotating gear 28 meshed with the fixed rack 29, a rack groove 12 located on the lower side of the central groove 23 is formed in the lower side of the matching block 10, a transmission shaft 33 is in running fit with the rear wall of the rack groove 12, and the transmission shaft 33 is located in the rack groove 12, the bottom wall of the rack groove 12 is slidably connected with a connecting rack 13 engaged with the connecting gear 14, the transmission shaft 33 extends backwards through the communication groove 25 to the inside of the matching groove 27 and is fixedly connected with a rotating gear 34 capable of being engaged with the matching rack 35, the left and right matching blocks 10 form an empty groove 15, when the matching blocks 10 rise to the top side of the cavity 39, the gear shaft 24 rotates ninety degrees under the action of the rotating gear 28 and the fixed rack 29, the pressing block 19 rotates ninety degrees to clamp a plate material, when the matching blocks 10 descend to the bottom side of the cavity 39, under the cooperation of the rotating gear 34 and the matching rack 35, the transmission shaft 33 drives the connecting gear 14 to rotate, so that the connecting rack 13 moves into the rack groove 12, the plate material in the empty groove 15 falls out, the middle side of the empty groove 15 is communicated with a matching groove 52 symmetrical to the front and rear central end faces of the center of the empty groove 15, a deburring device is arranged in the fit groove 52, the deburring device comprises a butt block 60 in sliding fit with the fit groove 52, a butt groove 59 is formed in the butt block 60, a spline groove 53 is matched with the right wall of the fit groove 52 in a rotating fit manner, the spline groove 53 is positioned in the butt groove 59 and is in spline connection with a spline sleeve 57, the spline sleeve 57 is positioned in the butt groove 59 and is fixedly connected with a fixed bevel gear 58, the top wall of the butt block 60 is in rotating fit with a rotating shaft 55, the rotating shaft 55 is positioned in the butt groove 59 and is fixedly connected with a connecting bevel gear 56 meshed with the fixed bevel gear 58, the rotating shaft 55 extends upwards to the fit groove 52 and is fixedly connected with a brush block 54 which is always in butt joint with the butt block 60, the top wall of the fit groove 52 is in rotating fit with a fixed shaft 49, a connecting spring 61 is connected between the butt block 60 and the right wall of the fit groove 52 and is positioned on the fixed shaft 49 A cam 47 is fixedly connected in the groove 52, the cam 47 rotates to enable the abutting block 60 to move left and right under the cooperation of the connecting spring 61, and the rotating shaft 55 drives the upper body brush block 54 to rotate to remove burrs on a cutting surface of the metal cutting plate.

Advantageously, the conveying device further comprises a belt wheel groove 41 formed in the lower side of the cavity 39, a rotating screw rod 20 is rotatably matched on a wall body between the belt wheel groove 41 and the cavity 39, the rotating screw rod 20 is located in the cavity 39 and is in threaded connection with the matching blocks 10, the left matching block 10 and the right matching block 10 are located in the belt wheel groove 41 and are connected through belt transmission, and the rotating screw rod 20 can drive the left matching block 10 and the right matching block 10 to synchronously lift.

Beneficially, the deburring device further comprises a rotating bevel gear 50 located in the fit groove 52 and fixedly connected with the spline groove 53, the rotating bevel gear 50, the fixing shaft 49 located in the fit groove 52, is fixedly connected with a transmission bevel gear 51 engaged with the rotating bevel gear 50 and located on the lower side of the cam 47, a rotating groove 66 is formed on the right side of the fit groove 52, the front and rear spline grooves 53 located in the rotating groove 66 are connected through belt transmission, a bevel gear engaging groove 46 is formed on the right side of the rotating groove 66, a transmission groove 43 is formed on the lower side of the bevel gear engaging groove 46, a rotating shaft 44 is rotationally matched with a wall body between the transmission groove 43 and the bevel gear engaging groove 46, the rotating shaft 44 and the spline groove 53 are located in the bevel gear engaging groove 46 and connected through a bevel gear pair, the spline groove 53 extends rightwards to the right end of the bevel gear engaging groove 46, and is dynamically connected with a power embedded in the wall body 62 of the blanking machine body The motor 45, the rotating shaft 44 and the right rotating screw rod 20 are located in the transmission groove 43 and are in transmission connection through a belt, a blanking groove 42 communicated with the outer end of the blanking machine body 62 is formed in the lower side of the cavity 39, and when the matching block 10 clamps the cut metal plate and moves downwards, the brush block 54 moves left and right and rotates, so that burrs on the cutting surface are removed.

The use steps herein are described in detail below with reference to fig. 1-5:

in the initial state, the left and right engaging blocks 10 are in the middle position of the cavity 39, the fixed rack 29 is not engaged with the fixed rack 29, the engaging rack 35 is not engaged with the rotary gear 34, the connecting rack 13 is moved out of the rack groove 12 to the maximum extent, and the fixed block 21 and the connecting block 16 are in the vertical state.

When metal needs to be cut continuously and equivalently, the power motor 45 rotates positively to enable the matching block 10 to ascend, the blanking groove 42 cannot fall out of the blanking machine body 62 under the action of the connecting rack 13 after the metal falls after being cut, the power motor 45 rotates positively to drive the matching block 10 to ascend, the fixed rack 29 drives the rotating gear 28 to rotate, the fixed block 21 and the connecting block 16 are loosened to be in a horizontal state, then the power motor 45 rotates reversely to enable the matching block 10 to descend, at the moment, the gear shaft 24 rotates ninety degrees to enable the pressing block 19 and the connecting block 16 to be in a vertical state and fasten the cut metal plates downwards, when the matching block 10 continues to move downwards, the spline groove 53 rotates to drive the fixed bevel gear 58 to rotate so as to drive the rotating shaft 55 to rotate, the brush block 54 rotates, the fixed shaft 49 drives the cam 47 to rotate, and under the action of the spline sleeve 57 and the matching of the connecting spring 61, no matter whether the abutting block 60 moves left or right, connect bevel gear 56 and mesh with fixed bevel gear 58 all the time, thereby brush piece 54 is rotatory on one side, remove the metal cutting face burring in the cooperation piece 10 that will descend on one side, after the burring, cooperation piece 10 continues to move down to cavity 39 bottom makes rotary gear 34 and cooperation rack 35 mesh, thereby make transmission shaft 33 rotate, thereby drive connecting gear 14 and rotate, make connecting rack 13 keep away from each other, make the cutting metal in dead slot 15 fall out of unloading organism 62 from blanking groove 42, then motor 45 corotation, thereby make cooperation piece 10 rise, connecting rack 13 is close to each other again, cut with this repetition in succession.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to 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 within the protection scope of the present invention.

Claims

1. The utility model provides a be applied to unloading burring device of continuous equivalent cutting and milling machine, includes the unloading organism, its characterized in that: a blanking groove is formed in the blanking machine body in a penetrating mode, a matching block which is bilaterally symmetrical is connected in the blanking groove in a sliding mode, a conveying device is arranged in the matching block and comprises a matching groove communicated with the rear side of the cavity, a matching groove is formed in the rear side of the communicating groove, a fixed rack is fixedly connected to the rear wall of the matching groove, a matching rack located on the lower side of the fixed rack is fixedly connected to the rear wall of the matching groove, fixed blocks are symmetrically arranged on the front and rear sides of the upper end surface of the matching block, a connecting shaft is rotationally matched between the front fixed block and the rear fixed block and is fixedly connected with a transmission gear in the cavity, a connecting block is fixedly connected to the fixed block and faces to the central end face direction of the transmission gear, a connecting groove with an upward opening is formed, the connecting shaft is fixedly connected in the connecting groove, the upper side is fixedly connected with a pressing block, a central groove with an upward opening is formed in the upper end wall body, a gear shaft is rotatably matched with the rear wall of the central groove, the gear shaft is fixedly connected in the central groove and meshed with the transmission gear, the gear shaft extends backwards through the communicating groove to the matching groove and is fixedly connected with a rotating gear capable of being meshed with the fixed rack, a rack groove is formed in the lower side of the matching block and is positioned on the lower side of the central groove, a transmission shaft is rotatably matched with the rear wall of the rack groove and is fixedly connected in the rack groove, the bottom wall of the rack groove is slidably connected with a connecting rack meshed with the connecting gear, and the transmission shaft extends backwards through the communicating groove to the matching groove and is fixedly connected with a rotating gear capable of being meshed with the matching rack, the left and right matching blocks form empty grooves, when the matching blocks rise to the top side of the cavity, the gear shaft rotates ninety degrees under the action of the rotating gear and the fixed rack, the pressing block rotates ninety degrees to clamp a plate, when the matching blocks fall to the bottom side of the cavity, the transmission shaft drives the connecting gear to rotate under the matching of the rotating gear and the matching rack, so that the connecting rack moves into the rack groove, the plate in the empty groove falls out, the middle side of the empty groove is communicated with matching grooves which are symmetrical about the front and rear central end faces of the center of the empty groove, deburring devices are arranged in the matching grooves, each deburring device comprises a butting block in sliding fit with the corresponding groove, a butting groove is formed in each butting block, and a spline groove is matched on the right wall of each matching groove in a rotating fit manner, the spline groove is located in the butt groove, a spline sleeve is connected with a spline and located in the butt groove, a fixed bevel gear is fixedly connected with the spline sleeve and located in the butt groove, a rotating shaft is arranged on the top wall of the butt block in a matched mode in a rotating mode, the rotating shaft is located in the butt groove, the fixed bevel gear is fixedly connected with the bevel gear in a meshed mode with the fixed bevel gear, the rotating shaft extends upwards to a brush block which is fixedly connected with the inside of the conjunction groove and is always abutted to the butt block, a fixed shaft is arranged on the top wall of the conjunction groove in a matched mode in a rotating mode, a connecting spring is connected between the butt block and the right wall of the conjunction groove, the fixed shaft is located in the conjunction groove, a cam is fixedly connected with the inside of the conjunction groove, the cam rotates to enable the butt block to move left and right under the matching of the connecting spring.

2. The blanking deburring device applied to the continuous equivalent cutting milling machine as claimed in claim 1, wherein: the conveying device further comprises a belt wheel groove arranged on the lower side of the cavity, a rotary screw rod is arranged on a wall body between the belt wheel groove and the cavity in a rotating matching mode, the rotary screw rod is located in the cavity, connected with the matching block in a threaded mode, and the matching block is located in the belt wheel groove and connected through belt transmission.

3. The blanking deburring device applied to the continuous equivalent cutting milling machine as claimed in claim 1, wherein: the deburring device also comprises a rotating bevel gear which is positioned in the conjunction groove and fixedly connected with the spline groove, the rotating bevel gear, a fixed shaft which is positioned in the conjunction groove, is fixedly connected with a transmission bevel gear which is meshed with the rotating bevel gear and is positioned on the lower side of the cam, the right side of the conjunction groove is provided with a rotating groove, the front spline groove and the rear spline groove are positioned in the rotating groove and are connected through belt transmission, the right side of the rotating groove is provided with a bevel gear meshing groove, the lower side of the bevel gear meshing groove is provided with a transmission groove, the wall body between the transmission groove and the bevel gear meshing groove is rotationally matched with a right rotating shaft, the rotating shaft and the spline groove are positioned in the bevel gear meshing groove and are connected through a bevel gear pair, the spline groove extends rightwards to the right end of the bevel gear meshing groove, and is dynamically connected with, the rotating shaft and the rotating screw rod on the right side are located on the transmission groove and are in transmission connection through a belt, and a blanking groove communicated with the outer end of the blanking machine body is formed in the lower side of the cavity.