CN109051900A - A kind of paddle wheel feeder and its manufacturing method - Google Patents

Abstract

The invention discloses a kind of paddle wheel feeder and its manufacturing methods, this method institute use device includes apparatus main body, it is set to the intracorporal paper feed of described device master and is set to the intracorporal supplementary device of described device master, the first rotation chamber is provided in described device main body, first rotation is intracavitary to be rotatably provided with the first power wheel, first power wheel front end is provided with the first rotating bar, and the first sliding cavity of opening backward is provided in first rotating bar；In routine office work, some paper feeding devices are all applied in many printers, existing paper feeding device will generally be clamped and be realized with two functions of paper feeding by Liang Ge mechanism, and paper using it is complete in the case where need manually to supplement, it be easy to cause machinery damage, the present invention is directed to design one kind can automatic paper feeding, and once only provide a piece of paper, while having the function of being automatically replenished a kind of paddle wheel feeder and its manufacturing method of paper.

Description

A kind of paddle wheel feeder and its manufacturing method

Technical field

The present invention relates to technical field of office stationery, specifically a kind of paddle wheel feeder and its manufacturing method.

Background technique

In routine office work, some paper feeding devices are all applied in many printers, existing paper feeding device generally will folder Tightly realized with two functions of paper feeding by Liang Ge mechanism, and paper using it is complete in the case where need manually to supplement, Be easy to cause machinery damage, thus design one kind can automatic paper feeding, and once only provide a piece of paper, while there is automatic benefit Fill the function of paper a kind of paddle wheel feeder and its manufacturing method it is really necessary to.

Summary of the invention

Technical problem to be solved by the invention is to provide a kind of paddle wheel feeder and its manufacturing methods, can Solve the problems in above-mentioned present technology.

The present invention is achieved through the following technical solutions: a kind of paddle wheel feeder of the invention and its manufacture Method, this method institute use device includes apparatus main body, is set to the intracorporal paper feed of described device master and is set to institute The supplementary device in apparatus main body is stated, the first rotation chamber is provided in described device main body, first rotation is intracavitary rotatable Be provided with the first power wheel, first power wheel front end is provided with the first rotating bar, is provided in first rotating bar The first sliding cavity of opening backward, first power wheel front end are fixedly connected with extension and are passed through to first sliding cavity First fixed link, what is be connected in inner wall on the downside of the first rotation chamber is provided with the second rotation chamber, under first rotating bar End, which is connected by a hinge, to be had and can rotate inner wall at left and right sides of chamber in the arc-shaped gear block of the intracavitary rotation of second rotation, described second It is interior symmetrical and what is be connected is provided with the second sliding cavity, second rotation is intracavitary horizontally slip be provided with extension be passed through to The first rack gear in second sliding cavity, first rack gear are meshed cooperation with the arc-shaped gear block, second sliding Chamber is symmetrical in two sides inner walls up and down and what is be connected is provided with the first limiting slot, and the second sliding cavity upper and lower ends are fixed respectively It is connected with extension to be passed through to the first limited block in first limiting slot, be connected in inner wall on the downside of the second rotation chamber It is provided with third sliding cavity, first rack gear lower end is fixedly connected with the first fixed block, and first lower end of fixing block is fixed It is connected with the first operation block, the third rotation chamber of opening backward is provided in first operation block, the third rotation is intracavitary It is rotatably provided with lower end and extends the first screw rod outside third rotation chamber, first screw lower end passes through screw thread company It is connected to the second operation block, the first gear of intracavitary rotation, institute can be rotated in the third by being fixedly connected on first screw rod It states and is fixedly connected with torque spring on the upside of first gear between end face and third rotation chamber upper inside walls, the third sliding The second rack gear of the cooperation that can be meshed with the first gear is fixedly connected on rear side of chamber on inner wall, is set in second operation block The 4th rotation chamber for being equipped with that Open Side Down, be connected on the downside of the 4th rotation chamber in inner wall be provided with opening to the left put paper Chamber, first operation block left end are fixedly connected with the second fixed block, and second lower end of fixing block, which is provided with, extends through institute State in third sliding cavity and extend to be passed through to described and put the first intracavitary induction briquetting of paper, on the downside of second fixed block end face with The first spring is fixedly connected on the upside of the first induction briquetting between end face, the 4th rotation is intracavitary to be rotatably provided with Lower end, which extends to be passed through to described, puts the intracavitary rotation work block of paper, and opening is distributed with outwardly in annular array on the rotation work block Short slot, be rotatably provided with the second rotating bar in the short slot, on the wall at rotation work block axle center with institute It states and is fixedly connected with second spring between end face on the downside of the second rotating bar, be arranged with flexible bullet on the rotation work block Property friction sleeve, second gear is fixedly connected with by shaft at the axle center of rotation work block rear end, below second rack gear It is provided with and is fixedly connected on rear side of the third sliding cavity on inner wall and the third tooth for the cooperation that can be meshed with the second gear Item.

What is be connected in the downside inner wall for putting paper chamber right side inner wall as a preferred technical solution, is provided with cunning Chamber, what is be connected on the downside of the sliding chamber in inner wall is provided with the transport chamber of opening to the right, is provided with electronic biography in the transport chamber Device is sent, what is be connected in inner wall on rear side of the transport chamber is provided with the 5th rotation chamber, and the electronic conveyer rear end is fixedly connected There is extension to be passed through the first rotating shaft intracavitary to the 5th rotation, being fixedly connected in the first rotating shaft can be at described 5th turn The first bevel gear of intracavitary rotation is moved, the described 5th rotates the 6th rotation chamber that is provided with being connected in chamber upper inside walls, described First bevel gear rear end is provided with meshed second bevel gear, and the second bevel gear upper end is fixedly connected at axle center Extend and be passed through second shaft intracavitary to the 6th rotation, being fixedly connected in second shaft can be in the 6th rotation The third hand tap gear of intracavitary rotation, the third hand tap gear left end are provided with the 4th meshed bevel gear, and the described 6th What is be connected in rotation chamber inner left wall is provided with the 7th rotation chamber, is fixedly connected with and prolongs at the axle center of the 4th bevel gear left end It stretches and is passed through the third shaft intracavitary to the 7th rotation, being fixedly connected in the third shaft can be in the 7th rotation chamber 5th bevel gear of interior rotation, the 7th rotation chamber front inner wall are connected with the first rotation chamber, the 5th cone tooth Wheel front end is provided with the 6th meshed bevel gear, is fixedly connected with extension at the axle center of the 6th bevel gear front end and is passed through The 4th intracavitary shaft is rotated to described first, is mutually fixed at the 4th shaft front end and first power wheel rear end axle center Connection.

As a preferred technical solution, the supplementary device include be connected be set to described put on the downside of paper chamber in inner wall Eight revolution move chamber, the eight revolution is moved and is fixedly installed stand-by motor, stand-by motor upper end power in inner wall on the downside of chamber It is connected with to extend to be passed through to the eight revolution and moves the 5th intracavitary shaft, being fixedly connected in the 5th shaft can be in institute The first turntable that eight revolution moves intracavitary rotation is stated, end face is symmetrical on the upside of first turntable is fixedly connected with the first fixation Bar, be fixedly connected in first fixed link can it is described put the intracavitary rotation of paper put cardboard.

It is fixedly connected on the upside end face for putting cardboard of described stand-by motor one end as a preferred technical solution, Sensor.

Inclined-plane is provided on the upside end face for putting cardboard front end as a preferred technical solution,.

The specific steps of this method are:

Firstly, user of service, which overlays paper one, puts cardboard upper end, and it is by the first induction briquetting that folder is tight, start first at this time Power wheel, and then the 4th shaft and the rotation of the 6th bevel gear are driven, and then by between the 6th bevel gear and the 5th bevel gear Engagement drive the 5th bevel gear, third shaft and the 6th rotation chamber rotation, and then pass through the 6th rotation chamber and third Engagement between bevel gear drives third hand tap gear, the second shaft and second bevel gear rotation, and then passes through the second cone Engagement between gear and first bevel gear drives first bevel gear and first rotating shaft rotation, and then makes electronic conveyer It is in running order, while driving the first rotating bar to be rotated in the first sliding cavity by the first power wheel, and then drive First rotating bar and arc-shaped gear block are swung to the right, drive the by engagement between arc-shaped gear block and the first rack gear at this time One rack gear and the first fixed block are moved to the right the second rotation is intracavitary, so drive the first operation block, the second operation block with And second fixed block move to the right, when second gear and third rack gear are first in the position of engagement, pass through second gear at this time Engagement between second gear drives second gear and rotation work block to rotate forward, and passes through when rotation work block rotates forward Centrifugal force supports the second rotating bar outward, and then is softened elastic-friction set to a certain degree, so that the rotation of elastic-friction set is simultaneously It is contacted with the paper for being placed on the top, is moved to paper in sliding intracavitary rear slide-in transport chamber, and transport by electronic conveyer；

Secondly, passing through engaging between the second rack gear and first gear when first gear and the second rack gear are in meshing state Effect drives first gear and the rotation of the first screw rod, and then the second operation block is moved up, make elastic-friction set not with paper Contact, the first induction briquetting only plays clamping action at this time, when restoring to during original state, passes through first gear and the Engagement between two rack gears declines the second operation block again, when second gear is meshed with third rack gear at this time, so that The reversion of rotation work block, the second rotating bar does not pass through centrifugal action and supports outward at this time, and elastic-friction set is not softened, so that being placed on The paper of the top will not be pushed away by counter；

Finally, after the paper for putting cardboard upper end is finished, the first induction briquetting is in contact with sensor at this time, at this time starting auxiliary electricity Machine, and then drive the 5th shaft, the first turntable, the first fixed link and put cardboard rotation, so that another piece places paper It puts cardboard and turns to operating position, complete supplement.

The beneficial effects of the present invention are: the configuration of the present invention is simple, easy to operate, when carrying out automatic paper feeding by the present apparatus, Paper one is overlayed and puts cardboard upper end by user of service, by the first induction briquetting that folder is tight, starts the first power wheel at this time, into And the 4th shaft and the rotation of the 6th bevel gear are driven, and then pass through the engagement between the 6th bevel gear and the 5th bevel gear The 5th bevel gear, third shaft and the 6th rotation chamber rotation are driven, and then by between the 6th rotation chamber and third hand tap gear Engagement drive third hand tap gear, the second shaft and second bevel gear rotation, and then pass through second bevel gear and first Engagement between bevel gear drives first bevel gear and first rotating shaft rotation, and then electronic conveyer is made to be in work shape State, while driving the first rotating bar to be rotated in the first sliding cavity by the first power wheel, and then drive the first rotating bar And arc-shaped gear block is swung to the right, at this time by engagement between arc-shaped gear block and the first rack gear drive the first rack gear and First fixed block is moved to the right the second rotation is intracavitary, and then drives the first operation block, the second operation block and second fixed Block moves to the right, when second gear is first in the position of engagement with third rack gear, passes through second gear and second gear at this time Between engagement drive second gear and rotation work block to rotate forward, when rotation work block is rotated forward by centrifugal force by the Two rotating bars support outward, and then are softened elastic-friction set to a certain degree so that elastic-friction set rotation and it is most upper with being placed on The paper at end contacts, make paper be moved to it is sliding it is intracavitary after slide into transport chamber, and transported by electronic conveyer, when first gear and the When two rack gears are in meshing state, first gear and first is driven by the engagement between the second rack gear and first gear Screw rod rotation, and then the second operation block is moved up, contact elastic-friction set with paper, first incudes briquetting only at this time Clamping action is played, when restoring to during original state, by the engagement between first gear and the second rack gear by the Two operation blocks decline again, when second gear is meshed with third rack gear at this time, so that rotation work block inverts, second turn at this time Lever does not pass through centrifugal action and supports outward, and elastic-friction set is not softened, so that being placed on the paper of the top will not be pushed away by counter, when putting After the paper of cardboard upper end is finished, the first induction briquetting is in contact with sensor at this time, starts stand-by motor at this time, and then drive the Five shafts, the first turntable, the first fixed link and put cardboard rotation so that another block of cardboard of putting for placing paper turns to work Make position, complete supplement, automatic paper feeding function can be realized by the present apparatus, and once only provide a piece of paper, while having certainly The function of dynamic supplement paper, does not need to supplement paper manually, saves worry laborsaving, be worth being recommended to use.

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 a kind of paddle wheel feeder of the invention and its manufacturing method；

Fig. 2 is the enlarged diagram of " A " in Fig. 1；

Fig. 3 is the schematic diagram of " B-B " in Fig. 1；

Fig. 4 is the schematic diagram of " C-C " in Fig. 1；

Fig. 5 is the schematic diagram of " D-D " in Fig. 1；

Fig. 6 is " rotation work block " schematic diagram of internal structure.

Specific embodiment

As shown in figs 1 to 6, a kind of paddle wheel feeder of the invention and its manufacturing method, this method use dress It sets the paper feed being set in described device main body 10 including apparatus main body 10 and is set in described device main body 10 Supplementary device is provided with the first rotation chamber 11 in described device main body 10, is rotatably provided in the first rotation chamber 11 First power wheel 12,12 front end of the first power wheel are provided with the first rotating bar 13, are provided in first rotating bar 13 The first sliding cavity 14 of opening backward, 12 front end of the first power wheel is fixedly connected with extension and is passed through to first sliding cavity The first fixed link 15 in 14, described first rotates the second rotation chamber 16 that is provided with being connected in 11 downside inner wall of chamber, described First rotating bar, 13 lower end be connected by a hinge can in the second rotation chamber 16 arc-shaped gear block 17 that rotate, described second It is symmetrical and what is be connected is provided with the second sliding cavity 18 in rotation 16 left and right sides inner wall of chamber, it can be left in the second rotation chamber 16 The extension that is provided with of right sliding is passed through to the first rack gear 19 in second sliding cavity 18, first rack gear 19 and the arc Shape tooth block 17 is meshed cooperation, symmetrical in about the 18 two sides inner wall of the second sliding cavity and what is be connected is provided with the first limit Slot 20,18 upper and lower ends of the second sliding cavity are respectively fixedly connected with extension and are passed through to first in first limiting slot 20 Limited block 21, it is described second rotation 16 downside inner wall of chamber in be connected be provided with third sliding cavity 22, first rack gear 19 Lower end is fixedly connected with the first fixed block 23, and 23 lower end of the first fixed block is fixedly connected with the first operation block 24, and described It is provided with the third rotation chamber 25 of opening backward in one operation block 24, is rotatably provided with lower end in the third rotation chamber 25 Extend the first screw rod 26 outside the third rotation chamber 25,26 lower end of the first screw rod has been connected through a screw thread the second work Block 27, the first gear 28 that rotate in chamber 25 can be rotated in the third by being fixedly connected on first screw rod 26, and described the It is fixedly connected with torque spring 29 between one gear, 28 upside end face and third rotation 25 upper inside walls of chamber, the third is sliding The second rack gear 30 of the cooperation that can be meshed with the first gear 28, second work are fixedly connected on dynamic 22 rear side inner wall of chamber Make to be provided with the 4th rotation chamber 34 that Open Side Down in block 27, what is be connected in the 4th rotation 34 downside inner wall of chamber is provided with Opening to the left put paper chamber 35,24 left end of the first operation block is fixedly connected with the second fixed block 31, second fixed block 31 lower ends are provided with to extend through in the third sliding cavity 22 and extend and be passed through to the first induction pressure put in paper chamber 35 Block 32 is fixedly connected with the first bullet between second fixed block, the 31 downside end face and first induction, 32 upside end face of briquetting Spring 33, it is described 4th rotation chamber 34 in be rotatably provided with lower end extend be passed through to the rotation work block put in paper chamber 35 36, the short slot 37 of opening outwardly is distributed in annular array on the rotation work block 36, is rotatably arranged in the short slot 37 There is the second rotating bar 38, on the wall at 36 axle center of rotation work block between the 38 downside end face of the second rotating bar It is fixedly connected with second spring 39, flexible elastic-friction set 40, the rotation are arranged on the rotation work block 36 Second gear 41 is fixedly connected with by shaft at 36 rear end axle center of operation block, is provided with fixed company below second rack gear 30 It is connected on the 22 rear side inner wall of third sliding cavity and the third rack gear 42 for the cooperation that can be meshed with the second gear 41.

Valuably, the sliding chamber 43 that is provided with being connected in the downside inner wall of 35 right side inner wall of paper chamber is put described in, it is described What is be connected in sliding 43 downside inner wall of chamber is provided with the transport chamber 44 of opening to the right, is provided with electronic transmission in the transport chamber 44 Device 45, what is be connected in the 44 rear side inner wall of transport chamber is provided with the 5th rotation chamber 46, and electronic 45 rear end of conveyer is solid Surely it is connected with the first rotating shaft 47 for extending and being passed through in the 5th rotation chamber 46, being fixedly connected in the first rotating shaft 47 can The first bevel gear 48 rotated in the 5th rotation chamber 46, the described 5th rotates the setting being connected in 46 upper inside walls of chamber There is the 6th rotation chamber 49,48 rear end of first bevel gear is provided with meshed second bevel gear 50, second cone Be fixedly connected at 50 upper end axle center of gear extend be passed through to it is described 6th rotation chamber 49 in the second shaft 51, described second turn The third hand tap gear 52 that can be rotated in the 6th rotation chamber 49,52 left end of third hand tap gear are fixedly connected on axis 51 It is provided with the 4th meshed bevel gear 53, what is be connected in the 6th rotation 49 inner left wall of chamber is provided with the 7th turn Chamber 54 is moved, the third for extending and being passed through in the 7th rotation chamber 54 is fixedly connected at the 53 left end axle center of the 4th bevel gear Shaft 55 is fixedly connected with the 5th bevel gear 56 that can be rotated in the 7th rotation chamber 54, institute in the third shaft 55 It states the 7th rotation 54 front inner wall of chamber to be connected with the first rotation chamber 11,56 front end of the 5th bevel gear is provided with and it The 6th bevel gear 57 being meshed is fixedly connected with extension at the 57 front end axle center of the 6th bevel gear and is passed through to described first turn The 4th shaft 58 in dynamic chamber 11,58 front end of the 4th shaft connect with mutually fixed at the 12 rear end axle center of the first power wheel It connects.

Valuably, the supplementary device includes that the eight revolution put in 35 downside inner wall of paper chamber that is set to being connected is moved Chamber 59, the eight revolution are moved in 59 downside inner wall of chamber and are fixedly installed stand-by motor 60, and the 60 upper end power of stand-by motor is matched The 5th shaft 61 for being connected with and extending and being passed through to the eight revolution and move in chamber 59 is closed, being fixedly connected in the 5th shaft 61 can The first turntable 62 rotated in chamber 59 is moved in the eight revolution, the 62 upside end face of the first turntable is symmetrical to be fixedly connected Have the first fixed link 63, be fixedly connected in first fixed link 63 can it is described put rotated in paper chamber 35 put cardboard 64.

Valuably, sensor is fixedly connected on the upside end face for putting cardboard 64 of described 60 one end of stand-by motor 65。

Valuably, inclined-plane is provided on the upside end face for putting 64 front end of cardboard.

The specific steps of this method are:

Firstly, user of service, which overlays paper one, puts 64 upper end of cardboard, and it is by the first induction briquetting 32 that folder is tight, start at this time First power wheel 12, and then the 4th shaft 58 and the rotation of the 6th bevel gear 57 are driven, and then pass through the 6th bevel gear 57 and the Engagement between five bevel gears 56 drives the 5th bevel gear 56, third shaft 55 and the 6th rotation chamber 49 to rotate, in turn Third hand tap gear 52, the second shaft 51 and the are driven by the engagement between the 6th rotation chamber 49 and third hand tap gear 52 The rotation of two bevel gears 50, and then first bevel gear is driven by the engagement between second bevel gear 50 and first bevel gear 48 48 and first rotating shaft 47 rotate, and then keep electronic conveyer 45 in running order, while driving by the first power wheel 12 First rotating bar 13 is rotated in the first sliding cavity 14, and then the first rotating bar 13 and arc-shaped gear block 17 is driven to put to the right It is dynamic, the first rack gear 19 and the first fixed block 23 are driven by the engagement between arc-shaped gear block 17 and the first rack gear 19 at this time It is moved to the right in the second rotation chamber 16, and then drives the first operation block 24, the second operation block 27 and the second fixed block 31 It moves to the right, when second gear 41 is first in the position of engagement with third rack gear 42, passes through second gear 41 and second at this time Engagement between gear 41 drives second gear 41 and rotation work block 36 to rotate forward, logical when rotation work block 36 rotates forward Centrifugal force is crossed by the second support outward of rotating bar 38, and then is softened elastic-friction set 40 to a certain degree, so that elastic-friction set 40 rotate and contact with the paper for being placed on the top, slide into transport chamber 44 after being moved to paper in sliding chamber 43, and pass through electronic biography Device 45 is sent to transport；

Secondly, when first gear 28 and the second rack gear 30 are in meshing state, by the second rack gear 30 and first gear 28 it Between engagement drive first gear 28 and the rotation of the first screw rod 26, and then the second operation block 27 is moved up, makes bullet Property friction sleeve 40 do not contacted with paper, the first induction briquetting 32 only plays clamping action at this time, when restoring to original state process In, second operation block 27 is declined again by the engagement between first gear 28 and the second rack gear 30, at this time the second tooth When wheel 41 is meshed with third rack gear 42, so that rotation work block 36 inverts, the second rotating bar 38 does not pass through centrifugal action at this time Support outward, elastic-friction set 40 is not softened, so that being placed on the paper of the top will not be pushed away by counter；

Finally, after the paper for putting 64 upper end of cardboard is finished, the first induction briquetting 32 is in contact with sensor 65 at this time, starts at this time Stand-by motor 60, and then drive the 5th shaft 61, the first turntable 62, the first fixed link 63 and put the rotation of cardboard 64, so that separately One block of cardboard 64 of putting for placing paper turns to operating position, completes supplement.

When original state, the first rotating bar 13 turns to the leftmost side in the first rotation chamber 11, at this time the first rotating bar 13 Arc-shaped gear block 17 is driven to turn to the leftmost side in the second rotation chamber 16, at this time by between arc-shaped gear block 17 and the first rack gear 19 Engagement drive the first rack gear 19 move to the left, drive the first fixed block 23 and the first operation block 24 at this time to the left Mobile, first gear 28 and the second rack gear 30 are in not meshing state at this time, while second gear 41 is also located with third rack gear 42 In not meshing state, the second operation block 27 is moved to lower limit position at this time.

When carrying out automatic paper feeding by the present apparatus, user of service, which overlays paper one, puts 64 upper end of cardboard, passes through the first sense It answers briquetting 32 that folder is tight, starts the first power wheel 12 at this time, and then drive the 4th shaft 58 and the rotation of the 6th bevel gear 57, And then by engagement between the 6th bevel gear 57 and the 5th bevel gear 56 drive the 5th bevel gear 56, third shaft 55 with And the 6th rotation chamber 49 rotate, and then by the 6th rotation chamber 49 and third hand tap gear 52 between engagement drive third cone Gear 52, the second shaft 51 and second bevel gear 50 rotate, and then by between second bevel gear 50 and first bevel gear 48 Engagement drive first bevel gear 48 and first rotating shaft 47 to rotate, and then keep electronic conveyer 45 in running order, It drives the first rotating bar 13 to be rotated in the first sliding cavity 14 by the first power wheel 12 simultaneously, and then drives the first rotation Bar 13 and arc-shaped gear block 17 are swung to the right, drive the by engagement between arc-shaped gear block 17 and the first rack gear 19 at this time One rack gear 19 and the first fixed block 23 move to the right in the second rotation chamber 16, and then drive the first operation block 24, second Operation block 27 and the second fixed block 31 move to the right, when second gear 41 is first in the position of engagement with third rack gear 42, Second gear 41 and rotation work block 36 are being driven just by the engagement between second gear 41 and second gear 41 at this time Turn, when rotation work block 36 is rotated forward by centrifugal force by the second support outward of rotating bar 38, and then supports elastic-friction set 40 It opens to a certain degree, so that elastic-friction set 40 is rotated and is contacted with the paper for being placed on the top, it is sliding after being moved to paper in sliding chamber 43 Enter in transport chamber 44, and is transported by electronic conveyer 45, it is logical when first gear 28 and the second rack gear 30 are in meshing state The engagement crossed between the second rack gear 30 and first gear 28 drives first gear 28 and the rotation of the first screw rod 26, and then will Second operation block 27 moves up, and contacts elastic-friction set 40 with paper, and the first induction briquetting 32 only plays clamping at this time Effect, when restoring to during original state, by the engagement between first gear 28 and the second rack gear 30 by the second work Make block 27 to decline again, when second gear 41 is meshed with third rack gear 42 at this time, so that rotation work block 36 inverts, at this time the Two rotating bars 38 are not supportted outward by centrifugal action, and elastic-friction set 40 is not softened, so that the paper for being placed on the top will not be by Counter to push away, after the paper for putting 64 upper end of cardboard is finished, the first induction briquetting 32 is in contact with sensor 65 at this time, at this time starting auxiliary Motor 60, and then drive the 5th shaft 61, the first turntable 62, the first fixed link 63 and put the rotation of cardboard 64, so that another piece The cardboard 64 of putting for placing paper turns to operating position, completes supplement.

The beneficial effects of the present invention are: the configuration of the present invention is simple, easy to operate, when carrying out automatic paper feeding by the present apparatus, Paper one is overlayed and puts cardboard upper end by user of service, by the first induction briquetting that folder is tight, starts the first power wheel at this time, into And the 4th shaft and the rotation of the 6th bevel gear are driven, and then pass through the engagement between the 6th bevel gear and the 5th bevel gear The 5th bevel gear, third shaft and the 6th rotation chamber rotation are driven, and then by between the 6th rotation chamber and third hand tap gear Engagement drive third hand tap gear, the second shaft and second bevel gear rotation, and then pass through second bevel gear and first Engagement between bevel gear drives first bevel gear and first rotating shaft rotation, and then electronic conveyer is made to be in work shape State, while driving the first rotating bar to be rotated in the first sliding cavity by the first power wheel, and then drive the first rotating bar And arc-shaped gear block is swung to the right, at this time by engagement between arc-shaped gear block and the first rack gear drive the first rack gear and First fixed block is moved to the right the second rotation is intracavitary, and then drives the first operation block, the second operation block and second fixed Block moves to the right, when second gear is first in the position of engagement with third rack gear, passes through second gear and second gear at this time Between engagement drive second gear and rotation work block to rotate forward, when rotation work block is rotated forward by centrifugal force by the Two rotating bars support outward, and then are softened elastic-friction set to a certain degree so that elastic-friction set rotation and it is most upper with being placed on The paper at end contacts, make paper be moved to it is sliding it is intracavitary after slide into transport chamber, and transported by electronic conveyer, when first gear and the When two rack gears are in meshing state, first gear and first is driven by the engagement between the second rack gear and first gear Screw rod rotation, and then the second operation block is moved up, contact elastic-friction set with paper, first incudes briquetting only at this time Clamping action is played, when restoring to during original state, by the engagement between first gear and the second rack gear by the Two operation blocks decline again, when second gear is meshed with third rack gear at this time, so that rotation work block inverts, second turn at this time Lever does not pass through centrifugal action and supports outward, and elastic-friction set is not softened, so that being placed on the paper of the top will not be pushed away by counter, when putting After the paper of cardboard upper end is finished, the first induction briquetting is in contact with sensor at this time, starts stand-by motor at this time, and then drive the Five shafts, the first turntable, the first fixed link and put cardboard rotation so that another block of cardboard of putting for placing paper turns to work Make position, complete supplement, automatic paper feeding function can be realized by the present apparatus, and once only provide a piece of paper, while having certainly The function of dynamic supplement paper, does not need to supplement paper manually, saves worry laborsaving, be worth being recommended to use.

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 (5)

1. a kind of paddle wheel feeder and its manufacturing method, this method institute use device includes apparatus main body, it is set to institute It states the paper feed in apparatus main body and is set to the intracorporal supplementary device of described device master, be provided in described device main body First rotation chamber, first rotation is intracavitary to be rotatably provided with the first power wheel, and first power wheel front end is provided with First rotating bar is provided with the first sliding cavity of opening backward in first rotating bar, and first power wheel front end is fixed It is connected with extension to be passed through to the first fixed link in first sliding cavity, be connected in inner wall on the downside of the first rotation chamber It is provided with the second rotation chamber, first rotating bar lower end, which is connected by a hinge, the arc that can rotate intracavitary rotation described second Shape tooth block, it is symmetrical in inner wall at left and right sides of the second rotation chamber and what is be connected is provided with the second sliding cavity, described second turn The intracavitary extension that is provided with to horizontally slip is moved to be passed through to the first rack gear in second sliding cavity, first rack gear and institute It states arc-shaped gear block to be meshed cooperation, second sliding cavity is symmetrical in the inner wall of two sides up and down and what is be connected is provided with the first limit Slot, the second sliding cavity upper and lower ends are respectively fixedly connected with extension and are passed through to the first limit in first limiting slot Block, what is be connected in inner wall on the downside of the second rotation chamber is provided with third sliding cavity, and first rack gear lower end is fixedly connected There is the first fixed block, first lower end of fixing block is fixedly connected with the first operation block, is provided with out in first operation block The third of mouth backward rotates chamber, and the third rotates the intracavitary lower end that is rotatably provided with and extends outside the third rotation chamber First screw rod, first screw lower end have been connected through a screw thread the second operation block, and being fixedly connected on first screw rod can The first gear of intracavitary rotation is rotated in the third, end face and the third rotate chamber upper inside walls on the upside of the first gear Between be fixedly connected with torque spring, be fixedly connected with and can mutually be nibbled with the first gear on inner wall on rear side of the third sliding cavity The second rack gear of cooperation is closed, the 4th rotation chamber that Open Side Down is provided in second operation block, the described 4th rotates under chamber Be connected in the inner wall of side be provided with opening to the left put paper chamber, it is fixed that first operation block left end is fixedly connected with second Block, second lower end of fixing block, which is provided with to extend through in the third sliding cavity and extend, is passed through to described that put paper intracavitary First induction briquetting is fixedly connected with the on the downside of second fixed block between end face on the upside of end face and the first induction briquetting One spring, the 4th rotation is intracavitary to be rotatably provided with lower end and extends and be passed through to described and put the intracavitary rotation work block of paper, The short slot of opening outwardly is distributed in annular array on the rotation work block, is rotatably provided with the second rotation in the short slot Bar is fixedly connected with the second bullet between end face on the downside of second rotating bar on the wall at rotation work block axle center Spring, is arranged with flexible elastic-friction set on the rotation work block, by turning at the axle center of rotation work block rear end Axis is fixedly connected with second gear, is provided with and is fixedly connected on rear side of the third sliding cavity on inner wall below second rack gear And the third rack gear for the cooperation that can be meshed with the second gear.

2. according to a kind of paddle wheel feeder described in claim 1 and its manufacturing method, it is characterised in that: put close to described What is be connected in the downside inner wall of inner wall on the right side of paper chamber is provided with sliding chamber, and what is be connected in inner wall on the downside of the sliding chamber is provided with out Mouth transport chamber to the right is provided with electronic conveyer, the setting being connected in inner wall on rear side of the transport chamber in the transport chamber There is the 5th rotation chamber, the electronic conveyer rear end, which is fixedly connected with to extend to be passed through to the described 5th, rotates intracavitary first turn Axis, being fixedly connected in the first rotating shaft can be in the first bevel gear of the intracavitary rotation of the 5th rotation, the 5th rotation What is be connected in chamber upper inside walls is provided with the 6th rotation chamber, and the first bevel gear rear end is provided with meshed second Bevel gear, is fixedly connected at the axle center of the second bevel gear upper end to extend and is passed through to intracavitary second turn of the 6th rotation Axis, being fixedly connected in second shaft can be in the third hand tap gear of the intracavitary rotation of the 6th rotation, the triconodont Wheel left end is provided with the 4th meshed bevel gear, and what is be connected in the 6th rotation chamber inner left wall is provided with the 7th Chamber is rotated, extension is fixedly connected at the axle center of the 4th bevel gear left end and is passed through the third turn intracavitary to the 7th rotation Axis, being fixedly connected in the third shaft can be in the 5th bevel gear of the intracavitary rotation of the 7th rotation, the 7th rotation Chamber front inner wall is connected with the first rotation chamber, and the 5th bevel gear front end is provided with the 6th meshed cone tooth It takes turns, extension is fixedly connected at the axle center of the 6th bevel gear front end and is passed through fourth shaft intracavitary to first rotation, institute It states and is mutually fixedly connected at the 4th shaft front end and first power wheel rear end axle center.

3. a kind of paddle wheel feeder according to claim 1 and its manufacturing method, it is characterised in that: the supplement Device includes that the eight revolution put on the downside of paper chamber in inner wall that is set to being connected moves chamber, and the eight revolution moves inner wall on the downside of chamber Inside be fixedly installed stand-by motor, stand-by motor upper end power be connected with extension be passed through to the eight revolution move it is intracavitary The 5th shaft, the first turntable of intracavitary rotation can be moved in the eight revolution by being fixedly connected in the 5th shaft, described End face is symmetrical on the upside of one turntable is fixedly connected with the first fixed link, and being fixedly connected in first fixed link can be in institute State put the intracavitary rotation of paper put cardboard.

4. a kind of paddle wheel feeder according to claim 1 and its manufacturing method, it is characterised in that: close to described Sensor is fixedly connected on the upside end face for putting cardboard of stand-by motor one end.

5. a kind of paddle wheel feeder according to claim 1 and its manufacturing method, it is characterised in that: close to described It puts and is provided with inclined-plane on the upside end face of cardboard front end;The specific steps of this method are:

Firstly, user of service, which overlays paper one, puts cardboard upper end, and it is by the first induction briquetting that folder is tight, start first at this time Power wheel, and then the 4th shaft and the rotation of the 6th bevel gear are driven, and then by between the 6th bevel gear and the 5th bevel gear Engagement drive the 5th bevel gear, third shaft and the 6th rotation chamber rotation, and then pass through the 6th rotation chamber and third Engagement between bevel gear drives third hand tap gear, the second shaft and second bevel gear rotation, and then passes through the second cone Engagement between gear and first bevel gear drives first bevel gear and first rotating shaft rotation, and then makes electronic conveyer It is in running order, while driving the first rotating bar to be rotated in the first sliding cavity by the first power wheel, and then drive First rotating bar and arc-shaped gear block are swung to the right, drive the by engagement between arc-shaped gear block and the first rack gear at this time One rack gear and the first fixed block are moved to the right the second rotation is intracavitary, so drive the first operation block, the second operation block with And second fixed block move to the right, when second gear and third rack gear are first in the position of engagement, pass through second gear at this time Engagement between second gear drives second gear and rotation work block to rotate forward, and passes through when rotation work block rotates forward Centrifugal force supports the second rotating bar outward, and then is softened elastic-friction set to a certain degree, so that the rotation of elastic-friction set is simultaneously It is contacted with the paper for being placed on the top, is moved to paper in sliding intracavitary rear slide-in transport chamber, and transport by electronic conveyer；

Secondly, passing through engaging between the second rack gear and first gear when first gear and the second rack gear are in meshing state Effect drives first gear and the rotation of the first screw rod, and then the second operation block is moved up, make elastic-friction set not with paper Contact, the first induction briquetting only plays clamping action at this time, when restoring to during original state, passes through first gear and the Engagement between two rack gears declines the second operation block again, when second gear is meshed with third rack gear at this time, so that The reversion of rotation work block, the second rotating bar does not pass through centrifugal action and supports outward at this time, and elastic-friction set is not softened, so that being placed on The paper of the top will not be pushed away by counter；

Finally, after the paper for putting cardboard upper end is finished, the first induction briquetting is in contact with sensor at this time, at this time starting auxiliary electricity Machine, and then drive the 5th shaft, the first turntable, the first fixed link and put cardboard rotation, so that another piece places paper It puts cardboard and turns to operating position, complete supplement.