CN112276657A - Device capable of effectively cleaning scrap iron generated in milling process - Google Patents

Abstract

The invention discloses a device capable of effectively cleaning scrap iron generated in a milling process, which comprises a milling body, wherein a working cavity with a right opening is arranged in the milling body, the device is mainly applied to the treatment of the scrap iron after milling in part processing, in the treatment process, a telescopic mechanism is driven to operate by the movement of a threaded rectangular block so as to drive a main abutting block to move, so that the main abutting block can push the scrap iron to fall onto a through cavity, meanwhile, a sliding plate is driven to move by the abutting of the abutting block and the main abutting block so as to enable the through cavity to be communicated with a pushing cavity, so that the through cavity and the pushing cavity are not communicated in the milling process, meanwhile, the condition that the front end wall and the rear end wall of the working cavity are cleaned by a cleaning mechanism, further, some scrap iron which is adhered to the end walls and is difficult to clean can be cleaned, and the service life of a machine can be prolonged, thereby ensuring effective cleaning.

Description

Device capable of effectively cleaning scrap iron generated in milling process

Technical Field

The invention relates to the relevant field of milling, in particular to a device capable of effectively cleaning scrap iron generated in the milling process.

Background

Milling processing is an important part in part processing, a large amount of scrap iron can be generated after milling, if the scrap iron is not cleaned, the service life of a machine can be influenced, and the subsequent part milling can be influenced.

Disclosure of Invention

In order to solve the problems, the embodiment designs a device capable of effectively cleaning scrap iron generated in the milling process, the device comprises a milling body, a working cavity with a right opening is arranged in the milling body, a transmission cavity is arranged in the left end wall of the working cavity in a communicating mode, a motor shaft is rotatably connected between the left end wall and the right end wall of the working cavity, the left end of the motor shaft extends into the transmission cavity, a telescopic mechanism is arranged in the working cavity and comprises a threaded slide block in threaded connection with the right section of the motor shaft, two driving slide rods which are bilaterally symmetrical by taking the threaded slide block as a symmetrical center are hinged on the front end face of the threaded slide block, a screw rod is rotatably connected and arranged in the bottom face of the threaded slide block, and a telescopic body is rotatably connected and arranged on the lower section of the screw rod, a motor cavity which is communicated up and down is arranged in the telescopic body, a small motor is fixedly arranged between the left end wall and the right end wall of the motor cavity, the bottom surface of the screw rod is in power connection with the upper end surface of the small motor, guide chutes with mutually far-away openings are respectively arranged in the left end surface and the right end surface of the telescopic body, rectangular sliding blocks are arranged in the guide chutes in a vertically sliding manner, main abutting blocks are respectively and fixedly arranged on the end surfaces of the rectangular sliding blocks far away from each other, the main abutting blocks are abutted against the bottom wall of the working cavity, the front end surface of the rectangular sliding blocks is provided with arc-shaped sliding chutes with forwards openings, active push is arranged in the arc-shaped sliding chutes in a sliding manner, sliding blocks are fixedly arranged on the upper end surfaces of the active push, one ends of the two active sliding bars far away from each other are hinged on the front, two the one end that the driven slide bar is close to each other articulates on the preceding terminal surface of flexible body, threaded connection is equipped with the screw thread rectangular block on the middle section of screw rod, articulate respectively on the terminal surface about the screw thread rectangular block and be equipped with the pulling rod, a terminal surface that the pulling rod was kept away from each other articulates respectively and is equipped with the fixed block, a terminal surface that the fixed block was kept away from each other sets firmly two on the terminal surface that the sliding block was close to each other, be equipped with clean mechanism in the working chamber, clean mechanism is connected including rotating two fixed axles on the end wall around the working chamber, the rotary disk has set firmly on the fixed axle, the middle piece has set firmly on the terminal surface that the rotary disk kept away from each other, the clean piece has set firmly on the terminal surface that the middle piece was kept away from each other, a terminal surface that the.

Preferably, a through cavity is arranged in the bottom wall of the working cavity in a communicating manner, a rotating cavity is arranged in the right end wall of the through cavity in a communicating manner, a transmission gear shaft is fixedly arranged between the front end wall and the rear end wall of the rotating cavity, a transmission gear is rotatably arranged outside the transmission gear shaft, the upper end surface of the transmission gear is meshed with a driving rack, the driving rack slides left and right in the upper end wall of the rotating cavity, a butting block is fixedly arranged on the upper end surface of the left section of the driving rack, a tension spring is fixedly connected to the right end surface of the butting block, the right end surface of the tension spring is fixedly connected to the right end wall of the rotating cavity, the right end surface of the butting block butts against the left end surface of the left main butting block, a driven rack is meshed with the lower end surface of the transmission gear, a left sliding block and a right sliding block are fixedly arranged on the bottom surface of the driven rack, and the left sliding block and right sliding block, the left end face of the driven rack is fixedly provided with a sliding plate, the left end of the sliding plate extends into the through cavity, the left end of the sliding plate abuts against the left end wall of the through cavity, and the sliding plate slides left and right between the upper end wall and the lower end wall of the rotating cavity.

Preferably, a large motor is fixedly installed in the left end wall of the transmission cavity, the left end of the motor shaft is in power connection with the right end face of the large motor, a meshing worm is fixedly arranged on the left section of the motor shaft, a meshing worm wheel is meshed with the front end face of the meshing worm, a worm wheel shaft is fixedly arranged in the meshing worm wheel, the bottom face of the worm wheel shaft is rotatably connected in the bottom wall of the transmission cavity, a driving pulley is fixedly arranged on the periphery of the lower section of the worm wheel shaft, a rotating shaft is rotatably connected between the upper end wall and the lower end wall of the right section of the transmission cavity, a driven pulley is fixedly arranged on the rotating shaft, a transmission belt is connected between the driven pulley and the driving pulley, a butting cavity is communicated with the upper end wall of the transmission cavity, the upper section of the rotating shaft extends into the butting cavity, an eccentric wheel is fixedly arranged at the upper end of the rotating shaft, and a cavity is communicated with the pushing cavity, the eccentric wheel is in rotate between the upper and lower end wall of cavity, the right-hand member butt of eccentric wheel is equipped with the slurcam, the bottom surface butt of slurcam is in just on the diapire of promotion chamber the slurcam is in the horizontal slip on the diapire of promotion chamber, the up end of slurcam has set firmly the movable plate, the left section of movable plate stretches into the butt intracavity, the movable plate is in the horizontal slip of butt intracavity just the left end face of movable plate has linked firmly reset spring, reset spring's left end is in solid connection on the left end wall of butt chamber.

Preferably, a bevel gear shaft is rotatably connected between the left end wall and the right end wall of the upper section of the transmission cavity, a driven bevel gear is fixedly arranged on the periphery of the left section of the bevel gear shaft, a driving bevel gear is meshed with the upper end face of the driven bevel gear, the driving bevel gear is fixedly arranged on the periphery of the upper end of the worm gear shaft, a transmission worm is fixedly arranged on the periphery of the right section of the bevel gear shaft, a middle worm wheel is meshed with the lower end face of the transmission worm, a straight shaft is fixedly arranged in the middle worm wheel, the front end face and the rear end face of the straight shaft are respectively rotatably connected in the front end wall and the rear end wall of the transmission cavity, driving sprockets are respectively and fixedly arranged on the straight shaft in a front-back symmetrical mode by taking the middle worm wheel as a symmetrical center, driven sprockets are fixedly arranged on one side.

Preferably, the bottom surface of the small motor is provided with a short shaft in a power connection mode, a cleaning brush is fixedly arranged at the lower end of the short shaft, the cleaning brush rotates on the bottom surface of the telescopic body, and the bottom surface of the cleaning brush is abutted to the bottom wall of the working cavity.

The invention has the beneficial effects that: the scrap iron cleaning machine is mainly applied to the treatment of milled scrap iron in part machining, in the treatment process, the telescopic mechanism is driven to operate through the movement of the threaded rectangular block, the main abutting block is driven to move, the main abutting block can push the scrap iron to fall onto the through cavity, meanwhile, the sliding plate is driven to move through the abutting of the abutting block and the main abutting block, the through cavity is communicated with the pushing cavity, the condition that the through cavity and the pushing cavity are not communicated in the milling process can be achieved, meanwhile, the condition that the front end wall and the rear end wall of the working cavity can be cleaned through the cleaning mechanism, and further, the scrap iron which is adhered to the end walls and is difficult to clean can be cleaned, the service life of the machine can be prolonged, and effective cleaning is guaranteed.

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 view showing the overall structure of an apparatus for efficiently cleaning iron pieces generated during milling according to the present invention.

Fig. 2 is a schematic view of the structure a-a in fig. 1.

Fig. 3 is an enlarged schematic view of B in fig. 1.

Fig. 4 is an enlarged schematic view of C in fig. 1.

Detailed Description

The invention will now be described in detail with reference to fig. 1-4, 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 device capable of effectively cleaning scrap iron generated in the milling process comprises a milling body 11, wherein a working cavity 16 with a rightward opening is formed in the milling body 11, a transmission cavity 12 is formed in the left end wall of the working cavity 16 in a communicated manner, a motor shaft 22 is rotatably connected between the left end wall and the right end wall of the working cavity 16, the left end of the motor shaft 22 extends into the transmission cavity 12, a telescopic mechanism 101 is arranged in the working cavity 16, the telescopic mechanism 101 comprises a threaded slide block 26 which is in threaded connection with the right section of the motor shaft 22, two driving slide bars 27 which are in bilateral symmetry and take the threaded slide block 26 as a symmetry center are hinged on the front end surface of the threaded slide block 26 for rotating, a screw 28 is connected to the bottom surface of the threaded slide block 26, a telescopic body 65 is rotatably connected to the lower section of the screw 28, and a motor cavity 70 which is communicated up and down is formed in the telescopic body, a small motor 71 is fixedly installed between the left end wall and the right end wall of the motor cavity 70, the bottom surface of the screw 28 is in power connection with the upper end surface of the small motor 71, a guide chute 66 with an opening away from each other is respectively arranged in the left end surface and the right end surface of the telescopic body 65, a rectangular sliding block 67 is arranged in the guide chute 66 in a vertically sliding manner, a main abutting block 69 is respectively and fixedly arranged on one end surface of the rectangular sliding block 67 away from each other, the main abutting block 69 abuts against the bottom wall of the working cavity 16, an arc sliding chute 68 with a forward opening is arranged on the front end surface of the rectangular sliding block 67, a driving push 34 is arranged in the arc sliding chute 68 in a sliding manner, a sliding block 32 is fixedly arranged on the upper end surface of the driving push 34, two ends, away from each other, of the driving slide bars 27 are hinged to be arranged on the front end surface of the sliding, one end of each of the two driven sliding rods 33 close to each other is hinged to the front end face of the telescopic body 65, a threaded rectangular block 29 is connected to the middle section of the screw 28 in a threaded manner, pulling rods 31 are hinged to the left end face and the right end face of the threaded rectangular block 29 respectively, one end face of each pulling rod 31 far away from each other is hinged to a fixed block 30, one end face of each fixed block 30 far away from each other is fixedly arranged on one end face of each of the two sliding blocks 32 close to each other, a cleaning mechanism 102 is arranged in the working chamber 16 and comprises two fixed shafts 18 rotatably connected to the front end wall and the rear end wall of the working chamber 16, a rotating disc 17 is fixedly arranged on each fixed shaft 18, a middle block 61 is fixedly arranged on one end face of each rotating disc 17 far away from each other, a cleaning block 60 is fixedly arranged on one end face of each middle block 61 far away from each other, and one end face of each cleaning, when the small motor 71 runs in the positive direction to drive the screw 28 to rotate, the threaded rectangular block 29 is driven to move, further continuously pulling the pulling rod 31 to move, further driving the fixed block 30 to move, further driving the sliding block 32 to move, thereby moving the driving slide 27 and the driven slide 33 closer together, and further moving the driving push 34 closer together, thereby driving the rectangular slide block 67 to move downwards in the guide chute 66, further driving the main abutting block 69 to move downwards, and the main abutment block 69 abuts on the bottom wall of the working chamber 16, at which point the motor shaft 22 rotates and moves the threaded slider 26, thereby driving the main abutting block 69 to move leftwards continuously and further driving the iron filings to move, when the fixed shaft 18 rotates, and then the rotating disc 17 is driven to rotate, and further the middle block 61 is driven to rotate circumferentially, and further the cleaning block 60 is driven to rotate in a reciprocating manner, so that the aim of cleaning the iron chips on the front end wall and the rear end wall of the working cavity 16 is fulfilled.

Beneficially, a through cavity 15 is arranged in a bottom wall of the working cavity 16 in a communicating manner, a rotating cavity 44 is arranged in a right end wall of the through cavity 15 in a communicating manner, a transmission gear shaft 39 is fixedly arranged between a front end wall and a rear end wall of the rotating cavity 44, a transmission gear 38 is rotatably arranged outside the transmission gear shaft 39, an upper end surface of the transmission gear 38 is engaged with a driving rack 37, the driving rack 37 slides left and right in the upper end wall of the rotating cavity 44, a butting block 35 is fixedly arranged on an upper end surface of a left section of the driving rack 37, a tension spring 36 is fixedly connected to a right end surface of the butting block 35, a right end of the tension spring 36 is fixedly connected to a right end wall of the rotating cavity 44, a right end surface of the butting block 35 is butted against a left end surface of the left main butting block 69, a driven rack 41 is engaged with a lower end surface of the transmission gear 38, a left slider 40 and a right slider 40 are fixedly arranged on a bottom surface, the left and right sliding blocks 40 slide left and right on the bottom wall of the rotating cavity 44, the sliding plate 14 is fixedly arranged on the left end surface of the driven rack 41, the left end of the sliding plate 14 extends into the through cavity 15, the left end of the sliding plate 14 abuts against the left end wall of the through cavity 15, the sliding plate 14 slides left and right between the upper and lower end walls of the rotating cavity 44, when the main abutting block 69 moves left, the main abutting block 69 is driven to abut against the abutting block 35, the abutting block 35 is driven to move, the extension spring 36 is continuously stretched, the driving rack 37 is driven to move, the transmission gear 38 is driven to rotate around the transmission gear shaft 39, the driven rack 41 is driven to move, the left and right sliding blocks 40 are driven to move, the sliding plate 14 is driven to move, the through cavity 15 and the pushing cavity 42 is communicated, and the sliding plate 14 is opened when cleaning is needed, thereby avoiding the through cavity 15 from communicating with the push cavity 42 during milling.

Advantageously, a large motor 19 is fixedly installed in the left end wall of the transmission cavity 12, the left end of the motor shaft 22 is dynamically connected to the right end surface of the large motor 19, a meshing worm 21 is fixedly installed on the left section of the motor shaft 22, a meshing worm wheel 20 is meshed with the front end surface of the meshing worm 21, a worm wheel shaft 13 is fixedly installed in the meshing worm wheel 20, the bottom surface of the worm wheel shaft 13 is rotatably connected to the bottom wall of the transmission cavity 12, a driving pulley 54 is fixedly installed on the outer periphery of the lower section of the worm wheel shaft 13, a rotating shaft 50 is rotatably connected between the upper end wall and the lower end wall of the right section of the transmission cavity 12, a driven pulley 49 is fixedly installed on the rotating shaft 50, a transmission belt 51 is connected between the driven pulley 49 and the driving pulley 54, an abutting cavity 52 is arranged in communication with the upper end wall of the transmission cavity 12, the upper section of the rotating shaft 50 extends into the abutting cavity 52, and an eccentric wheel 48 is fixedly, a cavity 46 is communicated between the right end wall of the abutting cavity 52 and the pushing cavity 42, the eccentric wheel 48 rotates between the upper end wall and the lower end wall of the cavity 46, the right end of the eccentric wheel 48 is abutted with a pushing plate 45, the bottom surface of the pushing plate 45 is abutted against the bottom wall of the pushing cavity 42, the pushing plate 45 slides left and right on the bottom wall of the pushing cavity 42, a moving plate 47 is fixedly arranged on the upper end surface of the pushing plate 45, the left section of the moving plate 47 extends into the abutting cavity 52, the moving plate 47 slides left and right in the abutting cavity 52, a return spring 53 is fixedly connected to the left end surface of the moving plate 47, the left end of the return spring 53 is fixedly connected to the left end wall of the abutting cavity 52, when the large motor 19 operates to drive the motor shaft 22 to rotate, the meshing worm 21 is driven to rotate, the meshing worm wheel 20 is driven to rotate, and the worm wheel shaft 13 is driven to rotate, and then drive driving pulley 54 and rotate, and then drive driving belt 51 and rotate, and then drive driven pulley 49 and rotate, and then drive axis of rotation 50 and rotate, and then drive eccentric wheel 48 and rotate, and then make eccentric wheel 48 constantly reciprocal butt catch pushing plate 45, and then drive pushing plate 45 and remove, and then drive movable plate 47 and remove, and then constantly stretch reset spring 53, and then make the iron fillings that fall into pushing cavity 42 can fall into placing the chamber 43.

Beneficially, a bevel gear shaft 25 is rotatably connected between the left and right end walls of the upper section of the transmission cavity 12, a driven bevel gear 24 is fixedly arranged on the outer periphery of the left section of the bevel gear shaft 25, a driving bevel gear 23 is engaged with the upper end surface of the driven bevel gear 24, the driving bevel gear 23 is fixedly arranged on the outer periphery of the upper end of the worm gear shaft 13, a transmission worm 58 is fixedly arranged on the outer periphery of the right section of the bevel gear shaft 25, a middle worm wheel 59 is engaged with the lower end surface of the transmission worm 58, a straight shaft 55 is fixedly arranged in the middle worm wheel 59, the front end surface and the rear end surface of the straight shaft 55 are respectively rotatably connected in the front end wall and the rear end wall of the transmission cavity 12, driving sprockets 56 are respectively and longitudinally symmetrically and fixedly arranged on the straight shaft 55 by taking the middle worm wheel 59 as a symmetric center, a driven sprocket 63 is fixedly arranged on the side, where the fixed shaft, when the worm wheel shaft 13 rotates to drive the driving bevel gear 23 to rotate, the driven bevel gear 24 is driven to rotate, the bevel gear shaft 25 is driven to rotate, the transmission worm 58 is driven to rotate, the middle worm wheel 59 is driven to rotate, the straight shaft 55 is driven to rotate, the driving chain wheel 56 is driven to rotate, the chain 57 is driven to rotate, the driven chain wheel 63 is driven to rotate, the fixed shaft 18 is driven to rotate, and the purpose of continuously rotating the rotating disc 17 is achieved.

Beneficially, the bottom surface of small motor 71 is connected with and is equipped with minor axis 72, the lower extreme of minor axis 72 sets firmly cleaning brush 73, cleaning brush 73 rotates on the bottom surface of flexible body 65, the bottom surface of cleaning brush 73 with the diapire butt joint of working chamber 16, when main butt joint piece 69 removed, and then make cleaning brush 73 remove, and small motor 71 operation drive minor axis 72 this moment rotates, and then drives cleaning brush 73 and rotate, and then reached the iron fillings that difficult to get rid of on the washing working chamber 16 diapire, and then promoted the iron fillings through the main butt joint piece 69 on right side and remove.

The following describes in detail the use steps of an apparatus for efficiently cleaning iron pieces generated during milling with reference to fig. 1 to 4: in the initial state, the small motor 71 and the large motor 19 are not operated, the extension spring 36 and the return spring 53 are not extended or compressed, the drive bevel gear 23 and the driven bevel gear 24 are meshed but do not rotate, the main abutting block 69 is not abutted against the abutting block 35, the main abutting block 69 is not abutted against the bottom wall of the working chamber 16, the driving push 34 is in the initial position in the arc-shaped sliding groove 68, the rectangular sliding block 67 is in the initial position in the guide sliding groove 66, the transmission gear 38 is meshed with the drive rack 37, the transmission gear 38 is meshed with the driven rack 41, the sliding plate 14 is in the initial position, and the eccentric wheel 48 is not abutted against the push plate 45.

When the iron scrap cleaning machine is used, when a large amount of iron scrap is in need of cleaning in the working cavity 16, the small motor 71 positively operates the driving screw 28 to rotate, and then the threaded rectangular block 29 is driven to move, and then the pulling rod 31 is continuously pulled to move, and further the fixed block 30 is driven to move, and further the sliding block 32 is driven to move, and further the driving sliding rod 27 and the driven sliding rod 33 are driven to move close, and further the driving push 34 is driven to mutually close, and further the rectangular sliding block 67 is driven to move downwards in the guide sliding groove 66, and further the main abutting block 69 is driven to move downwards, and further the main abutting block 69 abuts against the bottom wall of the working cavity 16, and at the moment, when the large motor 19 operates the driving motor shaft 22 to rotate, the motor shaft 22 rotates to drive the threaded sliding block 26 to move, and further the main abutting block 69; when the main abutting block 69 continuously moves leftwards, the main abutting block 69 abuts against the abutting block 35, the abutting block 35 is driven to move, the extension spring 36 is continuously stretched, the driving rack 37 is driven to move, the transmission gear 38 is driven to rotate around the transmission gear shaft 39, the driven rack 41 is driven to move, the left sliding block 40 and the right sliding block 40 are driven to move, the sliding plate 14 is driven to move, the through cavity 15 and the pushing cavity 42 are communicated, the sliding plate 14 is opened when cleaning is needed, the through cavity 15 and the pushing cavity 42 are prevented from being communicated when milling is conducted, and scrap iron falls into the pushing cavity 42; when the main abutting block 69 moves, the cleaning brush 73 moves, at the moment, the small motor 71 operates to drive the short shaft 72 to rotate, the cleaning brush 73 is driven to rotate, scrap iron which is difficult to remove on the bottom wall of the cleaning working cavity 16 is further cleaned, and the scrap iron is pushed to move through the main abutting block 69 on the right side; when the threaded sliding block 26 moves leftwards, the worm wheel shaft 13 rotates to drive the driving bevel gear 23 to rotate, further drives the driven bevel gear 24 to rotate, further drives the bevel gear shaft 25 to rotate, further drives the transmission worm 58 to rotate, further drives the intermediate worm wheel 59 to rotate, further drives the straight shaft 55 to rotate, further drives the driving sprocket 56 to rotate, further drives the chain 57 to rotate, further drives the driven sprocket 63 to rotate, further drives the fixed shaft 18 to rotate, further achieves the purpose of continuously rotating the rotating disc 17, further drives the intermediate block 61 to circumferentially rotate, further drives the cleaning block 60 to reciprocally rotate, further achieves the purpose of cleaning iron chips on the front end wall and the rear end wall of the working chamber 16, further enables the iron chips on the front end wall and the rear end wall of the working chamber 16 to fall onto the bottom wall of the working chamber 16, further is pushed into the through chamber 15 by the main abutting block 69; when scrap iron falls into the pushing cavity 42, the large motor 19 operates to drive the motor shaft 22 to rotate, further drives the meshing worm 21 to rotate, further drives the meshing worm wheel 20 to rotate, further drives the worm wheel shaft 13 to rotate, further drives the driving belt wheel 54 to rotate, further drives the transmission belt 51 to rotate, further drives the driven belt wheel 49 to rotate, further drives the rotating shaft 50 to rotate, further drives the eccentric wheel 48 to rotate, further enables the eccentric wheel 48 to continuously and repeatedly abut against the pushing plate 45, further drives the pushing plate 45 to move, further drives the moving plate 47 to move, further continuously stretches the reset spring 53, and further enables the scrap iron falling into the pushing cavity 42 to fall into the placing cavity 43; after the cleaning is finished, the small motor 71 reversely runs to drive the screw 28 to rotate, and then drives the threaded rectangular block 29 to recover to the initial position, and further drives the main abutting block 69 to recover to the initial position, and further is influenced by the rebound force of the extension spring 36 to drive the abutting block 35 to recover to the initial position, and further enables the sliding plate 14 to recover to the initial position, so that the through cavity 15 and the pushing cavity 42 are not communicated, at the moment, the large motor 19 reversely runs to drive the motor shaft 22 to rotate, and further drives the threaded sliding block 26 to move to recover to the initial position.

The invention has the beneficial effects that: the scrap iron cleaning machine is mainly applied to the treatment of milled scrap iron in part machining, in the treatment process, the telescopic mechanism is driven to operate through the movement of the threaded rectangular block, the main abutting block is driven to move, the main abutting block can push the scrap iron to fall onto the through cavity, meanwhile, the sliding plate is driven to move through the abutting of the abutting block and the main abutting block, the through cavity is communicated with the pushing cavity, the condition that the through cavity and the pushing cavity are not communicated in the milling process can be achieved, meanwhile, the condition that the front end wall and the rear end wall of the working cavity can be cleaned through the cleaning mechanism, and further, the scrap iron which is adhered to the end walls and is difficult to clean can be cleaned, the service life of the machine can be prolonged, and effective cleaning is guaranteed.

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 (5)

1. The utility model provides a device that can effectively clear up iron fillings that milling process produced, includes the milling body, its characterized in that: a working cavity with a right opening is arranged in the milling body, a transmission cavity is arranged in the left end wall of the working cavity in a communicated manner, a motor shaft is rotatably connected between the left end wall and the right end wall of the working cavity, the left end of the motor shaft extends into the transmission cavity, a telescopic mechanism is arranged in the working cavity and comprises a threaded slider in threaded connection with the right section of the motor shaft, two driving slide bars which are bilaterally symmetrical by taking the threaded slider as a symmetrical center are hinged on the front end surface of the threaded slider, a screw rod is rotatably connected and arranged in the bottom surface of the threaded slider, a telescopic body is rotatably connected and arranged at the lower section of the screw rod, a motor cavity which is communicated up and down is arranged in the telescopic body, a small motor is fixedly arranged between the left end wall and the right end wall of the motor cavity, the bottom surface of the screw rod is dynamically connected with the upper end surface of the small, a rectangular sliding block is arranged in the guide sliding groove in a vertically sliding manner, a main abutting block is fixedly arranged on one end face, away from each other, of the rectangular sliding block, the main abutting block is abutted against the bottom wall of the working cavity, an arc-shaped sliding groove with a forward opening is arranged on the front end face of the rectangular sliding block, a driving push is arranged in the arc-shaped sliding groove in a sliding manner, a sliding block is fixedly arranged on the upper end face of the driving push, one end, away from each other, of each driving sliding rod is hinged to the front end face of the sliding block, the upper end face, away from each other, of each driving sliding rod is hinged to a driven sliding rod, one end, close to each other, of each driven sliding rod is hinged to the front end face of the telescopic body, a threaded rectangular block is connected to the middle section of the screw rod in a threaded manner, pulling rods are respectively hinged to the left end, the terminal surface that the fixed block was kept away from each other sets firmly two on the terminal surface that the sliding block is close to each other, be equipped with clean mechanism in the working chamber, clean mechanism is connected including rotating two fixed axles on the end wall around the working chamber, the rotary disk has set firmly on the fixed axle, the middle piece has set firmly on the terminal surface that the rotary disk kept away from each other, the cleaning block has set firmly on the terminal surface that the middle piece kept away from each other, a terminal surface that the cleaning block kept away from each other is in rotate on the front and back end wall of working chamber.

2. The device for effectively cleaning the iron chips generated in the milling process as claimed in claim 1, wherein: a through cavity is communicated with the bottom wall of the working cavity, a rotating cavity is communicated with the right end wall of the through cavity, a transmission gear shaft is fixedly arranged between the front end wall and the rear end wall of the rotating cavity, a transmission gear is rotatably arranged outside the transmission gear shaft, the upper end surface of the transmission gear is engaged with a driving rack, the driving rack slides left and right in the upper end wall of the rotating cavity, a butt joint block is fixedly arranged on the upper end surface of the left section of the driving rack, the right end surface of the butt joint block is fixedly connected with a tension spring, the right end of the tension spring is fixedly connected with the right end wall of the rotating cavity, the right end surface of the butt joint block is abutted against the left end surface of the left main butt joint block, the lower end surface of the transmission gear is engaged with a driven rack, a left sliding block and a right sliding block are fixedly arranged on the bottom surface of the driven rack, and the left sliding block and the right sliding block slide left, the left end face of the driven rack is fixedly provided with a sliding plate, the left end of the sliding plate extends into the through cavity, the left end of the sliding plate abuts against the left end wall of the through cavity, and the sliding plate slides left and right between the upper end wall and the lower end wall of the rotating cavity.

3. The device for effectively cleaning the iron chips generated in the milling process as claimed in claim 1, wherein: a large motor is fixedly arranged in the left end wall of the transmission cavity, the left end of the motor shaft is in power connection with the right end face of the large motor, a meshing worm is fixedly arranged on the left section of the motor shaft, a meshing worm wheel is meshed with the front end face of the meshing worm, a worm wheel shaft is fixedly arranged in the meshing worm wheel, the bottom surface of the worm wheel shaft is rotatably connected in the bottom wall of the transmission cavity, a driving belt wheel is fixedly arranged on the periphery of the lower section of the worm wheel shaft, a rotating shaft is rotatably connected between the upper end wall and the lower end wall of the right section of the transmission cavity, a driven belt wheel is fixedly arranged on the rotating shaft, a transmission belt is connected between the driven belt wheel and the driving belt wheel, a butting cavity is communicated in the upper end wall of the transmission cavity, the upper section of the rotating shaft extends into the butting cavity, an eccentric wheel is fixedly arranged at the upper end of the rotating shaft, and a cavity, the eccentric wheel is in rotate between the upper and lower end wall of cavity, the right-hand member butt of eccentric wheel is equipped with the slurcam, the bottom surface butt of slurcam is in just on the diapire of promotion chamber the slurcam is in the horizontal slip on the diapire of promotion chamber, the up end of slurcam has set firmly the movable plate, the left section of movable plate stretches into the butt intracavity, the movable plate is in the horizontal slip of butt intracavity just the left end face of movable plate has linked firmly reset spring, reset spring's left end is in solid connection on the left end wall of butt chamber.

4. The device for effectively cleaning the iron chips generated in the milling process as claimed in claim 1, wherein: the transmission device is characterized in that a bevel gear shaft is rotatably connected between the left end wall and the right end wall of the upper section of the transmission cavity, a driven bevel gear is fixedly arranged on the periphery of the left section of the bevel gear shaft, a driving bevel gear is meshed with the upper end face of the driven bevel gear, the driving bevel gear is fixedly arranged on the periphery of the upper end of the worm gear shaft, a transmission worm is fixedly arranged on the periphery of the right section of the bevel gear shaft, a middle worm wheel is meshed with the lower end face of the transmission worm, a straight shaft is fixedly arranged in the middle worm wheel, the front end face and the rear end face of the straight shaft are respectively rotatably connected in the front end wall and the rear end wall of the transmission cavity, driving chain wheels are respectively and fixedly arranged on the front side and the rear side of the straight shaft, which are close to each other, and.

5. The device for effectively cleaning the iron chips generated in the milling process as claimed in claim 1, wherein: the bottom surface power connection of small motor is equipped with the minor axis, the lower extreme of minor axis has set firmly the cleaning brush, the cleaning brush is in rotate on the bottom surface of flexible body, the bottom surface of cleaning brush with the diapire butt of working chamber.

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