CN209113050U - A kind of flat-rolled machine feeding mechanism - Google Patents

Abstract

The utility model relates to a kind of flat-rolled machine feeding mechanisms, are related to the technical field of cardboard manufacture.Technical points are: including flat rolling mill body and printing machine ontology, feed inlet is provided on flat rolling mill body, the side of printing machine ontology is provided with discharge port, it is characterized by: discharge outlet is provided with rewinding component, loading assemblies are provided at feed inlet, transfer assembly is connected between rewinding component and loading assemblies, transfer assembly is set as the conveyer belt of a plurality of laid out in parallel, and two adjacent conveying interbands are provided with gap.The utility model has the effect of by realizing that flat-rolled machine automatic charging improves production efficiency.

Description

A kind of flat-rolled machine feeding mechanism

Technical field

The utility model relates to the technical fields of cardboard manufacture, more particularly, to a kind of flat-rolled machine feeding mechanism.

Background technique

Corrugated board is the common raw material of paper packaging box, it has light weight compared with wooden cabinet, is easy to cut out, and Has the advantages that certain buffer function, general corrugated paper is by being processed into the corrugated paper of waveform and being adhered to following table on corrugated paper The facial tissue in face and inner paper are constituted.

Publication No. discloses one kind for the application documents of CN108202507A and is used for the foldable formed bellows machine of corrugated case, Include: rack body: being used to support each unit；Supply unit: including by same motor-driven upper belt subelement and hypodermis Band subelement, cardboard to be folded are placed on subelement between upper belt subelement and lower belt；It is primary to fold unit: including with The fold that folding line is overlapped the compression bar for pushing down cardboard to be folded and pushes cardboard to turn down 90 ° along the crease for turning down frame Frame；Secondary folding unit: including continuing 90 ° of fold for the cardboard at an angle of 90 that is formed will to be folded by once folding unit Turnover board.When operation, when material reach fixed bit postpone, compression bar is tightly pressed against on indentation line, fold frame from horizontal position to Upper 90 ° of fold, to turning down cardboard to 90 °；Then compression bar unclamps, hypodermis tape starting, by cardboard paper feeding secondary folding list Member, continuing to fold makes cardboard become double-layer overlapping.

Prior art among the above be when having the following deficiencies: feeding by the way of artificial loading, by material from The discharge port of a upper procedure is carried at flat-rolled machine inlet, causes operating personnel's workload big, and operating efficiency is lower to ask Topic.

Utility model content

The purpose of the utility model is to provide a kind of flat-rolled machine feeding mechanisms, and having realizes flat-rolled machine in automation Material, improves the effect of working efficiency.

The above-mentioned purpose of the utility model has the technical scheme that

A kind of flat-rolled machine feeding mechanism, including flat rolling mill body and printing machine ontology are provided on the flat rolling mill body Feed inlet, the side of the printing machine ontology are provided with discharge port, and the discharge outlet is provided with rewinding component, the feed inlet Place is provided with loading assemblies, and transfer assembly is connected between the rewinding component and loading assemblies, and the transfer assembly is set as The conveyer belt of a plurality of laid out in parallel, and two adjacent conveying interbands are provided with gap.

By using above-mentioned technical proposal, when operation, material is fallen on rewinding component by the discharge port output of printing machine, It is fallen on conveyer belt after material is stacked to certain quantity from rewinding component, then loading assemblies is transported to by conveyer belt, then It is transported to flat-rolled machine inlet by loading assemblies, the utility model passes through setting rewinding component, transfer assembly and loading assemblies It realizes the automatic charging of flat-rolled machine, reduces human resources investment, when due to using manual work, operating personnel needs every time Carry a pile material, weight of material is larger, and long-term operation is unfavorable for the health of operating personnel, and manual operation efficiency compared with It is low, operating efficiency is effectively increased by automated job, sets conveyer belt for transfer assembly, the transportational process of conveyer belt compared with To be steady, and conveyor belt surface be belt, will not the papery face to material damage.

The utility model is further arranged to: the rewinding component includes the first rack for being set to discharge outlet, described Sliding rail is provided in first rack, sliding is connected with sliding block, glide direction and the conveying of the sliding block along sliding rail on the sliding rail The conveying direction of band is vertical, and the splicing plate of L-type is connected on sliding block, and the splicing plate is provided with far from the side of printing machine ontology Block for preventing material from falling is provided with the first power device, first power device on first housing top wall On be connected with can the drive rod that moves up and down of vertical direction, connecting rod is hinged on the drive rod, the connecting rod and sliding block rotate Connection.

By using above-mentioned technical proposal, material is fallen into after discharge port output on splicing plate, until block is blocked, When accumulation of material is to certain amount, the first power device is by driving drive rod to move up and down to drive link motion, even Splicing plate is driven to move along sliding rail when bar moves, when two splicing plates move to opening state, material falls to transmission group On part, by setting splicing component material collection is transmitted again after one whole pile, be convenient in subsequent processing by feed device Disposably material is pushed at flat-rolled machine inlet.

The utility model is further arranged to: the loading assemblies include the second rack, setting above second rack There is a driver plate, the second rack bottom wall is provided with the second power device for driving driver plate to move up and down, on the driver plate Multiple supporting plates are provided with, each supporting plate roof is provided with the raising plate for jacking material, conveyer belt and raising plate interval Setting, and the gap width between conveyor belt is greater than the width of supporting plate and raising plate, second rack is far from flat-rolled machine Side be provided with the pushing material component for being pushed into material at flat rolling mill body feed inlet.

By using above-mentioned technical proposal, when material is delivered at feeding material component, the second power device drive supporting plate to Upper movement drives raising plate to jack material to feed inlet, then is pushed away material by pushing material component while supporting plate moves upwards Enter in feed inlet, the automatic charging of flat-rolled machine is realized by setting feeding material component, production efficiency is effectively increased, due to material body Product is larger, can prevent material from deforming during jacking by the way that multiple supporting plates are arranged.

The utility model is further arranged to: being located at raising plate in second rack and is set close to the side of flat rolling mill body It is equipped with striker plate, the height of the striker plate is lower than the maximum height that the raising plate can be raised to.

By using above-mentioned technical proposal, it is located at raising plate on the conveyor belt close to the side of flat rolling mill body and backgauge is set Plate can prevent material from falling from conveyer belt end.

The utility model is further arranged to: the pushing material component includes the linear mould group for being set to second rack one end, The linear mould group includes the pedestal being set in the second rack, the silk that motor is provided on the pedestal and is connected to motor Bar, sliding is provided with slide unit on screw rod, and the rack other end is provided with guide rail, is connected with push plate between the slide unit and guide rail.

By using above-mentioned technical proposal, when material is jacked to feed inlet, when motor drives screw mandrel rotates, slide unit It can be slid along screw rod, the push plate being fixedly connected at this time with slide unit can be slided along guide rail and material is pushed into feed inlet, pass through Automation pusher is set by pushing material component, realizes production automation.

The utility model is further arranged to: the raising plate is provided with diagonally downward far from the side of flat rolling mill body Stock guide.

By using above-mentioned technical proposal, in the guide of side setting of the raising plate far from flat rolling mill body diagonally downward Since the width of material is greater than the width of conveyer belt, so the both sides of material can have reclinate possibility, guide is arranged in plate Plate can be such that material is more smoothly delivered on top plate, prevent material from blocking.

The utility model is further arranged to: the driver plate bottom wall is provided with multiple slidings and is connected in the first rack Guide rod.

By using above-mentioned technical proposal, multiple guiding for sliding and being connected in the first rack are set in driver plate bottom wall Bar tilts during can preventing drive rod from moving upwards to side.

The utility model is further arranged to: the linear axis for guide rod sliding connection is provided in second rack It holds.

By using above-mentioned technical proposal, the linear bearing for guide rod sliding connection is provided in the second rack, it can To reduce friction when guide rod slides up and down between the second rack, keep the sliding of guide rod more smooth.

In conclusion the advantageous effects of the utility model are as follows:

1. the material-uploading style of flat-rolled machine is changed to automatic charging by artificial loading by being arranged, reduce the throwing of human resources Enter, and improves production efficiency；

2. setting material to the push mode of a whole pile, reduce the pusher number of pushing material component, due to each pusher It is required to certain activity duration, so being changed to disposable pusher has saved the time, improves production efficiency；

3. being tilted during can preventing raising plate from moving upwards by setting guide rod to side.

Detailed description of the invention

Fig. 1 is the overall structure diagram of the utility model.

Fig. 2 is the structural schematic diagram of the loading assemblies of the utility model.

Fig. 3 is the partial enlargement diagram of part A in Fig. 1.

Fig. 4 is the partial enlargement diagram of part B in Fig. 2.

In figure, 1, flat rolling mill body；11, feed inlet；2, printing machine ontology；21, discharge port；3, rewinding component；31, first Rack；32, sliding rail；33, splicing plate；35, drive rod；36, connecting rod；331, block；34, the first power device；4, loading assemblies； 41, the second rack；42, driver plate；43, guide rod；44, linear bearing；45, the second power device；46, supporting plate；47, it jacks Plate；471, stock guide；48, striker plate；49, pushing material component；491, pedestal；492, motor；493, screw rod；494, guide rail；495, Push plate；496, slide unit；5, transfer assembly.

Specific embodiment

The utility model is described in further detail below in conjunction with attached drawing.

It referring to Figures 1 and 2, is a kind of flat-rolled machine feeding mechanism disclosed by the utility model, including flat rolling mill body 1 and print Brush machine ontology 2 is provided with feed inlet 11 on flat rolling mill body 1, and the side of printing machine ontology 2 is provided with discharge port 21, discharge port It is provided with rewinding component 3 at 21, loading assemblies 4 are provided at feed inlet 11, are connected between rewinding component 3 and loading assemblies 4 Transfer assembly 5, transfer assembly 5 is set as the conveyer belt of a plurality of laid out in parallel, and two adjacent conveying interbands are provided with gap, The width in gap should be less than the minimum widith of product produced, and two conveyer belts drive Synchronous Transmission, and two by same motor The upper surface of conveyer belt is concordant, and conveyer belt is set two by the present embodiment.

Referring to Figure 1 and Figure 3, rewinding component 3 includes the first rack 31 being set at discharge port 21, is set in the first rack 31 It is equipped with sliding rail 32, sliding is connected with sliding block (not shown), glide direction and conveyer belt of the sliding block along sliding rail 32 on sliding rail 32 Conveying direction it is vertical, be connected with the splicing plate 33 of L-type on sliding block, sliding rail 32 and sliding block are set upper silver by the present embodiment HGH guide track series, sliding rail 32 are installed in the first rack 31, and sliding block is fixedly connected with splicing plate 33, and splicing plate 33 can be along cunning Rail 32 smoothly slides, and the width that splicing plate 33 is used to receive the bottom plate of material needs to be arranged according to product produced, with object Material middle part will not be to subject to lower recess, and the present embodiment does not do specific numbers illustrated, splicing plate 33 far from printing machine ontology 2 one Side is provided with the block 331 for preventing material from falling, and the first power device 34, this implementation are provided on 31 roof of the first rack The first power device 34 is set hydraulic cylinder by example, and being connected in the first power device 34 can the transmission that moves up and down of vertical direction Bar 35 is hinged with connecting rod 36 on drive rod 35, and connecting rod 36 and sliding block are rotatablely connected, and the upper of splicing plate 33 is located in the first rack 31 Side is provided with counter (not shown), and controller (not shown) is provided in the first rack 31, controller difference It is connect with counter and the first power device 34.

Referring to Fig. 2, loading assemblies 4 include the second rack 41, are provided with driver plate 42,42 bottom of driver plate in the second rack 41 Wall be provided with it is multiple slide the guide rods 43 that are connected in the first rack 31, guide rod 43 is set four by the present embodiment, and Four corners of 42 bottom wall of driver plate are located at, the linear axis for the sliding connection of guide rod 43 is provided in the second rack 41 Hold 44,41 bottom wall of the second rack is provided with the second power device 45 for driving driver plate 42 to move up and down, and the present embodiment is by second Power device 45 is set as hydraulic cylinder, and multiple supporting plates 46 are provided on driver plate 42, and each 46 roof of supporting plate is provided with for pushing up The raising plate 47 of material is risen, conveyer belt and the interval of raising plate 47 are arranged, and the gap width between conveyor belt is greater than supporting plate 46 With the width of raising plate 47, raising plate 47 is located in the second rack 41 close to the side of flat rolling mill body 1 and is provided with striker plate 48, The height of striker plate 48 is lower than the maximum height that raising plate 47 can be raised to, and side of second rack 41 far from flat rolling mill body 1 It is provided with the stock guide 471 of opening obliquely, raising plate 47 is provided with far from the side of flat rolling mill body 1 for material to be pushed into Pushing material component 49 at flat 1 feed inlet 11 of rolling mill body.

Pushing material component 49 includes the linear mould group for being set to 41 one end of the second rack, and linear mould group includes being set to the second machine Pedestal 491 on frame 41 is provided with motor 492 and the screw rod connecting with motor 492 493 on pedestal 491, slides on screw rod 493 It is provided with slide unit 496, the rack other end is provided with guide rail 494, and push plate 495, guide rail 494 are connected between slide unit 496 and guide rail 494 Upper sliding is provided with sliding block, and sliding block is connect with push plate 495, and the present embodiment sets the rich automation difficult to understand in Shenzhen for linear mould group and sets The BO-126 single shaft mould group series of standby Co., Ltd, when operation, the motor 492 in mould group drives screw rod 493 to rotate, screw rod 493 It is slid again with the slide unit 496 in dynamic model group, drives push plate 495 to slide while slide unit 496 slides, be provided in the second rack 41 For incuding the optoelectronic switch (not shown) of material, optoelectronic switch is connect with controller, controller and the second power device 45 connections.

The implementation principle of the present embodiment are as follows: when operation, material drops down onto splicing plate 33 by the discharge port 21 of printing machine ontology 2 On, when material reaches certain quantity, signal is passed to controller by counter, and controller output makes the first power device 34 The signal of setting in motion, while the first power device 34 is that hydraulic cylinder receives Driven by Hydraulic Cylinder piston rod after signal and moves downward It drives drive rod 35 to move downward, drives connecting rod 36 to move while drive rod 35 moves downward, connecting rod 36 pushes splicing plate 33 It is moved along sliding rail 32 to the both sides being away from each other, material, can fall on conveyer belt at this time, and after material is fallen, piston rod is upward It drives splicing plate 33 to move along sliding rail 32 to opposite direction while movement, gleanings can be continued after moving to original position Signal when being sent to loading assemblies 4 by conveyer belt, after optoelectronic switch senses material, is passed to controller by material, controller to Conveyer belt conveying stops the signal of transmission, and after conveyer belt stops transmission, the second power device 45 is that hydraulic cylinder drives driver plate 42 It moves upwards, while raising plate 47 being driven to jack material to not less than at feed inlet 11, then third power device drives Push plate 495 moves along guide rail 494 and material is pushed into feed inlet 11, and automation feeding can be completed.

The embodiment of present embodiment is the preferred embodiment of the utility model, and not limitation is originally practical new according to this The protection scope of type, therefore: the equivalence changes that all structures, shape, principle according to the utility model are done should all be covered by practical Within novel protection scope.

Claims (8)

1. a kind of flat-rolled machine feeding mechanism, including flat rolling mill body (1) and printing machine ontology (2), on the flat rolling mill body (1) It is provided with feed inlet (11), the side of the printing machine ontology (2) is provided with discharge port (21), it is characterised in that: the discharging Be provided with rewinding component (3) at mouthful (21), be provided with loading assemblies (4) at the feed inlet (11), the rewinding component (3) and It being connected between loading assemblies (4) transfer assembly (5), the transfer assembly (5) is set as the conveyer belt of a plurality of laid out in parallel, and Two adjacent conveying interbands are provided with gap.

2. a kind of flat-rolled machine feeding mechanism according to claim 1, it is characterised in that: the rewinding component (3) includes setting The first rack (31) being placed at discharge port (21) is provided with sliding rail (32) on first rack (31), the sliding rail (32) Upper sliding is connected with sliding block, and sliding block is vertical with the conveying direction of conveyer belt along the glide direction of sliding rail (32), and L is connected on sliding block The splicing plate (33) of type, the splicing plate (33) are provided with far from the side of printing machine ontology (2) for preventing material from falling Block (331) is provided with the first power device (34) on the first rack (31) roof, on first power device (34) Be connected with can the drive rod (35) that moves up and down of vertical direction, be hinged with connecting rod (36), the connecting rod on the drive rod (35) (36) it is rotatablely connected with sliding block.

3. a kind of flat-rolled machine feeding mechanism according to claim 1, it is characterised in that: the loading assemblies (4) include the Two racks (41), the second rack (41) top are provided with driver plate (42), and the second rack (41) bottom wall is provided with band The second power device (45) that driver plate (42) move up and down is moved, is provided with multiple supporting plates (46) on the driver plate (42), often One supporting plate (46) roof is provided with the raising plate (47) for jacking material, and conveyer belt and raising plate (47) interval are arranged, And the gap width between conveyor belt is greater than the width of supporting plate (46) and raising plate (47), second rack (41) is separate The side of flat-rolled machine is provided with the pushing material component (49) for being pushed into material at flat rolling mill body (1) feed inlet (11).

4. a kind of flat-rolled machine feeding mechanism according to claim 3, it is characterised in that: be located on second rack (41) Raising plate (47) is provided with striker plate (48) close to the side of flat rolling mill body (1), and the height of the striker plate (48) is lower than institute State the maximum height that raising plate (47) can be raised to.

5. a kind of flat-rolled machine feeding mechanism according to claim 4, it is characterised in that: the pushing material component (49) includes setting It is placed in the linear mould group of the second rack (41) one end, the linear mould group includes the pedestal being set on the second rack (41) (491), the screw rod (493) for being provided with motor (492) on the pedestal (491) and being connect with motor (492), on screw rod (493) Sliding is provided with slide unit (496), and the second rack (41) other end is provided with guide rail (494), the slide unit (496) and guide rail (494) push plate (495) are connected between.

6. a kind of flat-rolled machine feeding mechanism according to claim 4, it is characterised in that: the raising plate (47) is far from flat-rolled The side of machine ontology (1) is provided with stock guide (471) diagonally downward.

7. a kind of flat-rolled machine feeding mechanism according to claim 4, it is characterised in that: driver plate (42) the bottom wall setting There are multiple guide rods (43) for sliding and being connected on the first rack (31).

8. a kind of flat-rolled machine feeding mechanism according to claim 4, it is characterised in that: be arranged on second rack (41) There is the linear bearing (44) for guide rod (43) sliding connection.