CN109107664A - A kind of automation motor-driven mill and its application method - Google Patents

Abstract

Of the invention a kind of automation motor-driven mill and its application method, including apparatus main body, it is set to the intracorporal grinding device of described device master and is set to the intracorporal screening plant of described device master, the grinding device includes being set to intracorporal first working chamber of described device master, motor is installed in end wall on the left of first working chamber, the output shaft of the motor is fixedly connected with the transmission shaft extended to the right, first bevel gear and second bevel gear are installed on the transmission shaft, the first bevel gear upper end engagement is connected with third hand tap gear；The present apparatus is capable of the grinding and screening of intelligent automation progress raw material, operation and the operation for reducing manpower are practical, make the proud convenience of grinding work for needing the raw material being ground, raw material after ground can also be screened, then will filter out and not grind complete material and carry out secondary grinding.

Description

A kind of automation motor-driven mill and its application method

Technical field

The present invention relates to processing technique field, specifically a kind of automation motor-driven mill and its application method.

Background technique

Nowadays people's lives level is become better and better in China, and the grinding of various characteristic is also had in life Machine, with widely, the processing of the various articles such as coffee bean, Chinese medicine requires to use grinder, it is therefore desirable to which design can Intelligent automation grinds work, reduces operation and the service time of manpower, enables the convenient equipment of work of grinding, so needing Design a kind of intelligent automation a kind of automation motor-driven mill and its application method it is really necessary to.

Summary of the invention

Technical problem to be solved by the invention is to provide a kind of automation motor-driven mill and its application methods, can Solve the problems in above-mentioned present technology.

The present invention is achieved through the following technical solutions: a kind of automation motor-driven mill of the invention and its use Method, including apparatus main body, be set to the intracorporal grinding device of described device master and be set to the intracorporal sieve of described device master Screening device, the grinding device include being set to intracorporal first working chamber of described device master, the first working chamber left-hand end Motor is installed in wall, the output shaft of the motor is fixedly connected with the transmission shaft extended to the right, is installed on the transmission shaft First bevel gear and second bevel gear, the first bevel gear upper end engagement are connected with third hand tap gear, first work Make to be equipped with the second working chamber on the upside of chamber in end wall, the third hand tap gear axle center, which is installed with, to be extended into second working chamber First rotary shaft, first rotary shaft upper end are installed with the 4th bevel gear, and the 4th bevel gear upper end engagement is cooperatively connected There is the 5th bevel gear, the 5th bevel gear axle center is installed with left end and is rotatably assorted with end wall on the left of second working chamber The connecting shaft of connection, the 5th bevel gear upper end engagement is connected with the 6th bevel gear, second working chamber upside It is equipped with belt wheel chamber in wall, the 6th bevel gear axle center is installed with to upwardly extend and be rotatably assorted company with end wall on the upside of the belt wheel chamber The second rotary shaft connect, second rotary shaft upper end are installed with first pulley, and connection is equipped with third work on the right side of the belt wheel chamber Make chamber, the first pulley is rotatably assorted by belt is connected with the second belt wheel, and second belt wheel axle center is installed with third rotation Shaft, the 7th bevel gear is installed in the third rotary shaft, and the 7th bevel gear left end engagement is connected with the 8th cone Gear, the 8th bevel gear axle center are installed with end wall on the left of left end and the third working chamber and are rotatably assorted the 4th rotation of connection Shaft, the 9th bevel gear is installed in the 4th rotary shaft, and the 9th bevel gear lower end engagement is connected with the tenth cone Gear, is equipped with gear cavity on the downside of the third working chamber in end wall, the tenth bevel gear axle center, which is installed with, to be extended downwardly and institute It states end wall on the downside of gear cavity to be rotatably assorted the 5th rotary shaft of connection, is installed with the first spur gear in the 5th rotary shaft, institute It states the engagement of second bevel gear upper end and is connected with the 11st bevel gear, the 11st bevel gear axle center, which is installed with, to be upwardly extended Enter the 6th rotary shaft of second working chamber, the 6th rotary shaft upper end is installed with the 12nd bevel gear, second work To make to be installed with the first cylinder on the right side of chamber in end wall, the outputting axial power of first cylinder is connected with the first fixing axle, and described the Be rotatably assorted in one fixing axle by axle sleeve be connected with move right after with the 12nd bevel gear left end engage mating connection The tenth third hand tap gear, after the tenth third hand tap gear moves right upper end engagement be connected with the 14th bevel gear, it is described It is equipped with the 4th working chamber on the upside of second working chamber in end wall, the 14th bevel gear axle center, which is installed with, to be upwardly extended and described the End wall is rotatably assorted the screw rod of connection on the upside of four working chambers, is threadedly engaged and is connected with and the 5th rotary shaft is sliding on the screw rod The dynamic slide plate being cooperatively connected, the slide plate lower end surface are installed with the second fixing axle, and the fixing axle lower end is installed with circular solid Determine block, the fixing axle and the fixed block, which are rotatably assorted to be connected with to move down rear outer wall and engage with first spur gear, matches The round briquetting of connection is closed, the circle briquetting lower end surface is installed with emery disc, and connection is equipped with principal mode on the downside of the 4th working chamber Chamber, primary cavity left side connection are equipped with base plate chamber, and the base plate chamber is slidably connected with the bottom that lower end surface is installed with rack gear Plate.

The screening plant includes being set to intracorporal 5th working chamber of described device master as a preferred technical solution, The transmission shaft extends into the 5th working chamber and right end is installed with the 15th bevel gear, the 15th bevel gear rear end Engagement is connected with the 16th bevel gear, and the 16th bevel gear axle center is installed with front and back end and works respectively with the described 5th Side wall is rotatably assorted the 7th rotary shaft of connection before and after chamber, is installed with the second spur gear in the 7th rotary shaft and third is straight Gear, the 5th working chamber front side connection are equipped with the second slide bar chamber, are installed with second in end wall on rear side of the 5th working chamber Cylinder, the outputting axial power of second cylinder is connected with extension forward and telescopic third fixing axle, the third are fixed It is rotatably assorted to be connected with after movement by axle sleeve on axis and engages cooperation with second spur gear and the third spur gear right end 4th spur gear of connection, right end engagement is combined with the 5th spur gear and the 6th spur gear, institute after the 4th spur gear is mobile It states the 5th spur gear axle center and is installed with end wall on rear side of rear end and the 5th working chamber and be rotatably assorted the 8th rotary shaft of connection, institute It states the 6th spur gear axle center and is installed with end wall on front side of front end and the 5th working chamber and be rotatably assorted the 9th rotary shaft of connection, institute It states connection on the right side of the 5th working chamber and is equipped with the 6th working chamber and the 7th working chamber, be installed with third band in the 8th rotary shaft Wheel, the third belt wheel is rotatably assorted by belt is connected with the 4th belt wheel, and the 4th belt wheel axle center is installed with both ends difference Be rotatably assorted the tenth rotary shaft of connection with side wall before and after the 6th working chamber, is installed in the tenth rotary shaft The 7th spur gear being cooperatively connected is engaged at end with the rack gear of the bottom plate lower end, is installed with the 5th band in the 9th rotary shaft Wheel, the 5th belt wheel is rotatably assorted by belt is connected with the 6th belt wheel, and the 6th belt wheel axle center is installed with both ends difference Be rotatably assorted the 11st rotary shaft of connection with side wall before and after the 7th working chamber, symmetrically solid in the 11st rotary shaft Equipped with cam, connection is equipped with powder chambers on the downside of the primary cavity, and the powder chambers left and right sides is connected to and left side opposite equipped with opening The sieve plate chamber being connected to the 7th working chamber, the sieve plate chamber are slidably connected with sieve plate, and the sieve plate right end, which is equipped with, to be slided Slot, the sliding slot are slidably connected with sliding block, and connection is equipped with spring cavity on the right side of the sieve plate chamber, and the sliding block right end is installed with With the resonance block of spring cavity sliding connection, the resonance block right end is installed with end wall on the right side of right end and the spring cavity The resonant spring being fixedly connected.

Sub-unit is symmetrical arranged in the third working chamber and inside primary cavity as a preferred technical solution,.

It is connected on front side of the primary cavity as a preferred technical solution, and is equipped with feed cavity for opening forward, before the sieve plate End is installed with extension block, facilitates and takes out the sieve plate, will not grind complete material and carry out secondary operation, the powder chambers downside Connection is equipped with feeding chamber for opening forward, and the feeding chamber is slidably connected with powder box, for holding ground former material Material.

Described method includes following steps:

Firstly, suitable raw material are added from feed cavity, motor is started to work, and motor drives first bevel gear to turn by transmission shaft It is dynamic, to drive the rotation of the first rotary shaft by third hand tap gear, then drives and connecting shaft rotation is driven by the 4th bevel gear, The rotation of the 6th bevel gear is driven eventually by the 5th bevel gear, the 6th bevel gear drives first band rotation by the second rotary shaft It is dynamic, to drive the rotation of third rotary shaft by the second belt wheel, the rotation of the 7th bevel gear is then driven by the 7th bevel gear, most The rotation of the 9th bevel gear is driven by the 4th rotary shaft eventually, the 9th bevel gear drives the 5th rotary shaft to turn by the tenth bevel gear Dynamic, final to drive the rotation of the first spur gear, at the same time, transmission shaft drives the 11st bevel gear to rotate by second bevel gear, To drive the rotation of the 12nd bevel gear by the 6th rotary shaft, the first cylinder is started to work at this time, and the first cylinder passes through first Fixing axle drives the tenth third hand tap gear to move right, and then drives the rotation of the tenth triconodont wheel by the tenth plug tap gear, finally Screw rod rotation is driven by the 14th bevel gear, screw rod drives the second fixing axle to move down by slide plate, to pass through circle Briquetting drives emery disc to move down, and final first spur gear passes through round briquetting and drives emery disc rotation,

Secondly, the 15th bevel gear by the 16th bevel gear drive the 7th rotary shaft rotation, thus drive the second spur gear and The rotation of third spur gear, the second cylinder are started to work, and the second cylinder drives the 4th spur gear to move backward by third fixing axle, Then the rotation of the 5th spur gear is driven by the 4th spur gear, drives the rotation of third belt wheel, third eventually by the 8th rotary shaft Belt wheel drives the rotation of the tenth rotary shaft by the 4th belt wheel, thus drive bottom plate to be moved to the left by the 7th spur gear, it is ground Raw material afterwards are fallen on sieve plate, and the second cylinder is started to work, and the second cylinder drives the 4th spur gear to move forward by sieve plate, Then the second spur gear drives the rotation of the 6th spur gear by the 4th spur gear, drives the 6th band to rotate eventually by the 5th belt wheel Dynamic, the 6th belt wheel is rotated by the 11st rotary shaft band moving cam, so that sieve plate side-to-side vibrations is driven, the former material after grinding completely Material, which is screened, to be fallen into powder box, is taken out sieve plate, will not ground complete raw material and grind again.

The beneficial effects of the present invention are: the configuration of the present invention is simple, easy to operate, when being worked by the present apparatus, need When carrying out grinding work, suitable raw material are added from feed cavity, motor is started to work, and motor drives the first cone by transmission shaft Gear rotation then drives to drive the rotation of the first rotary shaft by third hand tap gear and drives connection by the 4th bevel gear Axis rotation drives the rotation of the 6th bevel gear eventually by the 5th bevel gear, and the 6th bevel gear drives first by the second rotary shaft Belt wheel rotation then drives the 7th bevel gear by the 7th bevel gear to drive the rotation of third rotary shaft by the second belt wheel Rotation drives the rotation of the 9th bevel gear eventually by the 4th rotary shaft, and the 9th bevel gear drives the 5th rotation by the tenth bevel gear Shaft rotation, final to drive the rotation of the first spur gear, at the same time, transmission shaft drives the 11st bevel gear by second bevel gear Rotation, to drive the rotation of the 12nd bevel gear by the 6th rotary shaft, the first cylinder is started to work at this time, and the first cylinder passes through First fixing axle drives the tenth third hand tap gear to move right, and then drives the rotation of the tenth triconodont wheel by the tenth plug tap gear, Screw rod rotation is driven eventually by the 14th bevel gear, screw rod drives the second fixing axle to move down by slide plate, to pass through Round briquetting drives emery disc to move down, and final first spur gear passes through round briquetting and drives emery disc rotation, when being sieved When selecting work and carrying out secondary operation, the 15th bevel gear drives the rotation of the 7th rotary shaft by the 16th bevel gear, thus band Dynamic second spur gear and the rotation of third spur gear, the second cylinder are started to work, and the second cylinder drives the 4th by third fixing axle Spur gear moves backward, and then drives the rotation of the 5th spur gear by the 4th spur gear, drives the eventually by the 8th rotary shaft The rotation of three belt wheels, third belt wheel drives the rotation of the tenth rotary shaft by the 4th belt wheel, to drive bottom plate by the 7th spur gear Be moved to the left, it is ground after raw material fall on sieve plate, the second cylinder start to work, the second cylinder by sieve plate drive the 4th Spur gear moves forward, and then the second spur gear drives the rotation of the 6th spur gear by the 4th spur gear, eventually by the 5th band Wheel drives the rotation of the 6th belt wheel, and the 6th belt wheel is rotated by the 11st rotary shaft band moving cam, so that sieve plate side-to-side vibrations is driven, Raw material after grinding completely, which are screened, to be fallen into powder box, is taken out sieve plate, will not ground complete raw material and grind again Mill, the present apparatus are capable of the grinding and screening of intelligent automation progress raw material, and operation and the operation for reducing manpower are practical, make to need The proud convenience of grinding work for the raw material being ground, additionally it is possible to the raw material after ground are screened, it then will screening It does not grind complete material out and carries out secondary grinding.

Detailed description of the invention

The present invention is described in detail by following specific embodiments and drawings for ease of explanation,.

Fig. 1 is the schematic diagram of internal structure of of the invention a kind of automation motor-driven mill and its application method；

Fig. 2 is the top view in direction " A-A " in Fig. 1；

Fig. 3 is the top view in direction " B-B " in Fig. 1；

Fig. 4 is the main view of of the invention a kind of automation motor-driven mill and its application method.

Specific embodiment

As Figure 1-Figure 4, of the invention a kind of automation motor-driven mill and its application method, including apparatus main body 10, the grinding device being set in described device main body 10 and the screening plant being set in described device main body 10, it is described Grinding device includes the first working chamber 11 being set in described device main body 10, solid in the 11 left side end wall of the first working chamber Equipped with motor 12, the output shaft of the motor 12 is fixedly connected with the transmission shaft 13 extended to the right, fixed on the transmission shaft 13 There are first bevel gear 14 and second bevel gear 15,14 upper end of the first bevel gear engagement is connected with third hand tap gear 16, The second working chamber 17 is equipped in first working chamber, the 11 upside end wall, 16 axle center of third hand tap gear, which is installed with, extends into institute State the first rotary shaft 18 in the second working chamber 17,18 upper end of the first rotary shaft is installed with the 4th bevel gear 19, and described The engagement of four bevel gears, 19 upper end is connected with the 5th bevel gear 23,23 axle center of the 5th bevel gear be installed with left end with it is described Second working chamber, the 17 left side end wall is rotatably assorted the connecting shaft 22 of connection, 23 upper end of the 5th bevel gear engagement cooperation It is connected with the 6th bevel gear 24, is equipped with belt wheel chamber 25,24 axis of the 6th bevel gear in the 17 upside end wall of the second working chamber The heart is installed with the second rotary shaft 26 for upwardly extending the connection that is rotatably assorted with the 25 upside end wall of belt wheel chamber, second rotation 26 upper end of axis is installed with first pulley 27, and connection is equipped with third working chamber 28, the first pulley 27 on the right side of the belt wheel chamber 25 It being rotatably assorted by belt and is connected with the second belt wheel 29,29 axle center of the second belt wheel is installed with third rotary shaft 30, and described The 7th bevel gear 31 is installed in three rotary shafts, 31 left end of the 7th bevel gear engagement is connected with the 8th bevel gear 32, 4th rotation of connection that 32 axle center of the 8th bevel gear is installed with left end and the 28 left side end wall of third working chamber is rotatably assorted Shaft 33, the 9th bevel gear 34 is installed in the 4th rotary shaft 33, and 34 lower end of the 9th bevel gear engagement is cooperatively connected There is the tenth bevel gear 35, gear cavity 36 is equipped in the 28 downside end wall of third working chamber, 35 axle center of the tenth bevel gear is solid Equipped with the 5th rotary shaft 37 for extending downwardly the connection that is rotatably assorted with the 36 downside end wall of gear cavity, the 5th rotary shaft 37 On be installed with the first spur gear 38,15 upper end of the second bevel gear engagement is connected with the 11st bevel gear 39, described the 11 bevel gear, 39 axle center is installed with the 6th rotary shaft 40 for extending upwardly into second working chamber 17, the 6th rotary shaft 40 upper ends are installed with the 12nd bevel gear 41, are installed with the first cylinder 20 in the 17 right side end wall of the second working chamber, and described The outputting axial power of one cylinder 20 is connected with the first fixing axle 21, is rotatably assorted connection in first fixing axle 21 by axle sleeve There are the tenth third hand tap gear 42 for engaging and being cooperatively connected with 41 left end of the 12nd bevel gear after moving right, the tenth third hand tap Upper end engagement is connected with the 14th bevel gear 43 after gear 42 moves right, and sets in the 17 upside end wall of the second working chamber There is the 4th working chamber 44,43 axle center of the 14th bevel gear, which is installed with, to be upwardly extended and the 44 upside end wall of the 4th working chamber Be rotatably assorted the screw rod 45 of connection, is threadedly engaged and is connected with and the 5th rotary shaft 37 is slidably connected on the screw rod 45 Slide plate 46,46 lower end surface of slide plate is installed with the second fixing axle 47, and 47 lower end of fixing axle is installed with circular fixation Block 48, the fixing axle 47 and the fixed block 48, which are rotatably assorted to be connected with, moves down rear outer wall and first spur gear 38 Engage the round briquetting 49 being cooperatively connected, circle briquetting 49 lower end surface is installed with emery disc 50, under the 4th working chamber 44 Side connection is equipped with primary cavity 51, and connection is equipped with base plate chamber 52 on the left of the primary cavity 51, and the base plate chamber 52 is slidably connected There is lower end surface to be installed with the bottom plate 53 of rack gear.

Valuably, the screening plant includes the 5th working chamber 54 being set in described device main body 10, the transmission Axis 13 extends into the 5th working chamber 54 and right end is installed with the 15th bevel gear 55,55 rear end of the 15th bevel gear Engagement is connected with the 16th bevel gear 56, and 56 axle center of the 16th bevel gear is installed with front and back end respectively with the described 5th 54 front and back side wall of working chamber is rotatably assorted the 7th rotary shaft 57 of connection, is installed with the second straight-tooth in the 7th rotary shaft 57 58 and third spur gear 59 are taken turns, connection is equipped with the second slide bar chamber 60, the 5th working chamber 54 on front side of the 5th working chamber 54 It is installed with the second cylinder 61 in rear side end wall, the outputting axial power of second cylinder 61, which is connected with, to be extended forward and telescopic Third fixing axle 62, be rotatably assorted in the third fixing axle 62 by axle sleeve be connected with it is mobile after with second spur gear 59 The 4th spur gear 63 being cooperatively connected with 60 right end of third spur gear engagement, right end is nibbled after the 4th spur gear 63 is mobile Conjunction is combined with the 5th spur gear 64 and the 6th spur gear 65, and 64 axle center of the 5th spur gear is installed with rear end and the 5th work Make 54 rear side end wall of chamber to be rotatably assorted the 8th rotary shaft 66 of connection, 65 axle center of the 6th spur gear be installed with front end with it is described 5th working chamber, 54 front side end wall is rotatably assorted the 9th rotary shaft 67 of connection, and connection is equipped with the on the right side of the 5th working chamber 54 Six working chambers 68 and the 7th working chamber 69, third belt wheel 70 is installed in the 8th rotary shaft 66, and the third belt wheel 70 is logical Cross belt and be rotatably assorted and be connected with the 4th belt wheel 71,71 axle center of the 4th belt wheel be installed with both ends respectively with the 6th work Make 68 front and back side wall of chamber to be rotatably assorted the tenth rotary shaft 72 of connection, be installed in the tenth rotary shaft 72 upper end with it is described The rack gear of 53 lower end of bottom plate engages the 7th spur gear 73 being cooperatively connected, and is installed with the 5th belt wheel in the 9th rotary shaft 67 74, the 5th belt wheel 74 is rotatably assorted by belt is connected with the 6th belt wheel 75, and 75 axle center of the 6th belt wheel is installed with two Hold the 11st rotary shaft 76 of the connection that is rotatably assorted respectively with the 69 front and back side wall of the 7th working chamber, the 11st rotation Cam 77 is symmetrically installed on axis 76, connection is equipped with powder chambers 78 on the downside of the primary cavity 51, and 78 left and right sides of powder chambers connects The logical sieve plate chamber 79 for being equipped with opening relatively and left side is connected to the 7th working chamber, the sieve plate chamber 79 are slidably connected with Sieve plate 80,80 right end of sieve plate are equipped with sliding slot 81, and the sliding slot 81 is slidably connected with sliding block 82, and the sieve plate chamber 79 is right Side connection is equipped with spring cavity 83, and 82 right end of sliding block is installed with the resonance block 84 with the spring cavity 83 sliding connection, Resonance 84 right end of block is installed with the resonant spring 85 that right end is fixedly connected with the 83 right side end wall of spring cavity.

Valuably, it is symmetrical arranged in the third working chamber 28 with 51 inside sub-unit of primary cavity.

Valuably, connection is equipped with feed cavity 86 for opening forward on front side of the primary cavity 51, and 80 front end of sieve plate is fixed There is extension block 87, facilitate and take out the sieve plate 80, complete material will not ground and carry out secondary operation, 78 downside of powder chambers Connection is equipped with feeding chamber 88 for opening forward, and the feeding chamber 88 is slidably connected with powder box 89, ground for holding Raw material.

Described method includes following steps:

Firstly, suitable raw material are added from feed cavity 86, motor 12 is started to work, and motor 12 drives first by transmission shaft 13 Bevel gear 14 rotates, to drive the rotation of the first rotary shaft 18 by third hand tap gear 16, then drives and passes through the 4th bevel gear 19 drive connecting shaft 22 to rotate, and drive the rotation of the 6th bevel gear 24 eventually by the 5th bevel gear 23, the 6th bevel gear 24 passes through Second rotary shaft 26 drives first pulley 27 to rotate, to drive third rotary shaft 30 to rotate by the second belt wheel 29, then leads to It crosses the 7th bevel gear 31 and drives the rotation of the 7th bevel gear 32, drive the rotation of the 9th bevel gear 34 eventually by the 4th rotary shaft 33, 9th bevel gear 34 drives the rotation of the 5th rotary shaft 37 by the tenth bevel gear 35, final to drive the rotation of the first spur gear 38, with This simultaneously, transmission shaft 13 by second bevel gear 15 drive the 11st bevel gear 39 rotation, thus pass through 40 band of the 6th rotary shaft Dynamic 12nd bevel gear 41 rotation, the first cylinder 20 is started to work at this time, and the first cylinder 20 drives the by the first fixing axle 21 Ten third hand tap gears 42 move right, and then the rotation of the tenth third hand tap gear 42 are driven by the 12nd bevel gear 41, eventually by the 14 bevel gears 43 drive screw rod 45 to rotate, and screw rod 45 drives the second fixing axle 47 to move down by slide plate 46, to pass through Round briquetting 49 drives emery disc 50 to move down, and final first spur gear 38 passes through round briquetting 49 and emery disc 50 is driven to rotate,

Secondly, the 15th bevel gear 55 drives the rotation of the 7th rotary shaft 57 by the 16th bevel gear 56, so that drive second is straight Gear 58 and third spur gear 59 rotate, and the second cylinder 61 is started to work, and the second cylinder 61 drives the by third fixing axle 62 Four spur gears 63 move backward, and then 58 the rotation of the 5th spur gear 64 are driven by the 4th spur gear 63, eventually by the 8th rotation Shaft 66 drives third belt wheel 70 to rotate, and third belt wheel 70 drives the rotation of the tenth rotary shaft 72 by the 4th belt wheel 71, thus logical Cross the 7th spur gear 73 drive bottom plate 53 be moved to the left, it is ground after raw material fall on sieve plate 80, the second cylinder 61 start Work, the second cylinder 61 drive the 4th spur gear 63 to move forward by sieve plate 62, and then the second spur gear 59 is straight by the 4th Gear 63 drives the rotation of the 6th spur gear 65, drives the rotation of the 6th belt wheel 75 eventually by the 5th belt wheel 74, the 6th belt wheel 75 is logical It crosses the 11st rotary shaft 76 to rotate with moving cam 77, to drive 80 side-to-side vibrations of sieve plate, the raw material after grinding completely are sieved Choosing is fallen into powder box 89, is taken out sieve plate 80, will not ground complete raw material and grind again.

When being worked by the present apparatus, when needing to carry out grinding work, suitable raw material are added from feed cavity 86, electricity Machine 12 is started to work, and motor 12 drives first bevel gear 14 to rotate by transmission shaft 13, to be driven by third hand tap gear 16 The rotation of first rotary shaft 18, then drives and drives connecting shaft 22 to rotate by the 4th bevel gear 19, eventually by the 5th bevel gear 23 drive the rotation of the 6th bevel gear 24, and the 6th bevel gear 24 drives first pulley 27 to rotate by the second rotary shaft 26, thus logical Crossing the second belt wheel 29 drives third rotary shaft 30 to rotate, and then drives the rotation of the 7th bevel gear 32 by the 7th bevel gear 31, most The rotation of the 9th bevel gear 34 is driven by the 4th rotary shaft 33 eventually, the 9th bevel gear 34 drives the 5th rotation by the tenth bevel gear 35 Shaft 37 rotates, final to drive the rotation of the first spur gear 38, and at the same time, transmission shaft 13 drives the tenth by second bevel gear 15 The rotation of one bevel gear 39, to drive the rotation of the 12nd bevel gear 41 by the 6th rotary shaft 40, the first cylinder 20 starts at this time Work, the first cylinder 20 drive the tenth third hand tap gear 42 to move right by the first fixing axle 21, then pass through the tenth plug tap tooth Wheel 41 drives the rotation of the tenth third hand tap gear 42, drives screw rod 45 to rotate eventually by the 14th bevel gear 43, screw rod 45 passes through cunning Plate 46 drives the second fixing axle 47 to move down, to drive emery disc 50 to move down by round briquetting 49, final first is straight Gear 38 passes through round briquetting 49 and emery disc 50 is driven to rotate, when needing to carry out screening operation and carrying out secondary operation, the 15th Bevel gear 55 drives the rotation of the 7th rotary shaft 57 by the 16th bevel gear 56, to drive the second spur gear 58 and third straight-tooth 59 rotation of wheel, the second cylinder 61 are started to work, and the second cylinder 61 drives the 4th spur gear 63 to move back by third fixing axle 62 It is dynamic, then 58 the rotation of the 5th spur gear 64 is driven by the 4th spur gear 63, drives third band eventually by the 8th rotary shaft 66 70 rotation of wheel, third belt wheel 70 drives the rotation of the tenth rotary shaft 72 by the 4th belt wheel 71, to pass through 73 band of the 7th spur gear Dynamic bottom plate 53 is moved to the left, it is ground after raw material fall on sieve plate 80, the second cylinder 61 is started to work, and the second cylinder 61 is logical Crossing sieve plate 62 drives the 4th spur gear 63 to move forward, and then the second spur gear 59 drives the 6th straight-tooth by the 4th spur gear 63 65 rotation of wheel drives the rotation of the 6th belt wheel 75 eventually by the 5th belt wheel 74, and the 6th belt wheel 75 passes through 76 band of the 11st rotary shaft Moving cam 77 rotates, to drive 80 side-to-side vibrations of sieve plate, the raw material after grinding completely, which are screened, to be fallen into powder box 89, takes Sieve plate 80 out will not grind complete raw material and grind again.

The beneficial effects of the present invention are: the configuration of the present invention is simple, easy to operate, when being worked by the present apparatus, need When carrying out grinding work, suitable raw material are added from feed cavity, motor is started to work, and motor drives the first cone by transmission shaft Gear rotation then drives to drive the rotation of the first rotary shaft by third hand tap gear and drives connection by the 4th bevel gear Axis rotation drives the rotation of the 6th bevel gear eventually by the 5th bevel gear, and the 6th bevel gear drives first by the second rotary shaft Belt wheel rotation then drives the 7th bevel gear by the 7th bevel gear to drive the rotation of third rotary shaft by the second belt wheel Rotation drives the rotation of the 9th bevel gear eventually by the 4th rotary shaft, and the 9th bevel gear drives the 5th rotation by the tenth bevel gear Shaft rotation, final to drive the rotation of the first spur gear, at the same time, transmission shaft drives the 11st bevel gear by second bevel gear Rotation, to drive the rotation of the 12nd bevel gear by the 6th rotary shaft, the first cylinder is started to work at this time, and the first cylinder passes through First fixing axle drives the tenth third hand tap gear to move right, and then drives the rotation of the tenth triconodont wheel by the tenth plug tap gear, Screw rod rotation is driven eventually by the 14th bevel gear, screw rod drives the second fixing axle to move down by slide plate, to pass through Round briquetting drives emery disc to move down, and final first spur gear passes through round briquetting and drives emery disc rotation, when being sieved When selecting work and carrying out secondary operation, the 15th bevel gear drives the rotation of the 7th rotary shaft by the 16th bevel gear, thus band Dynamic second spur gear and the rotation of third spur gear, the second cylinder are started to work, and the second cylinder drives the 4th by third fixing axle Spur gear moves backward, and then drives the rotation of the 5th spur gear by the 4th spur gear, drives the eventually by the 8th rotary shaft The rotation of three belt wheels, third belt wheel drives the rotation of the tenth rotary shaft by the 4th belt wheel, to drive bottom plate by the 7th spur gear Be moved to the left, it is ground after raw material fall on sieve plate, the second cylinder start to work, the second cylinder by sieve plate drive the 4th Spur gear moves forward, and then the second spur gear drives the rotation of the 6th spur gear by the 4th spur gear, eventually by the 5th band Wheel drives the rotation of the 6th belt wheel, and the 6th belt wheel is rotated by the 11st rotary shaft band moving cam, so that sieve plate side-to-side vibrations is driven, Raw material after grinding completely, which are screened, to be fallen into powder box, is taken out sieve plate, will not ground complete raw material and grind again Mill, the present apparatus are capable of the grinding and screening of intelligent automation progress raw material, and operation and the operation for reducing manpower are practical, make to need The proud convenience of grinding work for the raw material being ground, additionally it is possible to the raw material after ground are screened, it then will screening It does not grind complete material out and carries out secondary grinding.

The above description is merely a specific embodiment, but scope of protection of the present invention is not limited thereto, any The change or replacement expected without creative work, should be covered by the protection scope of the present invention.Therefore, of the invention Protection scope should be determined by the scope of protection defined in the claims.

Claims (4)

1. a kind of automation motor-driven mill of the invention and its application method, including apparatus main body, it is set to described device master Intracorporal grinding device and it is set to the intracorporal screening plant of described device master, it is characterised in that: the grinding device includes It is set to intracorporal first working chamber of described device master, is installed with motor, the motor in end wall on the left of first working chamber Output shaft be fixedly connected with the transmission shaft extended to the right, be installed with first bevel gear and second bevel gear on the transmission shaft, The first bevel gear upper end engagement is connected with third hand tap gear, is equipped with the second work on the upside of first working chamber in end wall Make chamber, the third hand tap gear axle center is installed with the first rotary shaft extended into second working chamber, first rotation Axis upper end is installed with the 4th bevel gear, and the 4th bevel gear upper end engagement is connected with the 5th bevel gear, the 5th cone Gear axis is installed with end wall on the left of left end and second working chamber and is rotatably assorted the connecting shaft of connection, the described 5th The engagement of bevel gear upper end is connected with the 6th bevel gear, is equipped with belt wheel chamber on the upside of second working chamber in end wall, and described the Six bevel gear axle center are installed with the second rotary shaft for upwardly extending the connection that is rotatably assorted with end wall on the upside of the belt wheel chamber, and described the Two rotary shaft upper ends are installed with first pulley, and connection is equipped with third working chamber on the right side of the belt wheel chamber, and the first pulley passes through Belt, which is rotatably assorted, is connected with the second belt wheel, and second belt wheel axle center is installed with third rotary shaft, in the third rotary shaft It is installed with the 7th bevel gear, the 7th bevel gear left end engagement is connected with the 8th bevel gear, the 8th bevel gear shaft The heart is installed with end wall on the left of left end and the third working chamber and is rotatably assorted the 4th rotary shaft of connection, in the 4th rotary shaft It is installed with the 9th bevel gear, the 9th bevel gear lower end, which is engaged, is connected with the tenth bevel gear, under the third working chamber Gear cavity is equipped in the wall of side, the tenth bevel gear axle center is installed with to extend downwardly matches with end wall rotation on the downside of the gear cavity The 5th rotary shaft of connection is closed, the first spur gear is installed in the 5th rotary shaft, the second bevel gear upper end engagement is matched Conjunction is connected with the 11st bevel gear, and the 11st bevel gear axle center, which is installed with, extends upwardly into the 6th of second working chamber Rotary shaft, the 6th rotary shaft upper end are installed with the 12nd bevel gear, are installed with the on the right side of second working chamber in end wall One cylinder, the outputting axial power of first cylinder are connected with the first fixing axle, are rotated in first fixing axle by axle sleeve It is connected with after moving right the tenth third hand tap gear for engaging and being cooperatively connected with the 12nd bevel gear left end, the described tenth Upper end engagement is connected with the 14th bevel gear after third hand tap gear moves right, and is equipped in end wall on the upside of second working chamber 4th working chamber, the 14th bevel gear axle center are installed with to upwardly extend and be rotatably assorted with end wall on the upside of the 4th working chamber The screw rod of connection is threadedly engaged the slide plate being connected with the 5th rotary shaft sliding connection, the cunning on the screw rod Plate lower end surface is installed with the second fixing axle, and the fixing axle lower end is installed with circular fixed block, the fixing axle and described solid Determine block be rotatably assorted be connected with move down rear outer wall engaged with first spur gear be cooperatively connected round briquetting, the circle Shape briquetting lower end surface is installed with emery disc, and connection is equipped with primary cavity on the downside of the 4th working chamber, and connection is set on the left of the primary cavity There is base plate chamber, the base plate chamber is slidably connected with the bottom plate that lower end surface is installed with rack gear.

2. a kind of automation motor-driven mill and its application method according to claim, it is characterised in that: the screening Device includes being set to intracorporal 5th working chamber of described device master, and the transmission shaft extends into the 5th working chamber and right End is installed with the 15th bevel gear, and the 15th bevel gear rear end, which is engaged, is connected with the 16th bevel gear, and the described tenth Six bevel gear axle center are installed with front and back end and are rotatably assorted respectively with side wall before and after the 5th working chamber the 7th rotation of connection Axis is installed with the second spur gear and third spur gear in the 7th rotary shaft, and connection is equipped with the on front side of the 5th working chamber Two slide bar chambers are installed with the second cylinder, the outputting axial power connection of second cylinder in end wall on rear side of the 5th working chamber Have and extend forward and telescopic third fixing axle, be rotatably assorted in the third fixing axle by axle sleeve be connected with it is mobile after and The 4th spur gear that second spur gear and third spur gear right end engagement are cooperatively connected, the 4th spur gear move Right end engagement is combined with the 5th spur gear and the 6th spur gear after dynamic, and the 5th spur gear axle center is installed with rear end and described the End wall is rotatably assorted the 8th rotary shaft of connection on rear side of five working chambers, and the 6th spur gear axle center is installed with front end and described the End wall is rotatably assorted the 9th rotary shaft of connection on front side of five working chambers, and connection is equipped with the 6th working chamber on the right side of the 5th working chamber With the 7th working chamber, it is installed with third belt wheel in the 8th rotary shaft, the third belt wheel is rotatably assorted connection by belt There is the 4th belt wheel, the 4th belt wheel axle center is installed with both ends and is rotatably assorted respectively with side wall before and after the 6th working chamber Tenth rotary shaft of connection is installed with upper end in the tenth rotary shaft and engages mating connection with the rack gear of the bottom plate lower end 7th spur gear is installed with the 5th belt wheel in the 9th rotary shaft, and the 5th belt wheel is rotatably assorted by belt to be connected with 6th belt wheel, the 6th belt wheel axle center, which is installed with both ends and is rotatably assorted respectively with side wall before and after the 7th working chamber, to be connect The 11st rotary shaft, cam is symmetrically installed in the 11st rotary shaft, connection is equipped with powder chambers on the downside of the primary cavity, The sieve plate chamber that the powder chambers left and right sides connection is equipped with opening relatively and left side is connected to the 7th working chamber, the sieve plate chamber It is slidably connected with sieve plate, the sieve plate right end is equipped with sliding slot, and the sliding slot is slidably connected with sliding block, the sieve plate chamber Right side connection is equipped with spring cavity, and the sliding block right end is installed with the resonance block with spring cavity sliding connection, described total Vibration block right end is installed with the resonant spring that right end is fixedly connected with end wall on the right side of the spring cavity.

3. a kind of automation motor-driven mill and its application method according to claim, it is characterised in that: the third Sub-unit is symmetrical arranged in working chamber and inside primary cavity.

4. a kind of automation motor-driven mill and its application method according to claim, it is characterised in that: the principal mode Connection is equipped with feed cavity for opening forward on front side of chamber, and the sieve plate front end is installed with extension block, facilitates and take out the sieve plate, will Complete material is not ground and carries out secondary operation, and connection is equipped with feeding chamber for opening forward, the feeding chamber on the downside of the powder chambers It is slidably connected with powder box, for holding ground raw material;Described method includes following steps:

Firstly, suitable raw material are added from feed cavity, motor is started to work, and motor drives first bevel gear to turn by transmission shaft It is dynamic, to drive the rotation of the first rotary shaft by third hand tap gear, then drives and connecting shaft rotation is driven by the 4th bevel gear, The rotation of the 6th bevel gear is driven eventually by the 5th bevel gear, the 6th bevel gear drives first band rotation by the second rotary shaft It is dynamic, to drive the rotation of third rotary shaft by the second belt wheel, the rotation of the 7th bevel gear is then driven by the 7th bevel gear, most The rotation of the 9th bevel gear is driven by the 4th rotary shaft eventually, the 9th bevel gear drives the 5th rotary shaft to turn by the tenth bevel gear Dynamic, final to drive the rotation of the first spur gear, at the same time, transmission shaft drives the 11st bevel gear to rotate by second bevel gear, To drive the rotation of the 12nd bevel gear by the 6th rotary shaft, the first cylinder is started to work at this time, and the first cylinder passes through first Fixing axle drives the tenth third hand tap gear to move right, and then drives the rotation of the tenth triconodont wheel by the tenth plug tap gear, finally Screw rod rotation is driven by the 14th bevel gear, screw rod drives the second fixing axle to move down by slide plate, to pass through circle Briquetting drives emery disc to move down, and final first spur gear passes through round briquetting and drives emery disc rotation,

Secondly, the 15th bevel gear by the 16th bevel gear drive the 7th rotary shaft rotation, thus drive the second spur gear and The rotation of third spur gear, the second cylinder are started to work, and the second cylinder drives the 4th spur gear to move backward by third fixing axle, Then the rotation of the 5th spur gear is driven by the 4th spur gear, drives the rotation of third belt wheel, third eventually by the 8th rotary shaft Belt wheel drives the rotation of the tenth rotary shaft by the 4th belt wheel, thus drive bottom plate to be moved to the left by the 7th spur gear, it is ground Raw material afterwards are fallen on sieve plate, and the second cylinder is started to work, and the second cylinder drives the 4th spur gear to move forward by sieve plate, Then the second spur gear drives the rotation of the 6th spur gear by the 4th spur gear, drives the 6th band to rotate eventually by the 5th belt wheel Dynamic, the 6th belt wheel is rotated by the 11st rotary shaft band moving cam, so that sieve plate side-to-side vibrations is driven, the former material after grinding completely Material, which is screened, to be fallen into powder box, is taken out sieve plate, will not ground complete raw material and grind again.