CN208577093U - Dotter automatic feeding mechanism - Google Patents

Abstract

The utility model discloses a kind of dotter automatic feeding mechanisms, its key points of the technical solution are that including mounting rack, are additionally provided on mounting rack and beat button plane, elevating hopper, and elevating hopper is provided with liter flitch and rises material driving device；It rises flitch and is equipped with slide surface, button side platform rank, button side platform rank and feeding plane surround the sliding slot in the button fallen into of detaining being formed with for for core button, and liter flitch is provided with far from the side of feeding plane can enable the button of core button that can not slide the landing material structure intracavitary into feeding again when falling within button in sliding slot；Elevating hopper is equipped with discharge port, it rises flitch and is provided with discharging structure, discharge outlet is provided with transfer unit, and transfer unit includes the first conveyor track and the second conveyor track of connection, the feed end of first conveyor track is connected to discharge port, and the discharge end of the second conveyor track, which is located at, to be beaten above button plane.The feeding mechanism can overcome the shortcomings that irregular core button of shape effectively can not be arranged and be conveyed.

Description

Dotter automatic feeding mechanism

Technical field

The utility model relates to packing mechanical equipment technical fields, more specifically, it relates to which a kind of dotter is with automatically Feeding mechanism.

Background technique

Dotter (also known as four-part button machine, hydraulic cutting presser, button set-in machine), structure is simple, easy to operate, is mainly used for various metals Button, decorative buckle, jeans button, core binding, be widely used in clothing factory and suitcase, paper bag class processing enterprise.

Currently, the binding of paper bag core is core button to be fixed on paper bag using dotter, for for portable rope across, Core button is generally at T-shaped structure setting, and main body is the perforative tubular in both ends, and one end turns down outward button side, and the other end passes through Button side is also folded into outward under the action of dotter after wearing bag body, to realize the fixation of core button.However due to be used Core button shape it is irregular, it can not effectively be arranged, to cannot achieve conveying, therefore existing dotter uses The mode of placement core button manually, working efficiency is low, considerably increases cost of labor.For this purpose, many manufacturers and it is insighted it Scholar develops and develops, but there has been no comparatively ideal products to emerge so far.

Utility model content

In view of the deficienciess of the prior art, the purpose of this utility model is to provide a kind of dotter automatic feeding machines Structure, the feeding mechanism can overcome the shortcomings that irregular core button of shape effectively can not be arranged and be conveyed.

To achieve the above object, the utility model provides following technical solution: a kind of dotter automatic feeding mechanism, Include mounting rack, is provided on the mounting rack and beats button plane for what is disposed for bag body, be additionally provided on the mounting rack Elevating hopper, the elevating hopper include bottom plate and several coaming plates, and bottom plate and each coaming plate, which surround, to be formed with for accommodating core button Feeding chamber, the feeding chamber includes the feeding plane positioned at the inner sidewall of a coaming plate, and connection is slid in the feeding plane There is the liter flitch for promoting the intracavitary core button of feeding, described liter of flitch is parallel with feeding plane and fitting is arranged, the feeding It is provided on bucket for driving the liter material driving device for rising flitch and sliding up and down along feeding plane；

The upper surface of described liter of flitch is provided with the slide surface for the lateral wall abutting for core button cylindrical body, described Slide surface is provided with the button side platform rank fallen into for the button side for core button close to the side of feeding plane, the button side platform rank with Feeding plane surrounds the sliding slot in the button fallen into of detaining being formed with for for core button, and the groove width size of the button side sliding slot is less than The length dimension of core button, described liter of flitch is provided with far from the side of feeding plane can enable the button side of core button not fall within The landing material structure intracavitary into feeding can be slid again when in button side sliding slot；

The side wall of the elevating hopper is provided with being capable of discharge port corresponding with slide surface, the discharging after a liter flitch moves up Close to the upper surface of elevating hopper, described liter of flitch is provided with for sliding from discharge port along slide surface and button side sliding slot for core button mouth Discharging structure out, the discharge outlet are provided with defeated in dozen button plane for that will be transported to from the core button of discharge port output Send component, the elevating hopper and beat the rear and front end that button plane is located at mounting rack, the transfer unit be located at elevating hopper with It beats between button plane, the transfer unit includes the first conveying that can be reversed the button side end of core button to towards dotter Rail and the button side end of core button can be reversed to the second conveyor track upward, the feed end of first conveyor track with Discharge port connection, the discharge end of first conveyor track are connected to the feed end of the second conveyor track, and second conveyor track goes out Material end, which is located at, to be beaten above button plane, and the core button length direction positioned at the second conveyor track discharge end is vertically arranged with button plane is beaten, The transfer passage cross section of first conveyor track and the second conveyor track is adapted with core button；

First conveyor track is arranged at cylindrical structure, and the transfer passage of first conveyor track is along the first conveyor track The setting of lateral wall spiral, first conveyor track is vertically arranged, and the upper end of first conveyor track is connect with discharge port, positioned at the The button side end of core button in one conveyor track feed end keeps one towards the button side end direction with the core button being located in discharge port It causes, the button side end of the core button in the first conveyor track discharge end is arranged towards dotter, falls into the first conveying through discharge port Core button in rail can be overturn along the transfer passage being set around on the first conveyor track side wall under the effect of gravity；

Second conveyor track include the longitudinal rail being vertically arranged and horizontally disposed transverse rails and it is round and smooth excessively Ground is connected to the connection rail between longitudinal rail and transverse rails, and the upper end of the longitudinal direction rail is connected to the discharge end of the first conveyor track, The button side end direction of core button in the second conveyor track feed end and the core button in the first conveyor track discharge end Button side end is towards being consistent, and the button side end of the core button in the second conveyor track discharge end is arranged upward, through first Conveyor track falls into the core button in the second conveyor track can be under the effect of gravity along the length direction slipping of the second conveyor track In overturn.

The utility model is further arranged to: the thickness of described liter of flitch is greater than the length dimension of core button, described Sliding material structure is the inclination sliding surface on slide surface far from feeding plane side, the length direction and button of the inclination sliding surface The length direction of side sliding slot is consistent, inclination sliding surface size at a distance from a side to feeding plane that slide surface is connected Less than the length dimension of core button.

The utility model is further arranged to: the material structure that slides is to rise length of the thickness less than core button of flitch Spend size.

The utility model is further arranged to: the discharging structure is that slide surface is arranged at incline structure, the slide surface Lower one end is provided with the side of discharge port towards elevating hopper, and the core button on slide surface can be under gravity to out Material mouth rolls.

The utility model is further arranged to: the bottom plate is provided with for rising material for the perforative sliding notch of liter flitch Driving device includes for driving the liter material cylinder for rising flitch sliding, and the liter material cylinder is fixed on elevating hopper, the liter Expect that the piston rod of cylinder is fixedly connected with liter flitch through one end of bottom plate.

The utility model is further arranged to: the bottom plate is arranged at incline structure, and the lower side of bottom plate is close Feeding plane.

In conclusion the utility model has the following beneficial effects: core button first can be poured into feeding chamber when use process It is interior, then slid downwards by liter material cylinder by flitch is risen, until the upper surface for rising flitch is located at feeding bottom of chamber portion, rise the upper of flitch After end face and the intracavitary core button of feeding come into full contact with, liter material cylinder will rise flitch again and slide upwards, and position in this process Core button in liter flitch upper surface is mostly four kinds of states, and one is button side one end of core button towards feeding plane, and two kinds are Button side one end of core button is far from feeding plane, and three kinds are button side one end of core button towards slide surface, and four kinds are core buttons Side one end is detained far from slide surface, since core button is generally at T-shaped, and outer diameter is slightly larger than length dimension, therefore Second and third, in the case of four kinds core button can under the effect of gravity by slide material structure slide again it is intracavitary into feeding, only first Core button in the case of kind can because button when falling into button in sliding slot to liter moving up for flitch due to rise, until rising on flitch The core button of end face is higher than the intracavitary core button pond of feeding, and corresponding with discharge port, enables eventually by discharging structure and is located at liter The core button of flitch upper surface is out of discharge port input transfer unit, wherein the first conveyor track can be by the core button through discharge port The state to the button side end of core button towards dotter is reversed, the second conveyor track can turn the core twist buckle through the first conveyor track To the button side end state upward of core button, and core button is transported to and is beaten at button plane, at this time the path of core button End direction beats button plane and the length direction of core button is vertical with button plane is beaten, convenient for dotter directly to core button in place It carries out playing button operation.Therefore through the above scheme in, feeding mechanism can arrange the irregular core button of shape neatly, then lead to It crosses transfer unit and is transported to core button and beat button plane, and also in correct direction to be used after the conveying in place of core button, Dotter is set to realize that automation becomes possibility using feeding mechanism.

Detailed description of the invention

Fig. 1 is the schematic perspective view of dotter；

Fig. 2 is the schematic perspective view of the dotter other side；

Fig. 3 is the schematic perspective view of transfer unit；

Fig. 4 is the schematic perspective view of elevating hopper；

Fig. 5 is the structural schematic diagram of elevating hopper；

Fig. 6 is the cross-sectional view of elevating hopper；

Fig. 7 is the portion the A enlarged structure schematic diagram in Fig. 6.

Appended drawing reference: 1, mounting rack；11, button plane is beaten；2, transfer unit；21, the first conveyor track；22, the second conveyor track； 221, longitudinal rail；222, transverse rails；223, rail is connected；3, elevating hopper；31, bottom plate；311, notch is slid；32, coaming plate；33, on Expect chamber；331, feeding plane；34, flitch is risen；341, slide surface；342, side platform rank is detained；343, sliding surface is tilted；35, liter material cylinder； 36, side sliding slot is detained；37, discharge port.

Specific embodiment

With reference to the accompanying drawings and examples, the utility model is further described.Wherein identical components phase Same appended drawing reference indicates.It should be noted that word "front", "rear" used in the following description, "left", "right", "upper" and "lower" refers to that the direction in attached drawing, word " bottom surface " and " top surface ", "inner" and "outside" are referred respectively to towards or away from specific The direction at component geometry center.

Referring to Fig.1 shown in -7, a kind of dotter automatic feeding mechanism includes mounting rack 1, is provided on mounting rack 1 Button plane 11 is beaten for what is disposed for bag body, is additionally provided with elevating hopper 3 on mounting rack 1, elevating hopper 3 includes bottom plate 31 and several Coaming plate 32, bottom plate 31 and each coaming plate 32 surround the feeding chamber 33 being formed with for accommodating core button, and feeding chamber 33 includes position It is connected in sliding in the feeding plane 331 of the inner sidewall of a coaming plate 32, feeding plane 331 for promoting core in feeding chamber 33 The liter flitch 34 of button, liter flitch 34 is parallel with feeding plane 331 and fitting is arranged, and is provided on elevating hopper 3 for driving liter material The liter material driving device that plate 34 slides along about 331 feeding plane；

The upper surface for rising flitch 34 is provided with the slide surface 341 abutted for the lateral wall for core button cylindrical body, sliding Shifting face 341 is provided with the button side platform rank 342 fallen into for the button side for core button close to the side of feeding plane 331, detains side platform Rank 342 and feeding plane 331, which are surrounded, to be formed with for detaining the sliding slot 36 in the button fallen into for core button, and the slot of side sliding slot 36 is detained Wide size is less than the length dimension of core button, and liter flitch 34 is provided with far from the side of feeding plane 331 can enable core button Detain the landing material structure that can be slid again in feeding chamber 33 when not falling within button in sliding slot 36；

Wherein feeding plane 331 be preferably perpendicular, enable rise a flitch 34 can also move along the vertical direction, compared to Feeding plane 331 that is interior or being inclined outwardly, liter 34 upper end of flitch can correctly, be smoothly located at by being more advantageous to core button.And It is preferred that slide surface 341 is vertically arranged with feeding plane 331, by the contact surface for increasing core button cylindrical body and slide surface 341 Product plays the sliding degree of stability for improving core button, avoids the core for being correctly positioned at 34 upper end of liter flitch from deducting and fall, and then advantageous In raising loading efficiency.And the edge lengths of buckleing that the depth for detaining side sliding slot 36 is preferably buckled with core are adapted, to be conducive into one Step improves the sliding degree of stability of core button.

The side wall of elevating hopper 3 is provided with being capable of discharge port 37 corresponding with slide surface 341, discharging after liter flitch 34 moves up Mouthfuls 37 close to the upper surface of elevating hopper 3, rise flitch 34 be provided with for for core button along slide surface 341 and button side sliding slot 36 from going out The discharging structure that material mouth 37 skids off is provided with the core button for will export from discharge port 37 at discharge port 37 and is transported to that beat button flat Transfer unit 2 on face 11, elevating hopper 3 are located at the rear and front end detained plane 11 and be located at mounting rack 1, transfer unit 2 is beaten It elevating hopper 3 and beats between button plane 11, transfer unit 2 includes that can reverse the button side end of core button to towards dotter First conveyor track 21 and the button side end of core button can be reversed to the second conveyor track 22 upward, the first conveyor track 21 Feed end be connected to discharge port 37, the discharge end of the first conveyor track 21 is connected to the feed end of the second conveyor track 22, and second is defeated Send the discharge end of rail 22 to be located at and beat button plane 11 top, the core button length direction positioned at 22 discharge end of the second conveyor track with beat button Plane 11 is vertically arranged, and the transfer passage cross section of the first conveyor track 21 and the second conveyor track 22 is adapted with core button.Wherein Dotter is well-known technique, using being commonly designed, can drive beat by cylinder and tunks head and detain in plane 11 to being fixed on to beat The punching operation to core button is completed in flanging die punching press.

When use process, first core button can be poured into feeding chamber 33, then flitch 34 will be risen downwards by liter material cylinder 35 Sliding rises core button in the upper surface and feeding chamber 33 of flitch 34 until the upper surface for rising flitch 34 is located at 33 bottom of feeding chamber After coming into full contact with, liter material cylinder 35 will rise flitch 34 again and slide upwards, and be located at rise 34 upper surface of flitch in this process Core button be mostly four kinds of states, one is button side one end of core button towards feeding plane 331, two kinds be core button button side Far from feeding plane 331, three kinds are button side one end of core button towards slide surface 341 for one end, four kinds be core button button side one It holds far from slide surface 341, since core button is generally at T-shaped, and outer diameter is slightly larger than length dimension, therefore the Two, three, core button can be slid in feeding chamber 33 by sliding material structure again under the effect of gravity in the case of four kind, and only first Core button in the case of kind can because button when falling into button in sliding slot 36 to rising due to moving up with liter flitch 34, until rising material The core button of 34 upper surface of plate is higher than the core button pond in feeding chamber 33, and corresponding with discharge port 37, ties eventually by discharging Structure, which enables, is located at the core button for rising 34 upper surface of flitch out of discharge port 37 input transfer unit 2, wherein the first conveyor track 21 can Core twist buckle through discharge port 37 is gone into the button side end of core button towards the state of dotter, the second conveyor track 22 can will be through The core twist buckle of first conveyor track 21 goes to the state of the button side end of core button upward, and core button is transported to and beats button At plane 11, the miner diameter end direction of core button beats button plane 11 at this time and the length direction of core button hangs down with button plane 11 is beaten Directly, directly core button in place is carried out convenient for dotter playing button operation.Therefore through the above scheme in, feeding mechanism can will The irregular core button of shape arranges neatly, then is transported to core button by transfer unit 2 and beats button plane 11, and core button Also in correct direction to be used after conveying in place, dotter is made to realize that automation becomes possibility using feeding mechanism.This Outside during transportation since the transfer passage cross section of the first conveyor track 21 and the second conveyor track 22 is adapted with core button, because This is disturbed again during capable of effectively being avoided core from being buckled in the interior conveying of transfer passage.

Dotter can realize the core button to 22 discharge end of the second conveyor track by the crawl movement or support of manipulator It carries out playing button operation, structure improvement can also be carried out by the discharge end to the second conveyor track 22, to realize beating for dotter Button operation, can also be postponed the button bit to be beaten that core button falls on paper bag by the second conveyor track 22, then pass through mobile paper bag Mode plays button operation to the realization of core button by dotter, therefore so that dotter is realized that automation becomes by adding feeding mechanism It may.

First conveyor track 21 is arranged at cylindrical structure, and the transfer passage of the first conveyor track 21 is along the outer of the first conveyor track 21 The setting of side wall spiral, the first conveyor track 21 are vertically arranged, and the upper end of the first conveyor track 21 is connect with discharge port 37, and it is defeated to be located at first The button side end of the core button in 21 feed end of rail is sent to keep one towards the button side end direction with the core button being located in discharge port 37 It causes, the button side end of the core button in 21 discharge end of the first conveyor track is arranged towards dotter, falls into first through discharge port 37 Core button in conveyor track 21 can be turned over along the transfer passage being set around on 21 side wall of the first conveyor track under the effect of gravity Turn.When the button of button the side end direction and the core button being located in 21 discharge end of the first conveyor track of the core button being located in discharge port 37 Side end towards it is angled when, the transfer passage of the first conveyor track 21 is arranged along the lateral wall spiral of the first conveyor track 21, and And the spiral angle of the transfer passage is formed by angle with the button side end direction of two positions and is adapted；And when positioned at discharge port The button side end of core button in 37 towards the button side end with the core button being located in 21 discharge end of the first conveyor track towards it is consistent when, The transfer passage of first conveyor track 21 along the first conveyor track 21 lateral wall at being vertically arranged, therefore the first conveyor track 21 can be used Side end is detained towards dotter in going to the core twist buckle of discharge port 37.

Second conveyor track 22 includes the longitudinal rail 221 being vertically arranged and horizontally disposed transverse rails 222 and round and smooth The connection rail 223 being exceedingly connected between longitudinal rail 221 and transverse rails 222, the upper end of longitudinal rail 221 and the first conveyor track 21 Discharge end connection, the button side end of core button in 22 feed end of the second conveyor track towards be located at the first conveyor track 21 and go out The button side end direction of core button in material end is consistent, the button side end court of the core button in 22 discharge end of the second conveyor track It is arranged upwards, falling into the core button in the second conveyor track 22 through the first conveyor track 21 can be under the effect of gravity along the second conveying It is overturn in the length direction slipping of rail 22.It can wherein enable the length of longitudinal rail 221 and connection rail 223 longer and lateral The length of rail 222 is shorter, this is because transverse rails 222 are horizontal vertical, the core button movement in transverse rails 222 is by longitudinal rail 221 and connection rail 223 in core button push under gravity；Finally enable the button side end of core button upward.

Entire transfer unit 2 can enable under gravity core button be reversed, slid, clever structure and easily reality It applies, without adding any power part, greatly reduces implementation cost.

Through the above scheme, it can be realized elevating hopper 3 and beat the rear and front end that button plane 11 is located at mounting rack 1, the One conveyor track 21 and the second conveyor track 22 are between dotter and elevating hopper 3, the spiral of the transfer passage of the first conveyor track 21 Angle is 90 °, and the core through discharge port 37 can be buckled in the button side end of core button towards reversing in the state of 1 side of mounting rack To core button button side end towards dotter state；The program makes a staff carry out beating button behaviour in the front end of mounting rack 1 It, can be in the case where not influencing front staff from the rear end of mounting rack 1 to elevating hopper 3 convenient for another staff when making Core button is inside poured into, is conducive to ensure left and right working space when front end staff plays button operation.In addition, the program is also advantageous In the width dimensions for reducing mounting rack 1, convenient for by the way that multiple dotter, feedings mounting rack 1 and be arranged on mounting rack 1 are arranged Struggle against 3 when, enable the dotter on multiple mounting racks 1 can simultaneously to bag body realize many places beat button operation, and then be conducive to raising work Make efficiency.

The thickness for rising flitch 34 is greater than the length dimension of core button, and it is remote on slide surface 341 for sliding material structure The length direction of inclination sliding surface 343 from 331 side of feeding plane, the length direction and button side sliding slot 36 that tilt sliding surface 343 is protected It holds unanimously, inclination sliding surface 343 size at a distance from a side to feeding plane 331 that slide surface 341 is connected is less than core button Length dimension.It is above-mentioned during liter material cylinder 35 drives liter flitch 34 to slide upwards out of core button pond in feeding chamber 33 Second and third, the core button in the case of four kinds can slides again along inclination sliding surface 343 into feeding chamber 33 under gravity It is interior.

Sliding material structure is length dimension of the thickness less than core button for rising flitch 34.Liter material cylinder 35, which drives, rises material During plate 34 slides upwards out of core button pond in feeding chamber 33, it is above-mentioned second and third, the core button meeting in the case of four kinds Because its center of gravity is outer to slide in feeding chamber 33 again in slide surface 341.

Therefore the above two embodiment for sliding material structure can be realized core button it is non-it is above-mentioned in the case of the first when It slides, and the button of core button in sliding slot 36, enables core button by detaining when buckling into sliding slot 36 when that can fall into button And be not easy to fall, to be conducive to improve degree of stability when core is buckled in liter 34 upper end of flitch.Further, since liter material cylinder 35 It will drive liter flitch 34 up and down reciprocatingly to slide, therefore even if the upper end for thering is core button to fall in liter flitch 34 with incorrect state When, it can also glide in liter material cylinder 35 by flitch 34 is risen, until the core button in feeding chamber 33 is submerged in the upper surface for rising flitch 34 In pond, so as to realize that position adjusts in such a way that other core buttons squeeze it.

Discharging structure is that slide surface 341 is arranged at incline structure, and the lower one end of slide surface 341 is arranged towards elevating hopper 3 There is the side of discharge port 37, the core button on slide surface 341 can be rolled to discharge port 37 under gravity.Slide surface 341 tilt down setting with button side sliding slot 36, during liter material cylinder 35 drives liter flitch 34 to move up, the correct core in position Button can slide downwards under gravity, until liter material cylinder 35 will move to slide surface 341 and discharge port 37 on liter flitch 34 When maintaining an equal level, core button can be skidded off from discharge port 37.The structure is simply easily implemented, and processing cost and use cost are advantageously reduced. Although slide surface 341 and button side sliding slot 36 can also be enabled at being horizontally disposed with, discharging structure is past polyslip above elevating hopper 3 Plectrum, the glide direction of the plectrum be detain side sliding slot 36 length direction, although equally can be realized 34 upper end of liter flitch Core button push into discharge port 37, but need to add with the program and drive the driving device of plectrum sliding and sliding for plectrum The sliding rail for moving connection, to increase implementation cost.

Bottom plate 31 is provided with for for the perforative sliding notch 311 of liter flitch 34, rising material driving device to include for driving The dynamic liter material cylinder 35 for rising flitch 34 and sliding, liter material cylinder 35 are fixed on elevating hopper 3, and the piston rod and liter of liter material cylinder 35 are expected Plate 34 is fixedly connected through one end of bottom plate 31.Rising flitch 34 can slide up and down under the drive of liter material cylinder 35, and on It states structure simply easily to implement, advantageously reduces implementation cost.

Bottom plate 31 is arranged at incline structure, and the lower side of bottom plate 31 can pass through bottom close to feeding plane 331, the structure Plate 31 converges the core button in feeding chamber 33 to 331 side of feeding plane, makes also fall in a liter flitch when core button is less On 34.

Above are merely preferred embodiments of the utility model, the protection scope of the utility model is not limited merely to above-mentioned Embodiment, technical solution belonging to the idea of the present invention belong to the protection scope of the utility model.It should be pointed out that pair For those skilled in the art, several improvements and modifications without departing from the principle of the utility model, These improvements and modifications also should be regarded as the protection scope of the utility model.

Claims (6)

1. a kind of dotter automatic feeding mechanism includes mounting rack (1), it is provided on the mounting rack (1) for for bag Button plane (11) is beaten in body placement, it is characterized in that: elevating hopper (3) are additionally provided on the mounting rack (1), the elevating hopper (3) It include bottom plate (31) and several coaming plates (32), bottom plate (31) and each coaming plate (32), which are surrounded, to be formed with for accommodating core button Feeding chamber (33), the feeding chamber (33) include the feeding plane (331) positioned at the inner sidewall of a coaming plate (32), the feeding Sliding is connected with liter flitch (34) for promoting the interior core button of feeding chamber (33) in plane (331), described liter of flitch (34) with Feeding plane (331) is parallel and fitting is arranged, and is provided on the elevating hopper (3) and rises flitch (34) along feeding plane for driving (331) the liter material driving device slid up and down；

The upper surface of described liter of flitch (34) is provided with the slide surface for the lateral wall abutting for core button cylindrical body (341), the slide surface (341) is provided with the button fallen into for the button side for core button close to the side of feeding plane (331) Side platform rank (342), button side platform rank (342) surrounds to be formed with feeding plane (331) to be fallen into for the button side for core button Button side sliding slot (36), the groove width size of button side sliding slot (36) is less than the length dimension buckled of core, described liter of flitch (34) Side far from feeding plane (331), which is provided with, can enable the button of core button can be again when sliding slot (36) is interior when not falling within button Slide the landing material structure in feeding chamber (33)；

The side wall of the elevating hopper (3), which is provided with, to move up rear discharge port corresponding with slide surface (341) in a liter flitch (34) (37), close to the upper surface of elevating hopper (3), described liter of flitch (34) is provided with for sliding for core button edge the discharge port (37) Shifting face (341) and button side sliding slot (36) discharging structure for skidding off from discharge port (37) are provided at the discharge port (37) and are used for It will be transported to the transfer unit (2) beaten on button plane (11) from the core button that discharge port (37) exports, the elevating hopper (3) and beat Button plane (11) is located at the rear and front end of mounting rack (1), and the transfer unit (2) is located at elevating hopper (3) and beats button plane (11) between, the transfer unit (2) includes the first conveying that can be reversed the button side end of core button to towards dotter Rail (21) and the button side end of core button can be reversed to the second conveyor track (22) upward, first conveyor track (21) feed end is connected to discharge port (37), the charging of the discharge end and the second conveyor track (22) of first conveyor track (21) End connection, the discharge end of second conveyor track (22), which is located at, to be beaten above button plane (11), is located at the second conveyor track (22) and is discharged The core button length direction at end is vertically arranged with button plane (11) is beaten, first conveyor track (21) and the second conveyor track (22) Transfer passage cross section is adapted with core button；

First conveyor track (21) is arranged at cylindrical structure, and the transfer passage of first conveyor track (21) is along the first conveying The lateral wall spiral of rail (21) is arranged, and first conveyor track (21) is vertically arranged, the upper end of first conveyor track (21) with Discharge port (37) connection, be located at the button side end of the core button in the first conveyor track (21) feed end towards be located at discharge port (37) The button side end of interior core button is located at the button side end direction of the core button in the first conveyor track (21) discharge end towards being consistent Dotter setting, the core button fallen into the first conveyor track (21) through discharge port (37) can be under the effect of gravity along being set around the Transfer passage on one conveyor track (21) side wall is overturn；

Second conveyor track (22) include the longitudinal rail (221) being vertically arranged and horizontally disposed transverse rails (222), with And the round and smooth connection rail (223) being exceedingly connected between longitudinal rail (221) and transverse rails (222), the longitudinal direction rail (221) Upper end is connected to the discharge end of the first conveyor track (21), is located at the button side end court of the core button in the second conveyor track (22) feed end To the button side end with the core button being located in the first conveyor track (21) discharge end towards being consistent, it is located at the second conveyor track (22) The button side end of core button in discharge end is arranged upward, falls into the gas in the second conveyor track (22) through the first conveyor track (21) Eye button can be overturn along the length direction slipping of the second conveyor track (22) under the effect of gravity.

2. dotter automatic feeding mechanism according to claim 1, it is characterized in that: the thickness gauge of described liter of flitch (34) The very little length dimension greater than core button, the landing material structure are on slide surface (341) far from feeding plane (331) side Inclination sliding surface (343), it is described inclination sliding surface (343) length direction with detain side sliding slot (36) length direction be consistent, Inclination sliding surface (343) size at a distance from a side to feeding plane (331) that slide surface (341) are connected is less than core button Length dimension.

3. dotter automatic feeding mechanism according to claim 1, it is characterized in that: landing material structure is to rise flitch (34) thickness is less than the length dimension of core button.

4. dotter automatic feeding mechanism described in any one of -3 according to claim 1, it is characterized in that: the discharging is tied Structure is that slide surface (341) are arranged at incline structure, and the lower one end of the slide surface (341) is provided with out towards elevating hopper (3) The side of material mouth (37), the core button on slide surface (341) can be rolled to discharge port (37) under gravity.

5. dotter automatic feeding mechanism described in any one of -3 according to claim 1, it is characterized in that: the bottom plate (31) it is provided with for for the perforative sliding notch (311) of a liter flitch (34), rising material driving device to include to rise material for driving The liter material cylinder (35) of plate (34) sliding, the liter material cylinder (35) are fixed on elevating hopper (3), the liter material cylinder (35) Piston rod is fixedly connected with liter flitch (34) through the one end of bottom plate (31).

6. dotter automatic feeding mechanism according to claim 5, it is characterized in that: the bottom plate (31) is at incline structure Setting, the lower side of the bottom plate (31) is close to feeding plane (331).