CN114559327B - Burr removing device with positioning function for mouse processing - Google Patents

Abstract

The invention relates to the field of mouse accessory processing equipment, in particular to a burr removing device with a positioning function for mouse processing. Technical problems: the existing burr removing equipment is inconvenient to fix the mouse shell, and when the operation is lost, excessive polishing of the side edges of the mouse shell is easily caused, so that the mouse shell cannot be used and abandoned. Embodiments are described below: a burr removing device with a positioning function for mouse processing comprises a mounting bracket, a collecting box, an inclined block, a clamping mechanism and a polishing mechanism; the right part of the mounting bracket is provided with a collecting box for storing, the upper side surface of the collecting box is provided with an inclined block for the material to slide backwards, the upper part of the mounting bracket is provided with a clamping mechanism for fixing the material, and the upper part of the mounting bracket is provided with a polishing mechanism for removing burrs, and the polishing mechanism is matched with the clamping mechanism. The invention realizes the removal of the side burrs of the mouse shell by matching the clamping mechanism with the polishing mechanism.

Description

Burr removing device with positioning function for mouse processing

Technical Field

The invention relates to a burr removing device, in particular to a burr removing device with a positioning function for mouse processing.

Background

The existing mouse shell is made by plastic injection molding, a large number of burrs are formed on the side edge of the existing mouse shell after injection molding is finished and demolding is conducted, the burrs on the side edge of the mouse shell are required to be removed for facilitating installation of the mouse shell and improving the using hand feeling of a mouse, when the burrs on the side edge of the mouse shell are removed by existing burr removing equipment, the burrs are not convenient to fix the mouse shell, and when operation errors are conducted on the side edge of the mouse shell, excessive grinding of the side edge of the mouse shell is easily caused, and the mouse shell cannot be used and abandoned.

Therefore, it is necessary to design a device for removing burrs with a positioning function for a mouse processing against the drawbacks of the prior art.

Disclosure of Invention

In order to overcome the defect that the existing burr removing equipment is inconvenient to fix the mouse shell, excessive grinding of the side edge of the mouse shell is easily caused when the operation is lost, so that the mouse shell cannot be used and abandoned, the technical problem is that: a burr removing device with a positioning function for mouse processing is provided.

The technical implementation scheme of the invention is as follows: the utility model provides a mouse processing burr remove device that has locate function, including installing support, collecting box, slope piece, clamping mechanism and grinding machanism, the collecting box that is used for depositing has been placed on the right part of installing support, and the upside of collecting box is provided with the slope piece that is used for the backward landing of material, and the upper portion of installing support is provided with the clamping mechanism that is used for fixing the material, and the upper portion of installing support is provided with the grinding machanism that is used for the burr to get rid of, and grinding machanism cooperates with clamping mechanism.

As still further preferred scheme, clamping mechanism is including first gear, branch, the mounting panel, the carriage, the sliding plate, drive gear, the rotor plate, the articulated link, rack, board and power pack are held in the arc, first gear rotation connects in the upper portion left side of installing support, the track groove has been seted up to the right flank of first gear, track groove middle part on the first gear is to center department indent, two branches are installed on the upper portion right side of installing support, the symmetry sets up around two branches, the upper end of two branches has the mounting panel, the equal rigid coupling of the upper side of two mounting panels is equipped with the carriage, the medial surface of two carriages all slides and is equipped with two sliding plates that are used for fixed, the lower part of two sliding plates all passes adjacent mounting panel and sliding connection thereof, the drive gear is all installed to the equal rotation in upper portion of two branches, the equal sliding connection of upper portion of two branches has the rotor plates, two rotor plates respectively with adjacent drive gear pass through the connecting block rigid coupling, the both ends of two rotor plates respectively rotate and are connected with the articulated link, two articulated link respectively with adjacent sliding plate rotation connection, two carriage have two side-mounted frame, the equal side of two side-mounted frame has the arc, the power pack is located two side of two side-mounted with the adjacent side.

As a further preferable scheme, the power assembly comprises a first rotating shaft, a bevel gear, a first gear motor and a second spur gear, wherein the first rotating shaft is rotatably arranged at the rear side of the upper part of the mounting bracket, the left part of the first rotating shaft is fixedly connected with the mounting bracket through a support plate, the bevel gear is arranged at the right part of the first rotating shaft, the first gear motor is arranged at the rear part of the mounting bracket, the bevel gear is also arranged on the output shaft of the first gear motor, the two bevel gears are meshed, the left end of the first rotating shaft is provided with a second spur gear, and the second spur gear is meshed with the first spur gear.

As a further preferred scheme, the polishing mechanism comprises a support column, a mouse shell module, the link, the mount, first connecting plate, the fixed plate, the mounting bracket, servo motor, the third straight-tooth wheel, the fourth straight-tooth wheel, polishing subassembly and pushing component, two support columns are fixedly connected on the upper portion right side of installing support, two support columns are the front and back symmetry setting, mouse shell module is all installed to the upper end of two support columns, the rigid coupling has the link between the lateral surface of two mounting plates, the middle part of link is hollow setting, the upper side right part rigid coupling of installing support has the mount, two first connecting plates are installed to the left surface of mount, the lower part rigid coupling of two first connecting plates has the fixed plate, the fixed plate is located the inboard of link, the mounting bracket is installed in the anterior left side of upside of link, servo motor has been inlayed to the upper side of mounting bracket, the third straight-tooth wheel is installed to the output shaft of servo motor, fourth straight-tooth wheel is installed through the bull stick rotation on the upper portion of mounting bracket, fourth straight-tooth wheel meshes with the third straight-tooth wheel, polishing subassembly is all installed to the middle part of two shell module, polishing subassembly respectively with the fourth straight-tooth wheel on the output shaft of servo motor.

As a further preferred scheme, the polishing assembly comprises a second rotating shaft, a telescopic rod, a moving rod, a curved rod, a second gear motor, a fixed sleeve and a polishing rod, wherein the second rotating shaft is rotatably arranged in the middle of each of the two mouse shell modules, the upper end of the second rotating shaft on the front side is connected with the output shaft of the servo motor through a belt wheel and a belt transmission, the second rotating shaft on the rear side is connected with a rotating rod on a fourth spur gear through the belt wheel and the belt transmission, the telescopic rod is arranged on the upper parts of the two second rotating shafts, the moving rod is fixedly connected with the outer ends of the two telescopic rods, the lower ends of the moving rods are hemispherical, the lower ends of the moving rods are in sliding fit with the adjacent mouse shell modules, the curved rods are arranged on the upper parts of the two moving rods, the fixed sleeves are respectively arranged at the inner ends of the two curved rods in a sliding way and are arranged in a sliding way formed by the connecting frame and the fixing plate, the second gear motor is arranged on the upper parts of the two fixed sleeves, the output shaft of the second gear motor is slidably arranged with the polishing rod in a spline way, and the polishing rod passes through the connecting frame and the sliding way formed by the fixing plate.

As a further preferable scheme, the pressing component comprises a gear deficiency, a fifth spur gear, a pressing frame, a sliding plate and a limiting plate, the gear deficiency is arranged at the right part of the first rotating shaft, the fifth spur gear is rotatably arranged at the upper side of the right part of the mounting bracket, a track groove is formed in the left side face of the fifth spur gear, the middle parts of the front side and the rear side of the track groove of the fifth spur gear are concave inwards, the pressing frame is arranged on the upper part of the connecting frame in a sliding manner, a pin rod is arranged on the lower side of the right part of the pressing frame, the pressing frame penetrates through the fixing plate and is in sliding connection with the fixing plate, the sliding plate is arranged at the lower end of the pressing frame, the sliding plate is arranged in sliding manner with the connecting frame, the limiting plate is arranged at the lower end of the pressing frame, the limiting plate is arranged on the inner side of the sliding plate, the middle part of the outer side face of the limiting plate is outwards convex, the middle part of the sliding plate is inwards convex, the protrusion of the limiting plate is matched with the protrusion of the sliding plate to form a slide way, an annular groove is formed in the middle part of the polishing rod, and the annular groove of the polishing rod is arranged in the protrusion of the limiting plate and the protrusion of the sliding plate to form the slide way, and the pin rod of the pressing frame is arranged in the track groove of the fifth spur gear in sliding manner.

As a further preferable scheme, the fixing mechanism is arranged at the right part of the upper side of the mounting bracket and comprises a bracket, a containing frame, a second connecting plate and a limiting frame, wherein a downward extending chute is formed in the rear part of the tilting block, a bracket is arranged in the chute of the tilting block in a sliding manner, a pin rod is arranged on the upper side of the right part of the bracket, the pin rod of the bracket is positioned in a track groove of a fifth straight gear and slides, the containing frame is fixedly connected on the upper side of the left part of the bracket, the second connecting plate is arranged at the bottom of the limiting plate, and the limiting frame is arranged at the lower part of the second connecting plate.

As a further preferred scheme, the automatic feeding device further comprises a conveying mechanism, wherein the conveying mechanism is arranged at the left part of the upper side of the mounting bracket and comprises support plates, an electric shaft, a conveying belt and a supporting plate, two groups of support plates are fixedly connected to the left side of the upper part of the mounting bracket and are arranged in a bilateral symmetry mode, two groups of support plates are arranged in one group of support plates, the electric shaft is rotatably arranged between the upper parts of one group of support plates, conveying rollers are arranged on the electric shaft, the conveying belt is wound between the two conveying rollers, a plurality of groups of supporting plates are fixedly connected to the outer side face of the conveying belt, the supporting plates are made of rubber materials, and the supporting plates are L-shaped.

As a further preferred embodiment, the support plates in a group are gradually raised and then gradually lowered from left to right.

As a further preferable scheme, the automatic feeding device also comprises a pushing frame, and the pushing frame is fixedly connected on the conveyor belt between two adjacent groups of supporting plates.

The invention has the following advantages: according to the invention, the clamping mechanism is matched with the polishing mechanism, so that the side burrs of the mouse shell are removed, the four sliding plates are close to each other to limit and fix the mouse shell, the polishing rod is rotated and moved to remove the burrs of the mouse shell, and the mouse shell module is used for guiding the movement of the polishing rod, so that the phenomenon that the excessive polishing of the side edges of the mouse shell by the polishing rod is abandoned is avoided; the positioning of the mouse shell is completed by utilizing the matching of the containing frame and the limiting frame in the fixing mechanism, so that the phenomenon that the mouse shell shakes up and down to cause interference to processing in the processing process of the mouse shell is avoided; utilize pushing away work or material rest removal be convenient for with the mouse shell promote to two arcs hold between the board, be convenient for process the mouse shell.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of a first part of the clamping mechanism of the present invention.

Fig. 3 is a partially enlarged perspective view of the clamping mechanism of the present invention.

Fig. 4 is a schematic perspective view of a second portion of the clamping mechanism of the present invention.

Fig. 5 is a schematic perspective view of the polishing mechanism of the present invention.

Fig. 6 is a schematic view of a part of a polishing mechanism according to the present invention.

Fig. 7 is a schematic perspective view of the fixing mechanism of the present invention.

Fig. 8 is a schematic view of a part of a perspective structure of the fixing mechanism of the present invention.

Fig. 9 is a schematic perspective view of a conveying mechanism according to the present invention.

In the reference numerals: 1-mounting bracket, 2-collecting box, 21-tilting block, 3-clamping mechanism, 301-first straight gear, 302-strut, 303-mounting plate, 304-carriage, 305-carriage, 306-transmission gear, 307-rotating plate, 308-hinge rod, 309-rack, 310-arc holding plate, 311-first rotation shaft, 312-bevel gear, 313-first gear motor, 314-second straight gear, 4-polishing mechanism, 401-strut, 402-mouse housing module, 403-connecting frame, 404-fixing frame, 405-first connecting plate, 406-fixing plate, 408-mounting frame, 409-servo motor, 410-third straight gear, 411-fourth straight gear, 412-second rotation shaft, 413-telescopic rod, 414-moving rod, 415-bent rod, 416-second gear motor, 417-fixing sleeve, 418-polishing rod, 419-short gear, 420-fifth straight gear, 421-lower frame, 422-sliding plate, 423-limiting plate, 6-fixing mechanism, 601-bracket, 602-holding frame, 409-third straight gear, 410-third straight gear, 411-fourth straight gear, 412-second rotating shaft, 413-telescopic rod, 414-second carriage, 704-fifth straight gear, 421-lower frame, 422-sliding plate, 423-limiting plate, 6-fixing mechanism, 702-carriage, 704-carriage, 7-moving plate, 702-moving plate, and carrier.

Detailed Description

The invention is further described below with reference to the drawings and examples.

Example 1

The utility model provides a mouse processing burr remove device that has locate function, as shown in fig. 1-8, including installing support 1, collection box 2, slope piece 21, clamping mechanism 3 and grinding machanism 4, the collection box 2 that is used for depositing has been placed at the right part of installing support 1, and the upside front portion of collection box 2 is provided with the slope piece 21 that is used for the material to slide backward, and the upper portion of installing support 1 is provided with the clamping machanism 3 that is used for fixing the material, and the upper portion of installing support 1 is provided with the grinding machanism 4 that is used for the burr to get rid of, and grinding machanism 4 cooperates with clamping machanism 3.

When the mouse shell is used, a user places the mouse shell on the clamping mechanism 3, then the user enables the clamping mechanism 3 to work to fix the mouse shell, then closes the clamping mechanism 3 to work, then starts the polishing mechanism 4 to work, the polishing mechanism 4 works to polish the outer side edge of the mouse shell, and simultaneously finishes polishing the side edge burrs of the mouse shell, after the mouse shell is polished, the user closes the polishing mechanism 4, simultaneously enables the clamping mechanism 3 to start to work to release the fixing of the mouse shell and close, then enables the user to move a new mouse shell rightward to place on the clamping mechanism 3, and the new mouse shell moves rightward to push the processed mouse shell to move rightward, so that the processed mouse shell moves rightward to the inclined block 21, slides backward to fall in the collecting box 2 under the action of the inclined surface of the inclined block 21, and then repeats the operation to process the next mouse shell.

Example 2

On the basis of embodiment 1, as shown in fig. 2-4, the clamping mechanism 3 comprises a first straight gear 301, a supporting rod 302, a mounting plate 303, a sliding frame 304, a sliding plate 305, a transmission gear 306, a rotating plate 307, a hinge rod 308, a rack 309, an arc-shaped containing plate 310, a first rotating shaft 311, a bevel gear 312, a first reducing motor 313 and a second straight gear 314, wherein the first straight gear 301 is rotationally connected to the left side of the upper part of the mounting frame 1, the right side surface of the first straight gear 301 is provided with a track groove, the middle part of the track groove on the first straight gear 301 is concave inwards, the right side of the upper part of the mounting frame 1 is provided with two supporting rods 302, the front and rear symmetrically arranged two supporting rods 302, the upper ends of the two supporting rods 302 are fixedly connected with the mounting plate 303, the upper side surfaces of the two mounting plates 303 are respectively provided with the sliding frames 304, the inner side surfaces of the two sliding frames 304 are respectively provided with two sliding plates 305 for fixing, the lower parts of the two sliding plates 305 are respectively penetrated through adjacent rotating plates 303 and are rotationally connected with the adjacent rotating plates 306, the upper parts of the two supporting rods 302 are rotationally provided with the transmission gears 306, the two adjacent rotating plates 306 are respectively connected with the two adjacent rotating plates 307, the two sliding plates 306 are respectively, the two adjacent rotating plates 306 are respectively meshed with the two sliding frames 309 are respectively, the two sliding plates 306 are respectively, the two adjacent sliding plates 308 are respectively meshed with the two sliding plates 308, and two sliding plates are respectively, and two adjacent connecting plates 309 are respectively, and two sliding plates for fixing, the two rotating plates 307 rotate clockwise to enable the two connected sliding plates 305 to be close through hinge rods 308 on the rotating plates, at the moment, limiting and fixing of the mouse shell are completed through the four sliding plates 305, arc-shaped containing plates 310 used for bearing are fixedly connected to the inner side faces of the two mounting plates 303, a first rotating shaft 311 is rotatably mounted on the rear side of the upper portion of the mounting bracket 1, the left portion of the first rotating shaft 311 is fixedly connected with the mounting bracket 1 through a support plate, a bevel gear 312 is arranged on the right portion of the first rotating shaft 311, a first reducing motor 313 used for providing power is mounted on the rear portion of the mounting bracket 1, a bevel gear 312 is mounted on an output shaft of the first reducing motor 313, the two bevel gears 312 are meshed, a second straight gear 314 is mounted on the left end of the first rotating shaft 311, and the second straight gear 314 is meshed with the first straight gear 301.

As shown in fig. 1 and 5-8, the polishing mechanism 4 comprises a support column 401, a mouse shell module 402, a connecting frame 403, a fixing frame 404, a first connecting plate 405, a fixing plate 406, a mounting frame 408, a servo motor 409, a third spur gear 410, a fourth spur gear 411, a second rotating shaft 412, a telescopic rod 413, a moving rod 414, a curved rod 415, a second reducing motor 416, a fixing sleeve 417, a polishing rod 418 and a pressing component, wherein the right side of the upper part of the mounting frame 1 is fixedly connected with two support columns 401, the two support columns 401 are symmetrically arranged in front-back, the upper ends of the two support columns 401 are respectively provided with the mouse shell module 402, the connecting frame 403 is fixedly connected between the outer side surfaces of the two mounting plates 303, the middle part of the connecting frame 403 is hollow, the right part of the upper side surface of the mounting frame 1 is fixedly connected with the fixing frame 404, the left side surface of the fixing frame 404 is provided with two first connecting plates 405, the lower parts of the two first connecting plates 405 are fixedly connected with the fixing plate 406, the fixing plate 406 is positioned at the inner side of the connecting frame 403, the mounting frame 408 is arranged at the left side of the front part of the upper side surface of the connecting frame 403, the servo motor 409 is embedded at the upper side surface of the mounting frame 408, the third spur gear 410 is arranged at the output shaft of the servo motor 409, the fourth spur gear 411 is rotatably arranged at the upper part of the mounting frame 408 through a rotating rod, the fourth spur gear 411 is meshed with the third spur gear 410, the second rotating shafts 412 are rotatably arranged at the middle parts of the two mouse shell modules 402, the upper ends of the second rotating shafts 412 at the front side are in transmission connection with the output shaft of the servo motor 409 through belt wheels and belts, the second rotating shafts 412 at the rear side are in transmission connection with the rotating rods on the fourth spur gear 411 through the belt wheels and belts, the upper parts of the two second rotating shafts 412 are provided with the telescopic rods 413, the outer ends of the two telescopic rods 413 are fixedly connected with the movable rods 414, the lower ends of the movable rods 414 are hemispherical, the lower extreme and the adjacent mouse shell module 402 sliding fit of movable rod 414, curved bar 415 are all installed to the upper portion of two movable rods 414, and fixed cover 417 is installed respectively to two curved bar 415 inner, and two fixed cover 417 slides respectively and sets up in the slide that link 403 and fixed plate 406 formed, and second gear motor 416 is installed to the upper portion of two fixed covers 417, and the output shaft of second gear motor 416 has polished rod 418 through spline mode slidable mounting, and polished rod 418 passes the slide that link 403 and fixed plate 406 formed.

The lower pressure component is including lack gear 419, fifth straight-line gear 420, lower pressure frame 421, slide 422 and limiting plate 423, the right part of first pivot 311 is installed and is lack gear 419, fifth straight-line gear 420 is installed to the right part upside rotation of installing support 1, the track groove has been seted up to the left surface of fifth straight-line gear 420, both sides middle part all inwards concave around the track groove of fifth straight-line gear 420, lower pressure frame 421 sliding arrangement is in the upper portion of link 403, lower pressure frame 421's right side downside is provided with the round pin pole, lower pressure frame 421 passes fixed plate 406 and its sliding connection, slide 422 is installed to the lower extreme of lower pressure frame 421, slide 422 and link 403 sliding arrangement, limiting plate 423 is installed to the lower extreme of lower pressure frame 421, lower pressure frame 421 moves down and drives slide 422 and limiting plate 423 and moves down, the track groove 418 downwardly, make two front and back grinding rods 418 move down to the front and back both sides that are located the 422, limiting plate 423 is located the inboard of 422, the outside face middle part of limiting plate sets up outwards protruding boss 422 is located the protruding annular groove of slide 422 that the inside of slide groove of slide 422, the protruding lower pressure frame 423 is located the protruding groove of slide 423 is formed in the protruding groove of slide 422, the lower pressure frame 423 is formed.

When the mouse housing is to be processed, the user places the mouse housing on the front and rear arc-shaped holding plates 310, then starts the first gear motor 313 to rotate the first rotating shaft 311 counterclockwise by 90 ° and close by the two bevel gears 312, rotates the first rotating shaft 311 counterclockwise to rotate the second straight gear 314 counterclockwise, rotates the first straight gear 301 clockwise to bring the two sliding frames 304 together by the track grooves thereon, brings the two sliding frames 304 together to bring the two racks 309 together, brings the two adjacent driving gears 306 together to rotate clockwise, and the two driving gears 306 rotate the upper rotating plates 307 clockwise, the two rotating plates 307 rotate clockwise to enable the two connected sliding plates 305 to be close through the hinging rods 308 on the rotating plates, at the moment, limiting and fixing of the mouse shell are completed through the four sliding plates 305, the first rotating shaft 311 rotates 90 degrees anticlockwise to enable the gear deficiency 419 to rotate anticlockwise, the fifth straight gear 420 rotates 90 degrees in the process that the gear deficiency 419 rotates 90 degrees anticlockwise, the fifth straight gear 420 rotates 90 degrees until the process is completed, the lower pressing frame 421 moves downwards and drives the sliding plate 422 and the limiting plate 423 to move downwards, the sliding plate 422 and the limiting plate 423 move downwards to drive the polishing rods 418 to move downwards, the front polishing rod 418 and the rear polishing rod 418 move downwards to be located on the front side and the rear side of the mouse shell, at the moment, the polishing rod 418 on the front side is located on the right side of the vertical support plate of the first connecting plate 405, and the polishing rod 418 on the rear side is located on the left side of the vertical support plate of the first connecting plate 405.

After the fixation of the mouse shell is completed, the user starts the servo motor 409 to rotate the third spur gear 410 clockwise, the fourth spur gear 411 rotates anticlockwise, the output shaft of the servo motor 409 rotates the front second rotating shaft 412 clockwise through the transmission of the belt wheel and the belt, the front second rotating shaft 412 rotates clockwise through the telescopic rod 413 thereon, the front moving rod 414 moves clockwise by taking the front second rotating shaft 412 as a center point, the front moving rod 414 moves clockwise by matching with the front mouse shell module 402, the front moving rod 414 moves rightwards and then backwards and finally moves leftwards, the front fixing sleeve 417 is synchronously moved by the front curved rod 415 in the moving process of the front moving rod 414, the user starts the front second reducing motor 416, the front second reducing motor 416 works to rotate the front polishing rod 418, the front side fixing sleeve 417 moves to drive the front side second gear motor 416 and the front side polishing rod 418 to synchronously move, the front side polishing rod 418 rotates and moves to finish side polishing of the mouse shell, the fourth spur gear 411 rotates anticlockwise to enable the rear side second rotating shaft 412 to rotate anticlockwise through transmission of the belt wheel and the belt, the rear side second rotating shaft 412 rotates anticlockwise through the telescopic rod 413 thereon, the rear side moving rod 414 moves anticlockwise by taking the rear side second rotating shaft 412 as a center point, the rear side moving rod 414 moves anticlockwise through the cooperation of the rear side mouse shell module 402, the rear side moving rod 414 moves leftwards and then moves forwards and finally moves rightwards, the rear side fixing sleeve 417 moves synchronously through the rear side curved rod 415 in the moving process of the rear side moving rod 414, meanwhile, the rear side second reducing motor 416 is started by a user to enable the rear side polishing rod 418 to rotate, the fixing sleeve 417 at the rear side moves to drive the second gear motor 416 at the rear side and the polishing rod 418 at the rear side to synchronously move, the polishing rod 418 at the rear side rotates and moves to finish polishing the side edge of the mouse shell, and the polishing rods 418 at the front side and the rear side are matched to finish processing the mouse shell.

After the processing of the mouse shell is completed, at this time, the user starts the first gear motor 313 to rotate the first rotating shaft 311 clockwise by 90 ° through the two bevel gears 312 and close the first rotating shaft, and at this time, the four sliding plates 305 reset to release the limit of the mouse shell, and simultaneously move the sliding plate 422 and the limiting plate 423 upward to reset, so that the polishing rod 418 moves upward to reset away from the mouse shell, then moves the new mouse shell rightward to be placed between the upper parts of the two arc-shaped containing plates 310, and moves the new mouse shell rightward to push the processed mouse shell rightward, so that the processed mouse shell moves rightward to the inclined block 21, falls backward in the collecting box 2 under the action of the inclined surface of the inclined block 21, and then repeats the above operation to process the next mouse shell.

Example 3

On the basis of embodiment 2, as shown in fig. 7 and 8, the mouse comprises a fixing mechanism 6, the fixing mechanism 6 is arranged on the right part of the upper side of the mounting bracket 1, the fixing mechanism 6 comprises a bracket 601, a containing frame 602, a second connecting plate 603 and a limiting frame 604, a chute extending downwards is formed in the rear part of the inclined block 21, a bracket 601 is slidably arranged in the chute of the inclined block 21, a pin rod is arranged on the upper side of the right part of the bracket 601, the pin rod of the bracket 601 is located in a track groove of the fifth spur gear 420 and slides, the containing frame 602 is fixedly connected on the upper side of the left part of the bracket 601, the second connecting plate 603 is arranged at the bottom of the limiting plate 423, the limiting frame 604 is arranged on the lower part of the second connecting plate 603, the limiting frame 604 moves downwards and is matched with the containing frame 602 to fix the mouse shell, and inconvenience in the process of polishing the side edge of the mouse shell is avoided.

The fifth spur gear 420 rotates to enable the lower pressing frame 421 to be close to the bracket 601, the lower pressing frame 421 moves downwards to drive the sliding plate 422 and the limiting plate 423 to move downwards, the limiting plate 423 moves downwards to enable the limiting frame 604 to move downwards through the second connecting plate 603, the bracket 601 moves upwards to drive the containing frame 602 to move upwards, the limiting frame 604 moves downwards to be matched with the containing frame 602 to move upwards to fix the mouse shell, and inconvenience in machining caused by up-and-down shaking of the mouse shell in the process of polishing the side edge of the mouse shell is avoided.

Example 4

On the basis of embodiment 3, as shown in fig. 9, the mouse is further provided with a conveying mechanism 7, the conveying mechanism 7 is arranged at the left part of the upper side of the mounting bracket 1, the conveying mechanism 7 comprises support plates 701, an electric shaft 702, a conveying belt 703, support plates 704 and a pushing frame 705, two groups of support plates 701 are fixedly connected to the left side of the upper part of the mounting bracket 1, the two groups of support plates 701 are symmetrically arranged left and right, two groups of support plates 701 are arranged in the support plates 701, the electric shaft 702 is rotatably provided with the conveying rollers, the conveying belt 703 is arranged between the two conveying rollers, the outer side surface of the conveying belt 703 is fixedly connected with a plurality of groups of support plates 704, the support plates 704 are made of rubber materials, the support plates 704 are L-shaped, the support plates 704 in one group are gradually lifted from left to right and then gradually lowered, the front and back adjacent groups of support plates 704 are fixedly connected to the conveying belt 703 between the two groups of support plates 704, the pushing frame 705 is arranged in an L-shaped, the pushing frame 705 rotates clockwise to drive the mouse shell to move, and the mouse shell 305 is conveniently placed between the four mouse shells to slide.

In the process of processing the mouse shell, the user places the mouse shell on the upper side of a group of support plates 704, then the user starts the electric shaft 702 to work, the conveyor 703 rotates clockwise when the electric shaft 702 works through the conveyor roller thereon, the conveyor rotates clockwise to enable the mouse shell to move rightwards through the support plates 704, and when the mouse shell moves rightwards to the upper sides of the two arc-shaped containing plates 310, the pushing frame 705 rotates clockwise at this moment to push the mouse shell to move rightwards continuously, so that the mouse shell is positioned between the four sliding plates 305, and the mouse shell is placed and processed conveniently.

The foregoing description of the preferred embodiments of the invention is not intended to limit the invention to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and scope of the invention are intended to be included within the scope of the invention.

Claims (5)

1. The utility model provides a mouse processing burr remove device that has locate function, including installing support (1), collection box (2) and slope piece (21), characterized by: the device comprises a mounting bracket (1), and is characterized by further comprising a clamping mechanism (3) and a polishing mechanism (4), wherein a collecting box (2) for storage is arranged at the right part of the mounting bracket (1), an inclined block (21) for the material to slide backwards is arranged on the upper side surface of the collecting box (2), the clamping mechanism (3) for fixing the material is arranged at the upper part of the mounting bracket (1), the polishing mechanism (4) for removing burrs is arranged at the upper part of the mounting bracket (1), and the polishing mechanism (4) is matched with the clamping mechanism (3);

the clamping mechanism (3) comprises a first straight gear (301), a supporting rod (302), a mounting plate (303), a sliding frame (304), sliding plates (305), transmission gears (306), rotating plates (307), hinging rods (308), racks (309), arc-shaped containing plates (310) and power components, wherein the first straight gear (301) is rotationally connected to the left side of the upper part of the mounting bracket (1), the right side surface of the first straight gear (301) is provided with a track groove, the middle part of the track groove on the first straight gear (301) is inwards concave towards the center, two supporting rods (302) are mounted on the right side of the upper part of the mounting bracket (1), the two supporting rods (302) are symmetrically arranged in front and back, the upper ends of the two supporting rods (302) are fixedly connected with the mounting plate (303), the upper side surfaces of the two mounting plates (303) are respectively provided with the sliding frames (304), the lower parts of the two sliding plates (305) are respectively connected with the transmission gears (306) which are rotationally connected with the two adjacent supporting rods (302) through the two transmission plates (307), two ends of the two rotating plates (307) are respectively connected with hinging rods (308) in a rotating way, the two hinging rods (308) are respectively connected with the adjacent sliding plates (305) in a rotating way, racks (309) are respectively arranged on the outer side faces of the two sliding frames (304), a transmission gear (306) is positioned on the inner sides of the two racks (309), the two racks (309) are respectively meshed with the adjacent transmission gears (306), arc-shaped containing plates (310) for bearing are fixedly connected on the inner side faces of the two mounting plates (303), a power assembly is arranged on the rear side of the upper part of the mounting bracket (1), and the power assembly is meshed with the first straight gear (301);

the power assembly comprises a first rotating shaft (311), bevel gears (312), a first gear motor (313) and a second straight gear (314), wherein the first rotating shaft (311) is rotatably arranged at the rear side of the upper part of the mounting bracket (1), the left part of the first rotating shaft (311) is fixedly connected with the mounting bracket (1) through a support plate, the bevel gears (312) are arranged at the right part of the first rotating shaft (311), the first gear motor (313) for providing power is arranged at the rear part of the mounting bracket (1), the bevel gears (312) are also arranged on the output shaft of the first gear motor (313), the two bevel gears (312) are meshed, the second straight gear (314) is arranged at the left end of the first rotating shaft (311), and the second straight gear (314) is meshed with the first straight gear (301);

the polishing mechanism (4) comprises a support column (401), a mouse shell module (402), a connecting frame (403), a fixing frame (404), a first connecting plate (405), a fixed plate (406), a mounting frame (408), a servo motor (409), a third straight gear (410), a fourth straight gear (411), a polishing component and a pressing component, wherein two support columns (401) are fixedly connected to the right side of the upper part of the mounting frame (1), the two support columns (401) are arranged in a front-back symmetrical mode, the mouse shell module (402) is respectively mounted at the upper ends of the two support columns (401), the connecting frame (403) is fixedly connected between the outer side surfaces of the two mounting plates (303), the middle part of the connecting frame (403) is in a hollow mode, the fixing frame (404) is fixedly connected to the right side surface of the upper side surface of the mounting frame (1), the left side surface of the fixing frame (404) is provided with the two first connecting plates (405), the fixed plate (406) is fixedly connected to the lower part of the two first connecting plates (405), the fixed plate (406) is positioned on the inner side of the connecting frame (403), the left side surface of the upper side surface of the connecting frame (403) is provided with the motor (408), the upper side surface of the servo motor (408), the upper rotating gear (409) is provided with the fourth connecting frame (409) is fixedly connected to the right side gear (411), the fourth spur gear (411) is meshed with the third spur gear (410), polishing assemblies are arranged in the middle of the two mouse shell modules (402), and the polishing assemblies are respectively connected with an output shaft of the servo motor (409) and a rotating rod on the fourth spur gear (411);

the polishing assembly comprises a second rotating shaft (412), a telescopic rod (413), a moving rod (414), a bent rod (415), a second speed reducing motor (416), fixed sleeves (417) and polishing rods (418), wherein the second rotating shaft (412) is rotatably arranged in the middle of each of the two mouse shell modules (402), the upper ends of the second rotating shafts (412) at the front sides are connected with an output shaft of the servo motor (409) through belt wheels and belt transmission, the rotating rods on the second rotating shaft (412) and the fourth spur gear (411) at the rear sides are connected through belt wheels and belt transmission, the upper parts of the two second rotating shafts (412) are respectively provided with the telescopic rods (413), the outer ends of the two telescopic rods (413) are fixedly connected with the moving rods (414), the lower ends of the moving rods (414) are hemispherical, the lower ends of the moving rods (414) are in sliding fit with the adjacent mouse shell modules (402), the inner ends of the two bent rods (415) are respectively provided with the fixed sleeves (417), the two fixed sleeves (417) are respectively arranged on the upper parts of the connecting frame (403) in a sliding mode, the two sliding sleeves (416) are respectively arranged on the two sliding shafts (416) in a sliding mode, the polishing rod (418) passes through a slideway formed by the connecting frame (403) and the fixed plate (406);

the pressing component comprises a gear-lack (419), a fifth straight gear (420), a pressing frame (421), a sliding plate (422) and a limiting plate (423), the gear-lack (419) is arranged at the right part of the first rotating shaft (311), the fifth straight gear (420) is rotatably arranged at the upper side of the right part of the mounting bracket (1), the left side surface of the fifth straight gear (420) is provided with a track groove, the middle parts of the front side and the rear side of the track groove of the fifth straight gear (420) are concave inwards, the pressing frame (421) is slidably arranged at the upper part of the connecting frame (403), a pin rod is arranged at the lower side of the right part of the pressing frame (421), the pressing frame (421) penetrates through the fixed plate (406) and is slidably connected with the fixed plate, the sliding plate (422) is arranged at the lower end of the pressing frame (421), the sliding plate (422) and the connecting frame (403) are slidably arranged, the limiting plate (423) is arranged at the lower end of the pressing frame (421), the limiting plate (423) is positioned at the inner side of the sliding plate (422), the middle part of the limiting plate (423) is outwards arranged at the outer side surface of the limiting plate (423), the middle part of the limiting plate (422) is outwards convex, the middle part of the limiting plate (422) is arranged inwards, the middle part of the middle part (422) is arranged inwards, the convex, and the convex groove (418) is formed in the boss (418) and matched with the boss (418) and forms the boss (418), the pin rod of the pressing frame (421) slides in the track groove of the fifth straight gear (420).

2. The burr removing device with a positioning function for mouse processing according to claim 1, wherein: still including fixed establishment (6), fixed establishment (6) set up the upside right part at installing support (1), fixed establishment (6) are including bracket (601), hold frame (602), second connecting plate (603) and spacing (604), downwardly extending's spout has been seted up at the rear portion of slope piece (21), slide in the spout of slope piece (21) and be equipped with bracket (601), the right part upside of bracket (601) is provided with the round pin pole, the round pin pole of bracket (601) is located the track inslot slip of fifth straight gear (420), the upper left portion upside rigid coupling of bracket (601) has holds frame (602), second connecting plate (603) are installed to the bottom of limiting plate (423), the lower part of second connecting plate (603) is provided with spacing (604).

3. The burr removing device with a positioning function for mouse processing according to claim 2, characterized in that: still including conveying mechanism (7), conveying mechanism (7) set up the upside left part at installing support (1), conveying mechanism (7) are including extension board (701), electric axle (702), conveyer belt (703) and backup pad (704), the upper portion left side rigid coupling of installing support (1) has two sets of extension boards (701), two sets of extension boards (701) bilateral symmetry set up, and be equipped with two in a set of extension boards (701), install electric axle (702) between a set of extension board (701) upper portion rotation, install the transfer roller on electric axle (702), around being equipped with conveyer belt (703) between two transfer rollers, the lateral surface rigid coupling of conveyer belt (703) has a plurality of backup pads (704), the material of backup pad (704) is rubber materials, and backup pad (704) are L shape.

4. The burr removing device with a positioning function for mouse processing according to claim 3, wherein: the support plates (704) in a group gradually rise and then gradually fall from left to right.

5. The burr removing device with a positioning function for mouse processing according to claim 3, wherein: the device also comprises a pushing frame (705), and the pushing frame (705) used for moving is fixedly connected on the conveyor belt (703) between two adjacent groups of supporting plates (704).